Your search keyword '"Sinnema, M."' showing total 90 results

1. Pathogenic neurofibromatosis type 1 (NF1) RNA splicing resolved by targeted RNAseq

Author

Koster, R., Brandão, R. D., Tserpelis, D., van Roozendaal, C. E. P., van Oosterhoud, C. N., Claes, K. B. M., Paulussen, A. D. C., Sinnema, M., Vreeburg, M., van der Schoot, V., Stumpel, C. T. R. M., Broen, M. P. G., Spruijt, L., Jongmans, M. C. J., Lesnik Oberstein, S. A. J., Plomp, A. S., Misra-Isrie, M., Duijkers, F. A., Louwers, M. J., Szklarczyk, R., Derks, K. W. J., Brunner, H. G., van den Wijngaard, A., van Geel, M., and Blok, M. J.

Published

2021

2. The performance of genome sequencing as a first-tier test for neurodevelopmental disorders.

Author

Sanden, B. van der, Schobers, G.M.G., Corominas-Galbany, J., Koolen, D.A., Sinnema, M., Reeuwijk, J. van, Stumpel, C.T., Kleefstra, T., Vries, B.B. de, Ruiterkamp-Versteeg, M., Leijsten, N., Kwint, M.P., Derks, R.C., Swinkels, H.L., Ouden, A.P.M. den, Pfundt, R.P., Rinne, T.K., Leeuw, N. de, Stegmann, A.P.A., Stevens, S.J.C., Wijngaard, A. van den, Brunner, H.G., Yntema, H.G., Gilissen, C., Nelen, M.R., Vissers, L.E.L.M., Sanden, B. van der, Schobers, G.M.G., Corominas-Galbany, J., Koolen, D.A., Sinnema, M., Reeuwijk, J. van, Stumpel, C.T., Kleefstra, T., Vries, B.B. de, Ruiterkamp-Versteeg, M., Leijsten, N., Kwint, M.P., Derks, R.C., Swinkels, H.L., Ouden, A.P.M. den, Pfundt, R.P., Rinne, T.K., Leeuw, N. de, Stegmann, A.P.A., Stevens, S.J.C., Wijngaard, A. van den, Brunner, H.G., Yntema, H.G., Gilissen, C., Nelen, M.R., and Vissers, L.E.L.M.

Abstract

01 januari 2023, Item does not contain fulltext, Genome sequencing (GS) can identify novel diagnoses for patients who remain undiagnosed after routine diagnostic procedures. We tested whether GS is a better first-tier genetic diagnostic test than current standard of care (SOC) by assessing the technical and clinical validity of GS for patients with neurodevelopmental disorders (NDD). We performed both GS and exome sequencing in 150 consecutive NDD patient-parent trios. The primary outcome was diagnostic yield, calculated from disease-causing variants affecting exonic sequence of known NDD genes. GS (30%, n = 45) and SOC (28.7%, n = 43) had similar diagnostic yield. All 43 conclusive diagnoses obtained with SOC testing were also identified by GS. SOC, however, required integration of multiple test results to obtain these diagnoses. GS yielded two more conclusive diagnoses, and four more possible diagnoses than ES-based SOC (35 vs. 31). Interestingly, these six variants detected only by GS were copy number variants (CNVs). Our data demonstrate the technical and clinical validity of GS to serve as routine first-tier genetic test for patients with NDD. Although the additional diagnostic yield from GS is limited, GS comprehensively identified all variants in a single experiment, suggesting that GS constitutes a more efficient genetic diagnostic workflow.

Published

2023

3. The clinical and molecular spectrum of the KDM6B-related neurodevelopmental disorder.

Author

Rots, D., Jakub, T.E., Keung, C., Jackson, A., Banka, S., Pfundt, R.P., Vries, B.B.A. de, Jaarsveld, R.H. van, Hopman, S.M.J., Binsbergen, E. van, Valenzuela, I., Hempel, M., Bierhals, T., Kortüm, F., Lecoquierre, F., Goldenberg, A., Hertz, J.M., Andersen, C.B., Kibæk, M., Prijoles, E.J., Stevenson, R.E., Everman, D.B., Patterson, W.G., Meng, L., Gijavanekar, C., Dios, K. De, Lakhani, S., Levy, T., Wagner, M., Wieczorek, D., Benke, P.J., Lopez Garcia, M.S., Perrier, R., Sousa, S.B., Almeida, P.M., Simões, M.J., Isidor, B., Deb, W., Schmanski, A.A., Abdul-Rahman, O., Philippe, C., Bruel, A.L., Faivre, L., Vitobello, A., Thauvin, C., Smits, J.J., Garavelli, L., Caraffi, S.G., Peluso, F., Davis-Keppen, L., Platt, D., Royer, E., Leeuwen, L van, Sinnema, M., Stegmann, A.P.A., Stumpel, C.T., Tiller, G.E., Bosch, D.G.M., Potgieter, S.T., Joss, S., Splitt, M., Holden, S., Prapa, M., Foulds, N., Douzgou, S., Puura, K., Waltes, R., Chiocchetti, A.G., Freitag, C.M., Satterstrom, F.K., Rubeis, S. de, Buxbaum, J., Gelb, B.D., Branko, A., Kushima, I., Howe, J., Scherer, S.W., Arado, A., Baldo, C., Patat, O., Bénédicte, D., Lopergolo, D., Santorelli, F.M., Haack, T.B., Dufke, A., Bertrand, M., Falb, R.J., Rieß, A., Krieg, P., Spranger, S., Bedeschi, M.F., Iascone, M., Josephi-Taylor, S., Roscioli, T., Buckley, M.F., Liebelt, J., Dagli, A.I., Aten, E., Hurst, A.C.E., Hicks, A., Suri, M., Aliu, E., Naik, S., Sidlow, R., Coursimault, J., Nicolas, G., Küpper, H., Petit, F., Ibrahim, V., Top, D., Cara, F. Di, Louie, R.J., Stolerman, E., Brunner, H.G., Vissers, L.E.L.M., Kramer, J.M., Kleefstra, T., Rots, D., Jakub, T.E., Keung, C., Jackson, A., Banka, S., Pfundt, R.P., Vries, B.B.A. de, Jaarsveld, R.H. van, Hopman, S.M.J., Binsbergen, E. van, Valenzuela, I., Hempel, M., Bierhals, T., Kortüm, F., Lecoquierre, F., Goldenberg, A., Hertz, J.M., Andersen, C.B., Kibæk, M., Prijoles, E.J., Stevenson, R.E., Everman, D.B., Patterson, W.G., Meng, L., Gijavanekar, C., Dios, K. De, Lakhani, S., Levy, T., Wagner, M., Wieczorek, D., Benke, P.J., Lopez Garcia, M.S., Perrier, R., Sousa, S.B., Almeida, P.M., Simões, M.J., Isidor, B., Deb, W., Schmanski, A.A., Abdul-Rahman, O., Philippe, C., Bruel, A.L., Faivre, L., Vitobello, A., Thauvin, C., Smits, J.J., Garavelli, L., Caraffi, S.G., Peluso, F., Davis-Keppen, L., Platt, D., Royer, E., Leeuwen, L van, Sinnema, M., Stegmann, A.P.A., Stumpel, C.T., Tiller, G.E., Bosch, D.G.M., Potgieter, S.T., Joss, S., Splitt, M., Holden, S., Prapa, M., Foulds, N., Douzgou, S., Puura, K., Waltes, R., Chiocchetti, A.G., Freitag, C.M., Satterstrom, F.K., Rubeis, S. de, Buxbaum, J., Gelb, B.D., Branko, A., Kushima, I., Howe, J., Scherer, S.W., Arado, A., Baldo, C., Patat, O., Bénédicte, D., Lopergolo, D., Santorelli, F.M., Haack, T.B., Dufke, A., Bertrand, M., Falb, R.J., Rieß, A., Krieg, P., Spranger, S., Bedeschi, M.F., Iascone, M., Josephi-Taylor, S., Roscioli, T., Buckley, M.F., Liebelt, J., Dagli, A.I., Aten, E., Hurst, A.C.E., Hicks, A., Suri, M., Aliu, E., Naik, S., Sidlow, R., Coursimault, J., Nicolas, G., Küpper, H., Petit, F., Ibrahim, V., Top, D., Cara, F. Di, Louie, R.J., Stolerman, E., Brunner, H.G., Vissers, L.E.L.M., Kramer, J.M., and Kleefstra, T.

Abstract

Item does not contain fulltext, De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders.

Published

2023

4. De novo missense variants in RRAGC lead to a fatal mTORopathy of early childhood.

Author

Reijnders, M.R.F., Seibt, A., Brugger, M., Lamers, I.J.C., Ott, T., Klaas, O., Horváth, J., Rose, A.M.S., Craghill, I.M., Brunet, T., Graf, E., Mayerhanser, K., Hellebrekers, D., Pauck, D., Neuen-Jacob, E., Rodenburg, R.J.T., Wieczorek, D., Klee, D., Mayatepek, E., Driessen, G., Bindermann, R., Averdunk, L., Lohmeier, K., Sinnema, M., Stegmann, A.P.A., Roepman, R., Poulter, J.A., Distelmaier, F., Reijnders, M.R.F., Seibt, A., Brugger, M., Lamers, I.J.C., Ott, T., Klaas, O., Horváth, J., Rose, A.M.S., Craghill, I.M., Brunet, T., Graf, E., Mayerhanser, K., Hellebrekers, D., Pauck, D., Neuen-Jacob, E., Rodenburg, R.J.T., Wieczorek, D., Klee, D., Mayatepek, E., Driessen, G., Bindermann, R., Averdunk, L., Lohmeier, K., Sinnema, M., Stegmann, A.P.A., Roepman, R., Poulter, J.A., and Distelmaier, F.

Abstract

01 juli 2023, Contains fulltext : 294778.pdf (Publisher’s version ) (Open Access), PURPOSE: Mechanistic target of rapamycin (mTOR) complex 1 (mTORC1) regulates cell growth in response to nutritional status. Central to the mTORC1 function is the Rag-GTPase heterodimer. One component of the Rag heterodimer is RagC (Ras-related GTP-binding protein C), which is encoded by the RRAGC gene. METHODS: Genetic testing via trio exome sequencing was applied to identify the underlying disease cause in 3 infants with dilated cardiomyopathy, hepatopathy, and brain abnormalities, including pachygyria, polymicrogyria, and septo-optic dysplasia. Studies in patient-derived skin fibroblasts and in a HEK293 cell model were performed to investigate the cellular consequences. RESULTS: We identified 3 de novo missense variants in RRAGC (NM_022157.4: c.269C>A, p.(Thr90Asn), c.353C>T, p.(Pro118Leu), and c.343T>C, p.(Trp115Arg)), which were previously reported as occurring somatically in follicular lymphoma. Studies of patient-derived fibroblasts carrying the p.(Thr90Asn) variant revealed increased cell size, as well as dysregulation of mTOR-related p70S6K (ribosomal protein S6 kinase 1) and transcription factor EB signaling. Moreover, subcellular localization of mTOR was decoupled from metabolic state. We confirmed the key findings for all RRAGC variants described in this study in a HEK293 cell model. CONCLUSION: The above results are in line with a constitutive overactivation of the mTORC1 pathway. Our study establishes de novo missense variants in RRAGC as cause of an early-onset mTORopathy with unfavorable prognosis.

Published

2023

5. A novel distal 22q11.21 microduplication in a 43-year-old male patient with mild intellectual disability, social cognitive dysfunctions, and anxiety

Author

Egger, J.I.M., Verhoeven, W.M.A., Verbeeck, W.J.C., Sinnema, M., Stegmann, A., Stuurop, K., Leeuw, N. de, Egger, J.I.M., Verhoeven, W.M.A., Verbeeck, W.J.C., Sinnema, M., Stegmann, A., Stuurop, K., and Leeuw, N. de

Abstract

Contains fulltext : 299357.pdf (Publisher’s version ) (Open Access), 5 p.

Published

2023

6. Establishing the phenotypic spectrum of ZTTK syndrome by analysis of 52 individuals with variants in SON

Author

Dingemans, A.J.M., Truijen, K.M.G., Kim, J.H., Alaçam, Z., Faivre, L., Collins, K.M., Gerkes, E.H., Haelst, M. van, Laar, I. van de, Lindstrom, K., Nizon, M., Pauling, J., Heropolitańska-Pliszka, E., Plomp, A.S., Racine, C., Sachdev, R., Sinnema, M., Skranes, J., Veenstra-Knol, Hermine E., Verberne, E.A., Vulto-van Silfhout, A.T., Wilsterman, M.E., Ahn, E.E., Vries, B.B.A. de, Vissers, L.E.L.M., Dingemans, A.J.M., Truijen, K.M.G., Kim, J.H., Alaçam, Z., Faivre, L., Collins, K.M., Gerkes, E.H., Haelst, M. van, Laar, I. van de, Lindstrom, K., Nizon, M., Pauling, J., Heropolitańska-Pliszka, E., Plomp, A.S., Racine, C., Sachdev, R., Sinnema, M., Skranes, J., Veenstra-Knol, Hermine E., Verberne, E.A., Vulto-van Silfhout, A.T., Wilsterman, M.E., Ahn, E.E., Vries, B.B.A. de, and Vissers, L.E.L.M.

Abstract

Contains fulltext : 248367.pdf (Publisher’s version ) (Closed access), Zhu-Tokita-Takenouchi-Kim (ZTTK) syndrome, an intellectual disability syndrome first described in 2016, is caused by heterozygous loss-of-function variants in SON. Its encoded protein promotes pre-mRNA splicing of many genes essential for development. Whereas individual phenotypic traits have previously been linked to erroneous splicing of SON target genes, the phenotypic spectrum and the pathogenicity of missense variants have not been further evaluated. We present the phenotypic abnormalities in 52 individuals, including 17 individuals who have not been reported before. In total, loss-of-function variants were detected in 49 individuals (de novo in 47, inheritance unknown in 2), and in 3, a missense variant was observed (2 de novo, 1 inheritance unknown). Phenotypic abnormalities, systematically collected and analyzed in Human Phenotype Ontology, were found in all organ systems. Significant inter-individual phenotypic variability was observed, even in individuals with the same recurrent variant (n = 13). SON haploinsufficiency was previously shown to lead to downregulation of downstream genes, contributing to specific phenotypic features. Similar functional analysis for one missense variant, however, suggests a different mechanism than for heterozygous loss-of-function. Although small in numbers and while pathogenicity of these variants is not certain, these data allow for speculation whether de novo missense variants cause ZTTK syndrome via another mechanism, or a separate overlapping syndrome. In conclusion, heterozygous loss-of-function variants in SON define a recognizable syndrome, ZTTK, associated with a broad, severe phenotypic spectrum, characterized by a large inter-individual variability. These observations provide essential information for affected individuals, parents, and healthcare professionals to ensure appropriate clinical management.

Published

2022

7. Loss-of-function variants in SRRM2 cause a neurodevelopmental disorder

Author

Cuinat, S., Nizon, M., Isidor, B., Stegmann, Alexander, Jaarsveld, R.H. van, Gassen, K.L.I. van, Smagt, J.J. van der, Volker-Touw, C.M., Holwerda, S.J.B., Terhal, P.A., Schuhmann, S., Vasileiou, G., Khalifa, M., Nugud, A.A., Yasaei, H., Ousager, L.B., Brasch-Andersen, C., Deb, W., Besnard, T., Simon, M.E., Amsterdam, K.H., Verbeek, N.E., Matalon, D., Dykzeul, N., White, S., Spiteri, E., Devriendt, K., Boogaerts, A., Willemsen, M.H., Brunner, H.G., Sinnema, M., Vries, B.B. de, Gerkes, E.H., Pfundt, R.P., Izumi, K., Krantz, I.D., Xu, Z.L., Murrell, J.R., Valenzuela, I., Cusco, I., Rovira-Moreno, E., Yang, Y., Bizaoui, V., Patat, O., Faivre, L., Tran-Mau-Them, F., Vitobello, A., Denommé-Pichon, A.S., Philippe, C., Bezieau, S., Cogné, B., Cuinat, S., Nizon, M., Isidor, B., Stegmann, Alexander, Jaarsveld, R.H. van, Gassen, K.L.I. van, Smagt, J.J. van der, Volker-Touw, C.M., Holwerda, S.J.B., Terhal, P.A., Schuhmann, S., Vasileiou, G., Khalifa, M., Nugud, A.A., Yasaei, H., Ousager, L.B., Brasch-Andersen, C., Deb, W., Besnard, T., Simon, M.E., Amsterdam, K.H., Verbeek, N.E., Matalon, D., Dykzeul, N., White, S., Spiteri, E., Devriendt, K., Boogaerts, A., Willemsen, M.H., Brunner, H.G., Sinnema, M., Vries, B.B. de, Gerkes, E.H., Pfundt, R.P., Izumi, K., Krantz, I.D., Xu, Z.L., Murrell, J.R., Valenzuela, I., Cusco, I., Rovira-Moreno, E., Yang, Y., Bizaoui, V., Patat, O., Faivre, L., Tran-Mau-Them, F., Vitobello, A., Denommé-Pichon, A.S., Philippe, C., Bezieau, S., and Cogné, B.

Abstract

Contains fulltext : 282702.pdf (Publisher’s version ) (Closed access), PURPOSE: SRRM2 encodes the SRm300 protein, a splicing factor of the SR-related protein family characterized by its serine- and arginine-enriched domains. It promotes interactions between messenger RNA and the spliceosome catalytic machinery. This gene, predicted to be highly intolerant to loss of function (LoF) and very conserved through evolution, has not been previously reported in constitutive human disease. METHODS: Among the 1000 probands studied with developmental delay and intellectual disability in our database, we found 2 patients with de novo LoF variants in SRRM2. Additional families were identified through GeneMatcher. RESULTS: Here, we report on 22 patients with LoF variants in SRRM2 and provide a description of the phenotype. Molecular analysis identified 12 frameshift variants, 8 nonsense variants, and 2 microdeletions of 66 kb and 270 kb. The patients presented with a mild developmental delay, predominant speech delay, autistic or attention-deficit/hyperactivity disorder features, overfriendliness, generalized hypotonia, overweight, and dysmorphic facial features. Intellectual disability was variable and mild when present. CONCLUSION: We established SRRM2 as a gene responsible for a rare neurodevelopmental disease.

Published

2022

8. Genomic and phenotypic characterization of 404 individuals with neurodevelopmental disorders caused by CTNNB1 variants

Author

Kayumi, S, Perez-Jurado, LA, Palomares, M, Rangu, S, Sheppard, SE, Chung, WK, Kruer, MC, Kharbanda, M, Amor, DJ, McGillivray, G, Cohen, JS, Garcia-Minaur, S, van Eyk, CL, Harper, K, Jolly, LA, Webber, DL, Barnett, CP, Santos-Simarro, F, Pacio-Miguez, M, del Pozo, A, Bakhtiari, S, Deardorff, M, Dubbs, HA, Izumi, K, Grand, K, Gray, C, Mark, PR, Bhoj, EJ, Li, D, Ortiz-Gonzalez, XR, Keena, B, Zackai, EH, Goldberg, EM, de Nanclares, GP, Pereda, A, Llano-Rivas, I, Arroyo, I, Fernandez-Cuesta, MA, Thauvin-Robinet, C, Faivre, L, Garde, A, Mazel, B, Bruel, A-L, Tress, ML, Brilstra, E, Fine, AS, Crompton, KE, Stegmann, APA, Sinnema, M, Stevens, SCJ, Nicolai, J, Lesca, G, Lion-Francois, L, Haye, D, Chatron, N, Piton, A, Nizon, M, Cogne, B, Srivastava, S, Bassetti, J, Muss, C, Gripp, KW, Procopio, RA, Millan, F, Morrow, MM, Assaf, M, Moreno-De-Luca, A, Joss, S, Hamilton, MJ, Bertoli, M, Foulds, N, McKee, S, MacLennan, AH, Gecz, J, Corbett, MA, Kayumi, S, Perez-Jurado, LA, Palomares, M, Rangu, S, Sheppard, SE, Chung, WK, Kruer, MC, Kharbanda, M, Amor, DJ, McGillivray, G, Cohen, JS, Garcia-Minaur, S, van Eyk, CL, Harper, K, Jolly, LA, Webber, DL, Barnett, CP, Santos-Simarro, F, Pacio-Miguez, M, del Pozo, A, Bakhtiari, S, Deardorff, M, Dubbs, HA, Izumi, K, Grand, K, Gray, C, Mark, PR, Bhoj, EJ, Li, D, Ortiz-Gonzalez, XR, Keena, B, Zackai, EH, Goldberg, EM, de Nanclares, GP, Pereda, A, Llano-Rivas, I, Arroyo, I, Fernandez-Cuesta, MA, Thauvin-Robinet, C, Faivre, L, Garde, A, Mazel, B, Bruel, A-L, Tress, ML, Brilstra, E, Fine, AS, Crompton, KE, Stegmann, APA, Sinnema, M, Stevens, SCJ, Nicolai, J, Lesca, G, Lion-Francois, L, Haye, D, Chatron, N, Piton, A, Nizon, M, Cogne, B, Srivastava, S, Bassetti, J, Muss, C, Gripp, KW, Procopio, RA, Millan, F, Morrow, MM, Assaf, M, Moreno-De-Luca, A, Joss, S, Hamilton, MJ, Bertoli, M, Foulds, N, McKee, S, MacLennan, AH, Gecz, J, and Corbett, MA

Abstract

PURPOSE: Germline loss-of-function variants in CTNNB1 cause neurodevelopmental disorder with spastic diplegia and visual defects (NEDSDV; OMIM 615075) and are the most frequent, recurrent monogenic cause of cerebral palsy (CP). We investigated the range of clinical phenotypes owing to disruptions of CTNNB1 to determine the association between NEDSDV and CP. METHODS: Genetic information from 404 individuals with collectively 392 pathogenic CTNNB1 variants were ascertained for the study. From these, detailed phenotypes for 52 previously unpublished individuals were collected and combined with 68 previously published individuals with comparable clinical information. The functional effects of selected CTNNB1 missense variants were assessed using TOPFlash assay. RESULTS: The phenotypes associated with pathogenic CTNNB1 variants were similar. A diagnosis of CP was not significantly associated with any set of traits that defined a specific phenotypic subgroup, indicating that CP is not additional to NEDSDV. Two CTNNB1 missense variants were dominant negative regulators of WNT signaling, highlighting the utility of the TOPFlash assay to functionally assess variants. CONCLUSION: NEDSDV is a clinically homogeneous disorder irrespective of initial clinical diagnoses, including CP, or entry points for genetic testing.

Published

2022

9. Mutation-specific pathophysiological mechanisms define different neurodevelopmental disorders associated with SATB1 dysfunction

Author

Hoed, J. den, Boer, E. de, Voisin, N., Dingemans, A.J.M., Guex, N., Wiel, L.J.M. van de, Nellaker, C., Amudhavalli, S.M., Banka, S., Bena, F.S., Ben-Zeev, B., Bonagura, V.R., Bruel, A.L., Brunet, T., Brunner, H.G., Chew, H.B., Chrast, J., Cimbalistienė, L., Coon, H., Délot, E.C., Démurger, F., Denommé-Pichon, A.S., Depienne, C., Donnai, D., Dyment, D.A., Elpeleg, O., Faivre, L., Gilissen, C.F., Granger, L., Haber, B., Hachiya, Y., Abedi, Y.H., Hanebeck, J., Hehir-Kwa, J.Y., Horist, B., Itai, T., Jackson, A., Jewell, R., Jones, K.L., Joss, S., Kashii, H., Kato, M., Kattentidt-Mouravieva, A.A., Kok, F., Kotzaeridou, U., Krishnamurthy, V., Kučinskas, V., Kuechler, A., Lavillaureix, A., Liu, P, Manwaring, L., Matsumoto, N., Mazel, B., McWalter, K., Meiner, V., Mikati, M.A., Miyatake, S., Mizuguchi, T., Moey, L.H., Mohammed, S, Mor-Shaked, H., Mountford, H., Newbury-Ecob, R., Odent, S., Orec, L., Osmond, M., Palculict, T.B., Parker, M., Petersen, A.K., Pfundt, R.P., Preikšaitienė, E., Radtke, K., Ranza, E., Rosenfeld, J.A., Santiago-Sim, T., Schwager, C., Sinnema, M., Snijders Blok, L., Spillmann, R.C., Stegmann, A.P.A., Thiffault, I., Tran, L., Vaknin-Dembinsky, A., Vedovato-Dos-Santos, J.H., Schrier Vergano, S.A., Vilain, E., Vitobello, A., Wagner, M., Waheeb, A., Willing, M., Zuccarelli, B., Kini, U., Newbury, D.F., Kleefstra, T., Reymond, A., Fisher, S.E., Vissers, L.E.L.M., Hoed, J. den, Boer, E. de, Voisin, N., Dingemans, A.J.M., Guex, N., Wiel, L.J.M. van de, Nellaker, C., Amudhavalli, S.M., Banka, S., Bena, F.S., Ben-Zeev, B., Bonagura, V.R., Bruel, A.L., Brunet, T., Brunner, H.G., Chew, H.B., Chrast, J., Cimbalistienė, L., Coon, H., Délot, E.C., Démurger, F., Denommé-Pichon, A.S., Depienne, C., Donnai, D., Dyment, D.A., Elpeleg, O., Faivre, L., Gilissen, C.F., Granger, L., Haber, B., Hachiya, Y., Abedi, Y.H., Hanebeck, J., Hehir-Kwa, J.Y., Horist, B., Itai, T., Jackson, A., Jewell, R., Jones, K.L., Joss, S., Kashii, H., Kato, M., Kattentidt-Mouravieva, A.A., Kok, F., Kotzaeridou, U., Krishnamurthy, V., Kučinskas, V., Kuechler, A., Lavillaureix, A., Liu, P, Manwaring, L., Matsumoto, N., Mazel, B., McWalter, K., Meiner, V., Mikati, M.A., Miyatake, S., Mizuguchi, T., Moey, L.H., Mohammed, S, Mor-Shaked, H., Mountford, H., Newbury-Ecob, R., Odent, S., Orec, L., Osmond, M., Palculict, T.B., Parker, M., Petersen, A.K., Pfundt, R.P., Preikšaitienė, E., Radtke, K., Ranza, E., Rosenfeld, J.A., Santiago-Sim, T., Schwager, C., Sinnema, M., Snijders Blok, L., Spillmann, R.C., Stegmann, A.P.A., Thiffault, I., Tran, L., Vaknin-Dembinsky, A., Vedovato-Dos-Santos, J.H., Schrier Vergano, S.A., Vilain, E., Vitobello, A., Wagner, M., Waheeb, A., Willing, M., Zuccarelli, B., Kini, U., Newbury, D.F., Kleefstra, T., Reymond, A., Fisher, S.E., and Vissers, L.E.L.M.

Abstract

Contains fulltext : 231687.pdf (Publisher’s version ) (Closed access), Whereas large-scale statistical analyses can robustly identify disease-gene relationships, they do not accurately capture genotype-phenotype correlations or disease mechanisms. We use multiple lines of independent evidence to show that different variant types in a single gene, SATB1, cause clinically overlapping but distinct neurodevelopmental disorders. Clinical evaluation of 42 individuals carrying SATB1 variants identified overt genotype-phenotype relationships, associated with different pathophysiological mechanisms, established by functional assays. Missense variants in the CUT1 and CUT2 DNA-binding domains result in stronger chromatin binding, increased transcriptional repression, and a severe phenotype. In contrast, variants predicted to result in haploinsufficiency are associated with a milder clinical presentation. A similarly mild phenotype is observed for individuals with premature protein truncating variants that escape nonsense-mediated decay, which are transcriptionally active but mislocalized in the cell. Our results suggest that in-depth mutation-specific genotype-phenotype studies are essential to capture full disease complexity and to explain phenotypic variability.

Published

2021

10. Characterization of SETD1A haploinsufficiency in humans and Drosophila defines a novel neurodevelopmental syndrome

Author

Kummeling, J., Stremmelaar, D.E., Raun, N., Reijnders, M.R., Willemsen, M.H., Ruiterkamp-Versteeg, M., Schepens, M.T.M., Man, C.C.O., Gilissen, C.F.H.A., Cho, M.T., McWalter, K., Sinnema, M., Wheless, J.W., Simon, M.E., Genetti, C.A., Casey, A.M., Terhal, P.A., Smagt, J.J. van der, Gassen, K.L.I. van, Joset, P., Bahr, A., Steindl, K., Rauch, A., Keller, E., Raas-Rothschild, A., Koolen, D.A., Agrawal, P.B., Hoffman, T.L., Powell-Hamilton, N.N., Thiffault, I., Engleman, K., Zhou, D., Bodamer, O., Hoefele, J., Riedhammer, K.M., Schwaibold, E.M.C., Tasic, V., Schubert, D., Top, D., Pfundt, R.P., Higgs, M.R., Kramer, J.M., Kleefstra, T., Kummeling, J., Stremmelaar, D.E., Raun, N., Reijnders, M.R., Willemsen, M.H., Ruiterkamp-Versteeg, M., Schepens, M.T.M., Man, C.C.O., Gilissen, C.F.H.A., Cho, M.T., McWalter, K., Sinnema, M., Wheless, J.W., Simon, M.E., Genetti, C.A., Casey, A.M., Terhal, P.A., Smagt, J.J. van der, Gassen, K.L.I. van, Joset, P., Bahr, A., Steindl, K., Rauch, A., Keller, E., Raas-Rothschild, A., Koolen, D.A., Agrawal, P.B., Hoffman, T.L., Powell-Hamilton, N.N., Thiffault, I., Engleman, K., Zhou, D., Bodamer, O., Hoefele, J., Riedhammer, K.M., Schwaibold, E.M.C., Tasic, V., Schubert, D., Top, D., Pfundt, R.P., Higgs, M.R., Kramer, J.M., and Kleefstra, T.

Abstract

Item does not contain fulltext, Defects in histone methyltransferases (HMTs) are major contributing factors in neurodevelopmental disorders (NDDs). Heterozygous variants of SETD1A involved in histone H3 lysine 4 (H3K4) methylation were previously identified in individuals with schizophrenia. Here, we define the clinical features of the Mendelian syndrome associated with haploinsufficiency of SETD1A by investigating 15 predominantly pediatric individuals who all have de novo SETD1A variants. These individuals present with a core set of symptoms comprising global developmental delay and/or intellectual disability, subtle facial dysmorphisms, behavioral and psychiatric problems. We examined cellular phenotypes in three patient-derived lymphoblastoid cell lines with three variants: p.Gly535Alafs*12, c.4582-2_4582delAG, and p.Tyr1499Asp. These patient cell lines displayed DNA damage repair defects that were comparable to previously observed RNAi-mediated depletion of SETD1A. This suggested that these variants, including the p.Tyr1499Asp in the catalytic SET domain, behave as loss-of-function (LoF) alleles. Previous studies demonstrated a role for SETD1A in cell cycle control and differentiation. However, individuals with SETD1A variants do not show major structural brain defects or severe microcephaly, suggesting that defective proliferation and differentiation of neural progenitors is unlikely the single underlying cause of the disorder. We show here that the Drosophila melanogaster SETD1A orthologue is required in postmitotic neurons of the fly brain for normal memory, suggesting a role in post development neuronal function. Together, this study defines a neurodevelopmental disorder caused by dominant de novo LoF variants in SETD1A and further supports a role for H3K4 methyltransferases in the regulation of neuronal processes underlying normal cognitive functioning.

Published

2021

11. Pathogenic neurofibromatosis type 1 (NF1) RNA splicing resolved by targeted RNAseq

Author

CMM Groep Cuppen, MS Urologische Oncologie, Cancer, Genetica, Genetica Klinische Genetica, Child Health, Psychosociale zorg patientenzorg, Other research (not in main researchprogram), Koster, R., Brandão, R. D., Tserpelis, D., van Roozendaal, C. E.P., van Oosterhoud, C. N., Claes, K. B.M., Paulussen, A. D.C., Sinnema, M., Vreeburg, M., van der Schoot, V., Stumpel, C. T.R.M., Broen, M. P.G., Spruijt, L., Jongmans, M. C.J., Lesnik Oberstein, S. A.J., Plomp, A. S., Misra-Isrie, M., Duijkers, F. A., Louwers, M. J., Szklarczyk, R., Derks, K. W.J., Brunner, H. G., van den Wijngaard, A., van Geel, M., Blok, M. J., CMM Groep Cuppen, MS Urologische Oncologie, Cancer, Genetica, Genetica Klinische Genetica, Child Health, Psychosociale zorg patientenzorg, Other research (not in main researchprogram), Koster, R., Brandão, R. D., Tserpelis, D., van Roozendaal, C. E.P., van Oosterhoud, C. N., Claes, K. B.M., Paulussen, A. D.C., Sinnema, M., Vreeburg, M., van der Schoot, V., Stumpel, C. T.R.M., Broen, M. P.G., Spruijt, L., Jongmans, M. C.J., Lesnik Oberstein, S. A.J., Plomp, A. S., Misra-Isrie, M., Duijkers, F. A., Louwers, M. J., Szklarczyk, R., Derks, K. W.J., Brunner, H. G., van den Wijngaard, A., van Geel, M., and Blok, M. J.

Published

2021

12. Mutation-specific pathophysiological mechanisms in a new SATB1-associated neurodevelopmental disorder

Author

den Hoed, J., De Boer, E., Voisin, N., Guex, N., Blok, L. Snijders, Chrast, J., Manwaring, L., Willing, M., Waheeb, A., Osmond, M., McWalter, K., Vitobello, A., Demurger, F., Lavillaureix, A., Odent, S., Mazel, B., Faivre, L., Thiffault, I., Schwager, C., Amudhavalli, S. M., Rosenfeld, J. A., Radtke, K., Preiksaitiene, E., Ranza, E., Depienne, C., Kuechler, A., Mohammed, S., Abedi, Y. Hamzavi, Bonagura, V. R., Zuccarelli, B., Horist, B., Krishnamurthy, V., Kattentidt-Mouravieva, A. A., Granger, L., Petersen, A., Jones, K. L., Sinnema, M., Stegmann, A. P. A., Newbury-Ecob, R., Kini, U., Newbury, D. F., Gilissen, C., Brunner, H., Kleefstra, T., Reymond, A., Vissers, L. E. L. M., Fisher, S. E., Donders Institute for Brain, Cognition and Behaviour, Radboud university [Nijmegen], Université de Lausanne (UNIL), Washington University in Saint Louis (WUSTL), GeneDx [Gaithersburg, MD, USA], Université Bourgogne Franche-Comté [COMUE] (UBFC), Centre Hospitalier Universitaire de Dijon - Hôpital François Mitterrand (CHU Dijon), Groupe Hospitalier Bretagne Sud (GHBS), Institut de Génétique et Développement de Rennes (IGDR), Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique )-Centre National de la Recherche Scientifique (CNRS)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Ambry Genetics [Aliso Viejo, CA, USA], University of Kansas [Lawrence] (KU), Maastricht University [Maastricht], Radboud University [Nijmegen], Université de Lausanne = University of Lausanne (UNIL), and Université de Rennes (UR)-Centre National de la Recherche Scientifique (CNRS)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique )

Subjects

[SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2020

13. A recurrent de novo PACS2 heterozygous missense variant causes neonatal-onset developmental epileptic encephalopathy, facial dysmorphism and cerebellar dysgenesis

Author

Jean-Marcais, N., Olson, H. E., Yang, E., Heron, D., Tatton-Brown, K., van der Zwaag, P. A., Bijlsma, E. K., Krock, B. L., Backer, E., Kamsteeg, E., Sinnema, M., Reijnders, M. R. F., Bearden, D., Lunsing, R. J., Burglen, L., Lesca, G., Smith, L. A., Sheidley, B., Pearl, P. L., El Achkar, C. Moufawad, Poduri, A., Skraban, C. M., Nesbitt, A. I., van de Putte, D. E. Fransen, Ruivenkamp, C. A. L., Rump, P., Sabatier, I., Sweetser, D. A., Waxler, J. L., Tarpinian, J., Wierenga, K. J., Donadieu, J., Narayanan, V., Ramsey, K. M., Nava, C., Lelieveld, S. H., Schuurs-Hoeijmakers, J., Brunner, H. G., Keren, B., Mau-Them, F. Tran, Thevenon, J., Faivre, L., Thomas, G., and Thauvin-Robinet, C.

Published

2019

14. Germline AGO2 mutations impair RNA interference and human neurological development

Author

Lessel, D., Zeitler, D.M., Reijnders, M.R.F., Kazantsev, A., Nia, F. Hassani, Bartholomäus, A., Martens, V., Bruckmann, A., Graus, V., McConkie-Rosell, A., McDonald, M., Lozic, B., Tan, E.S., Gerkes, E., Johannsen, J., Denecke, J., Telegrafi, A., Zonneveld-Huijssoon, E., Lemmink, H.H., Cham, B.W.M., Kovacevic, T., Ramsdell, L., Foss, K., Duc, D. Le, Mitter, D., Syrbe, S., Merkenschlager, A., Sinnema, M., Panis, B., Lazier, J., Osmond, M., Hartley, T., Mortreux, J., Busa, T., Missirian, C., Prasun, P., Lüttgen, S., Mannucci, I., Lessel, I., Schob, C., Kindler, S., Pappas, J., Rabin, R., Willemsen, M.H., Gardeitchik, T., Löhner, K., Rump, P., Dias, K.R., Evans, C.A., Andrews, P.I., Roscioli, T., Brunner, H.G., Chijiwa, C., Lewis, M.E.S., Jamra, R.A., Dyment, D.A., Boycott, K.M., Stegmann, A.P.A., Kubisch, C., Tan, Ene-Choo, Mirzaa, G.M., McWalter, K., Kleefstra, T., Pfundt, R.P., Ignatova, Z., Meister, G., Kreienkamp, H.J., Lessel, D., Zeitler, D.M., Reijnders, M.R.F., Kazantsev, A., Nia, F. Hassani, Bartholomäus, A., Martens, V., Bruckmann, A., Graus, V., McConkie-Rosell, A., McDonald, M., Lozic, B., Tan, E.S., Gerkes, E., Johannsen, J., Denecke, J., Telegrafi, A., Zonneveld-Huijssoon, E., Lemmink, H.H., Cham, B.W.M., Kovacevic, T., Ramsdell, L., Foss, K., Duc, D. Le, Mitter, D., Syrbe, S., Merkenschlager, A., Sinnema, M., Panis, B., Lazier, J., Osmond, M., Hartley, T., Mortreux, J., Busa, T., Missirian, C., Prasun, P., Lüttgen, S., Mannucci, I., Lessel, I., Schob, C., Kindler, S., Pappas, J., Rabin, R., Willemsen, M.H., Gardeitchik, T., Löhner, K., Rump, P., Dias, K.R., Evans, C.A., Andrews, P.I., Roscioli, T., Brunner, H.G., Chijiwa, C., Lewis, M.E.S., Jamra, R.A., Dyment, D.A., Boycott, K.M., Stegmann, A.P.A., Kubisch, C., Tan, Ene-Choo, Mirzaa, G.M., McWalter, K., Kleefstra, T., Pfundt, R.P., Ignatova, Z., Meister, G., and Kreienkamp, H.J.

Abstract

Contains fulltext : 229431.pdf (publisher's version ) (Open Access), ARGONAUTE-2 and associated miRNAs form the RNA-induced silencing complex (RISC), which targets mRNAs for translational silencing and degradation as part of the RNA interference pathway. Despite the essential nature of this process for cellular function, there is little information on the role of RISC components in human development and organ function. We identify 13 heterozygous mutations in AGO2 in 21 patients affected by disturbances in neurological development. Each of the identified single amino acid mutations result in impaired shRNA-mediated silencing. We observe either impaired RISC formation or increased binding of AGO2 to mRNA targets as mutation specific functional consequences. The latter is supported by decreased phosphorylation of a C-terminal serine cluster involved in mRNA target release, increased formation of dendritic P-bodies in neurons and global transcriptome alterations in patient-derived primary fibroblasts. Our data emphasize the importance of gene expression regulation through the dynamic AGO2-RNA association for human neuronal development.

Published

2020

15. De Novo and Inherited Loss-of-Function Variants in TLK2: Clinical and Genotype-Phenotype Evaluation of a Distinct Neurodevelopmental Disorder

Author

Reijnders, MRF, Miller, KA, Alvi, M, Goos, JAC, Lees, MM, de Burca, A, Henderson, A, Kraus, A, Mikat, B, de Vries, BBA, Isidor, B, Kerr, B, Marcelis, C, Schluth-Bolard, C, Deshpande, C, Ruivenkamp, CAL, Wieczorek, D, Deciphering Developmental Disorders Study, Baralle, D, Blair, EM, Engels, H, Lüdecke, H-J, Eason, J, Santen, GWE, Clayton-Smith, J, Chandler, K, Tatton-Brown, K, Payne, K, Helbig, K, Radtke, K, Nugent, KM, Cremer, K, Strom, TM, Bird, LM, Sinnema, M, Bitner-Glindzicz, M, van Dooren, MF, Alders, M, Koopmans, M, Brick, L, Kozenko, M, Harline, ML, Klaassens, M, Steinraths, M, Cooper, NS, Edery, P, Yap, P, Terhal, PA, van der Spek, PJ, Lakeman, P, Taylor, RL, Littlejohn, RO, Pfundt, R, Mercimek-Andrews, S, Stegmann, APA, Kant, SG, McLean, S, Joss, S, Swagemakers, SMA, Douzgou, S, Wall, SA, Küry, S, Calpena, E, Koelling, N, McGowan, SJ, Twigg, SRF, Mathijssen, IMJ, Nellaker, C, Brunner, HG, and Wilkie, AOM

Subjects

Adult, Male, Adolescent, kinase, Messenger, Inheritance Patterns, Translocation, Medical and Health Sciences, Cell Line, Young Adult, Genetic, Clinical Research, Loss of Function Mutation, Genetics, 2.1 Biological and endogenous factors, Humans, Aetiology, Child, Preschool, Genetic Association Studies, Genetics & Heredity, Tousled-like, Base Sequence, Human Genome, Neurosciences, Facies, Infant, Deciphering Developmental Disorders Study, Biological Sciences, Brain Disorders, haploinsufficiency, Neurodevelopmental Disorders, intellectual disability, RNA, Female, Protein Kinases, facial averaging, Biotechnology

Abstract

Next-generation sequencing is a powerful tool for the discovery of genes related to neurodevelopmental disorders (NDDs). Here, we report the identification of a distinct syndrome due to de novo or inherited heterozygous mutations in Tousled-like kinase 2 (TLK2) in 38 unrelated individuals and two affected mothers, using whole-exome and whole-genome sequencing technologies, matchmaker databases, and international collaborations. Affected individuals had a consistent phenotype, characterized by mild-borderline neurodevelopmental delay (86%), behavioral disorders (68%), severe gastro-intestinal problems (63%), and facial dysmorphism including blepharophimosis (82%), telecanthus (74%), prominent nasal bridge (68%), broad nasal tip (66%), thin vermilion of the upper lip (62%), and upslanting palpebral fissures (55%). Analysis of cell lines from three affected individuals showed that mutations act through a loss-of-function mechanism in at least two case subjects. Genotype-phenotype analysis and comparison of computationally modeled faces showed that phenotypes of these and other individuals with loss-of-function variants significantly overlapped with phenotypes of individuals with other variant types (missense and C-terminal truncating). This suggests that haploinsufficiency of TLK2 is the most likely underlying disease mechanism, leading to a consistent neurodevelopmental phenotype. This work illustrates the power of international data sharing, by the identification of 40 individuals from 26 different centers in 7 different countries, allowing the identification, clinical delineation, and genotype-phenotype evaluation of a distinct NDD caused by mutations in TLK2.

Published

2018

16. SON haploinsufficiency causes impaired pre-mRNA splicing of CAKUT genes and heterogeneous renal phenotypes

Author

Kim, J.H., Park, E.Y., Chitayat, D., Stachura, D.L., Schaper, J., Lindstrom, K., Jewett, T., Wieczorek, D., Draaisma, J.M., Sinnema, M., Hoeberigs, C., Hempel, M., Bachman, K.K., Seeley, A.H., Stone, J.K., Kong, H.K., Vukadin, L., Richard, A., Shinde, D.N., McWalter, K., Si, Y.C., Douglas, G., Lim, S.T., Vissers, L.E.L.M., Lemaire, M., Ahn, E.E., Kim, J.H., Park, E.Y., Chitayat, D., Stachura, D.L., Schaper, J., Lindstrom, K., Jewett, T., Wieczorek, D., Draaisma, J.M., Sinnema, M., Hoeberigs, C., Hempel, M., Bachman, K.K., Seeley, A.H., Stone, J.K., Kong, H.K., Vukadin, L., Richard, A., Shinde, D.N., McWalter, K., Si, Y.C., Douglas, G., Lim, S.T., Vissers, L.E.L.M., Lemaire, M., and Ahn, E.E.

Abstract

Contains fulltext : 204239.pdf (Publisher’s version ) (Closed access), Although genetic testing is increasingly used in clinical nephrology, a large number of patients with congenital abnormalities of the kidney and urinary tract (CAKUT) remain undiagnosed with current gene panels. Therefore, careful curation of novel genetic findings is key to improving diagnostic yields. We recently described a novel intellectual disability syndrome caused by de novo heterozygous loss-of-function mutations in the gene encoding the splicing factor SON. Here, we show that many of these patients, including two previously unreported, exhibit a wide array of kidney abnormalities. Detailed phenotyping of 14 patients with SON haploinsufficiency identified kidney anomalies in 8 patients, including horseshoe kidney, unilateral renal hypoplasia, and renal cysts. Recurrent urinary tract infections, electrolyte disturbances, and hypertension were also observed in some patients. SON knockdown in kidney cell lines leads to abnormal pre-mRNA splicing, resulting in decreased expression of several established CAKUT genes. Furthermore, these molecular events were observed in patient-derived cells with SON haploinsufficiency. Taken together, our data suggest that the wide spectrum of phenotypes in patients with a pathogenic SON mutation is a consequence of impaired pre-mRNA splicing of several CAKUT genes. We propose that genetic testing panels designed to diagnose children with a kidney phenotype should include the SON gene.

Published

2019

17. De Novo and Inherited Loss-of-Function Variants in TLK2 : Clinical and Genotype-Phenotype Evaluation of a Distinct Neurodevelopmental Disorder

Author

Reijnders, M.R.F., Miller, K.A., Alvi, M., Goos, J.A.C., Lees, M.M., Burca, A. de, Henderson, A., Kraus, A., Mikat, B., Vries, B.B.A. de, Isidor, B., Kerr, B., Marcelis, C.L.M., Schluth-Bolard, C., Deshpande, C., Ruivenkamp, C.A.L., Wieczorek, D., Baralle, D., Blair, E.M., Engels, H., Ludecke, H.J., Eason, J., Santen, G.W.E., Clayton-Smith, J., Chandler, K., Tatton-Brown, K., Payne, K., Helbig, K., Radtke, K., Nugent, K.M., Cremer, K., Strom, T.M., Bird, L.M., Sinnema, M., Bitner-Glindzicz, M., Dooren, M.F. van, Alders, M., Koopmans, M., Brick, L., Kozenko, M., Harline, M.L., Klaassens, M., Steinraths, M., Cooper, N.S., Edery, P., Yap, P., Terhal, P.A., Spek, P.J. van der, Lakeman, P., Taylor, R.L., Littlejohn, R.O., Pfundt, R.P., Mercimek-Andrews, S., Stegmann, A.P.A., Kant, S.G., McLean, S., Joss, S., Swagemakers, S.M.A., Douzgou, S., Wall, S.A., Kury, S., Calpena, E., Koelling, N., McGowan, S.J., Twigg, S.R.F., Mathijssen, I.M.J., Nellaker, C., Brunner, H.G., Wilkie, A.O.M., Plastic and Reconstructive Surgery and Hand Surgery, Clinical Genetics, and Pathology

Subjects

Tousled-like, Facial Averaging, Haploinsufficiency, Intellectual Disability, Kinase, Adult, Male, Adolescent, kinase, viruses, Inheritance Patterns, Medizin, Translocation, Genetic, Cell Line, Young Adult, Loss of Function Mutation, Report, Humans, RNA, Messenger, Child, Genetic Association Studies, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Base Sequence, Facies, Infant, haploinsufficiency, Neurodevelopmental Disorders, intellectual disability, Child, Preschool, Female, Protein Kinases, facial averaging, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]

Abstract

Human adenovirus (HAdV) E1B-55K is a multifunctional regulator of productive viral replication and oncogenic transformation in nonpermissive mammalian cells. These functions depend on E1B-55K's posttranslational modification with the SUMO protein and its binding to HAdV E4orf6. Both early viral proteins recruit specific host factors to form an E3 ubiquitin ligase complex that targets antiviral host substrates for proteasomal degradation. Recently, we reported that the PML-NB associated factor Daxx represses efficient HAdV productive infection and is proteasomally degraded via a SUMO-E1B-55K-dependent, E4orf6-independent pathway, the details of which remained to be established. RNF4, a cellular SUMO-targeted ubiquitin ligase (STUbL), induces ubiquitinylation of specific SUMOy lated proteins and plays an essential role during DNA repair. Here, we show that E1B-55K recruits RNF4 to the insoluble nuclear matrix fraction of the infected cell to support RNF4/Daxx association, promoting Daxx PTM and thus inhibiting this antiviral factor. Removing RNF4 from infected cells using RNA interference resulted in blocking the proper establishment of viral replication centers and significantly diminished viral gene expression. These results provide a model for how HAdV antagonize the antiviral host responses by exploiting the functional capacity of cellular STUbLs. Thus, RNF4 and its STUbL function represent a positive factor during lytic infection and a novel candidate for future therapeutic antiviral intervention strategies.IMPORTANCE Daxx is a PML-NB-associated transcription factor that was recently shown to repress efficient HAdV productive infection. To counteract this antiviral measurement during infection, Daxx is degraded via a novel pathway including viral E1B-55K and host proteasomes. This virus-mediated degradation is independent of the classical HAdV E3 ubiquitin ligase complex, which is essential during viral infection to target other host antiviral substrates. To maintain a productive viral life cycle, HAdV E1B-55K early viral protein inhibits the chromatin-remodeling factor Daxx in a SUMO-dependent manner. In addition, viral E1B-55K protein recruits the STUbL RNF4 and sequesters it into the insoluble fraction of the infected cell. E1B-55K promotes complex formation between RNF4-and E1B-55K-targeted Daxx protein, supporting Daxx posttranslational modification prior to functional inhibition. Hence, RNF4 represents a novel host factor that is beneficial for HAdV gene expression by supporting Daxx counteraction. In this regard, RNF4 and other STUbL proteins might represent novel targets for therapeutic intervention.

Published

2018

18. Mutations in the histone methyltransferase gene KMT2B cause complex early-onset dystonia

Author

Meyer E, Carss KJ, Rankin J, Nichols JM, Grozeva D, Joseph AP, Mencacci NE, Papandreou A, Ng J, Barral S, Ngoh A, Ben-Pazi H, Willemsen MA, Arkadir D, Barnicoat A, Bergman H, Bhate S, Boys A, Darin N, Foulds N, Gutowski N, Hills A, Houlden H, Hurst JA, Israel Z, Kaminska M, Limousin P, Lumsden D, McKee S, Misra S, Mohammed SS, Nakou V, Nicolai J, Nilsson M, Pall H, Peall KJ, Peters GB, Prabhakar P, Reuter MS, Rump P, Segel R, Sinnema M, Smith M, Turnpenny P, White SM, Wieczorek D, Wiethoff S, Wilson BT, Winter G, Wragg C, Pope S, Heales SJ, Morrogh D, UK10K Consortium, Deciphering Developmental Disorders Study, NIHR BioResource Rare Diseases Consortium, Pittman A, Carr LJ, Pérez-Dueñas B, Lin JP, Reis A, Gahl WA, Toro C, Bhatia KP, Wood NW, Kamsteeg EJ, Chong WK, Gissen P, Topf M, Dale RC, Chubb JR, Raymond FL, Kurian MA, and Apollo - University of Cambridge Repository

Subjects

DNA-Binding Proteins, Histones, Male, Dystonia, Adolescent, Lysine, Mutation, Histone Methyltransferases, Humans, Nuclear Proteins, Female, Histone-Lysine N-Methyltransferase, Methylation

Abstract

Histone lysine methylation, mediated by mixed-lineage leukemia (MLL) proteins, is now known to be critical in the regulation of gene expression, genomic stability, cell cycle and nuclear architecture. Despite MLL proteins being postulated as essential for normal development, little is known about the specific functions of the different MLL lysine methyltransferases. Here we report heterozygous variants in the gene KMT2B (also known as MLL4) in 27 unrelated individuals with a complex progressive childhood-onset dystonia, often associated with a typical facial appearance and characteristic brain magnetic resonance imaging findings. Over time, the majority of affected individuals developed prominent cervical, cranial and laryngeal dystonia. Marked clinical benefit, including the restoration of independent ambulation in some cases, was observed following deep brain stimulation (DBS). These findings highlight a clinically recognizable and potentially treatable form of genetic dystonia, demonstrating the crucial role of KMT2B in the physiological control of voluntary movement.

Published

2017

19. De Novo and Inherited Loss-of-Function Variants in TLK2: Clinical and Genotype-Phenotype Evaluation of a Distinct Neurodevelopmental Disorder

Author

Reijnders, M R F, Miller, KA, Alvi, M, Goos, Jacqueline, Lees, MM, de Burca, A, Henderson, A, Kraus, A, Mikat, B, de Vries, BBA, Isidor, B, Kerr, B, Marcelis, C, Schluth-Bolard, C, Deshpande, C, Ruivenkamp, CAL, Wieczorek, D, Baralle, D, Blair, EM, Engels, H, Ludecke, HJ, Eason, J, Santen, GWE, Clayton-Smith, J, Chandler, K, Tatton-Brown, K, Payne, K, Helbig, K, Radtke, K, Nugent, KM, Cremer, K, Strom, TM, Bird, LM, Sinnema, M, Bitner-Glindzicz, M, van Dooren, Marieke, Alders, M, Koopmans, M, Brick, L, Kozenko, M, Harline, ML, Klaassens, M, Steinraths, M, Cooper, NS, Edery, P, Yap, P, Terhal, PA, van der Spek, Peter, Lakeman, P, Taylor, RL, Littlejohn, RO, Pfundt, R, Mercimek-Andrews, S, Stegmann, APA, Kant, SG, McLean, S, Joss, S, Swagemakers, Sigrid, Douzgou, S, Wall, SA, Kury, S, Calpena, E, Koelling, N, McGowan, SJ, Twigg, SRF, Mathijssen, Irene, Nellaker, C, Brunner, HG, Wilkie, AOM, Reijnders, M R F, Miller, KA, Alvi, M, Goos, Jacqueline, Lees, MM, de Burca, A, Henderson, A, Kraus, A, Mikat, B, de Vries, BBA, Isidor, B, Kerr, B, Marcelis, C, Schluth-Bolard, C, Deshpande, C, Ruivenkamp, CAL, Wieczorek, D, Baralle, D, Blair, EM, Engels, H, Ludecke, HJ, Eason, J, Santen, GWE, Clayton-Smith, J, Chandler, K, Tatton-Brown, K, Payne, K, Helbig, K, Radtke, K, Nugent, KM, Cremer, K, Strom, TM, Bird, LM, Sinnema, M, Bitner-Glindzicz, M, van Dooren, Marieke, Alders, M, Koopmans, M, Brick, L, Kozenko, M, Harline, ML, Klaassens, M, Steinraths, M, Cooper, NS, Edery, P, Yap, P, Terhal, PA, van der Spek, Peter, Lakeman, P, Taylor, RL, Littlejohn, RO, Pfundt, R, Mercimek-Andrews, S, Stegmann, APA, Kant, SG, McLean, S, Joss, S, Swagemakers, Sigrid, Douzgou, S, Wall, SA, Kury, S, Calpena, E, Koelling, N, McGowan, SJ, Twigg, SRF, Mathijssen, Irene, Nellaker, C, Brunner, HG, and Wilkie, AOM

Published

2018

20. Prader-Willi syndrome : genotype and phenotype at adult age

Author

Sinnema, M., Sinnema, M., Sinnema, M., and Sinnema, M.

Published

2011

21. Mutations in the histone methyltransferase gene KMT2B cause complex early-onset dystonia

Author

Meyer, E., Carss, K.J., Rankin, J., Nichols, J.M., Grozeva, D., Joseph, A.P., Mencacci, N.E., Papandreou, A., Ng, J., Barral, S., Ngoh, A., Ben-Pazi, H., Willemsen, M.A., Arkadir, D., Barnicoat, A., Bergman, H., Bhate, S., Boys, A., Darin, N., Foulds, N., Gutowski, N., Hills, A., Houlden, H., Hurst, J.A., Israel, Z., Kaminska, M., Limousin, P., Lumsden, D., McKee, S., Misra, S., Mohammed, S.S., Nakou, V., Nicolai, J., Nilsson, M., Pall, H., Peall, K.J., Peters, G.B., Prabhakar, P., Reuter, M.S., Rump, P., Segel, R., Sinnema, M., Smith, M., Turnpenny, P., White, S.M., Wieczorek, D., Wiethoff, S., Wilson, B.T., Winter, G., Wragg, C., Pope, S., Heales, S.J., Morrogh, D., Pittman, A., Carr, L.J., Perez-Duenas, B., Lin, J.P., Reis, A., Gahl, W.A., Toro, C., Bhatia, K.P., Wood, N.W., Kamsteeg, E.J., Chong, W.K., Gissen, P., Topf, M., Dale, R.C., Chubb, J.R., Raymond, F.L., Kurian, M.A., Meyer, E., Carss, K.J., Rankin, J., Nichols, J.M., Grozeva, D., Joseph, A.P., Mencacci, N.E., Papandreou, A., Ng, J., Barral, S., Ngoh, A., Ben-Pazi, H., Willemsen, M.A., Arkadir, D., Barnicoat, A., Bergman, H., Bhate, S., Boys, A., Darin, N., Foulds, N., Gutowski, N., Hills, A., Houlden, H., Hurst, J.A., Israel, Z., Kaminska, M., Limousin, P., Lumsden, D., McKee, S., Misra, S., Mohammed, S.S., Nakou, V., Nicolai, J., Nilsson, M., Pall, H., Peall, K.J., Peters, G.B., Prabhakar, P., Reuter, M.S., Rump, P., Segel, R., Sinnema, M., Smith, M., Turnpenny, P., White, S.M., Wieczorek, D., Wiethoff, S., Wilson, B.T., Winter, G., Wragg, C., Pope, S., Heales, S.J., Morrogh, D., Pittman, A., Carr, L.J., Perez-Duenas, B., Lin, J.P., Reis, A., Gahl, W.A., Toro, C., Bhatia, K.P., Wood, N.W., Kamsteeg, E.J., Chong, W.K., Gissen, P., Topf, M., Dale, R.C., Chubb, J.R., Raymond, F.L., and Kurian, M.A.

Abstract

Item does not contain fulltext, Histone lysine methylation, mediated by mixed-lineage leukemia (MLL) proteins, is now known to be critical in the regulation of gene expression, genomic stability, cell cycle and nuclear architecture. Despite MLL proteins being postulated as essential for normal development, little is known about the specific functions of the different MLL lysine methyltransferases. Here we report heterozygous variants in the gene KMT2B (also known as MLL4) in 27 unrelated individuals with a complex progressive childhood-onset dystonia, often associated with a typical facial appearance and characteristic brain magnetic resonance imaging findings. Over time, the majority of affected individuals developed prominent cervical, cranial and laryngeal dystonia. Marked clinical benefit, including the restoration of independent ambulation in some cases, was observed following deep brain stimulation (DBS). These findings highlight a clinically recognizable and potentially treatable form of genetic dystonia, demonstrating the crucial role of KMT2B in the physiological control of voluntary movement.

Published

2017

22. De Novo Mutations in SON Disrupt RNA Splicing of Genes Essential for Brain Development and Metabolism, Causing an Intellectual-Disability Syndrome

Author

Kim, J.H., Shinde, D.N., Reijnders, M.R.F., Hauser, N.S., Belmonte, R.L., Wilson, G.R., Bosch, D.G.M., Bubulya, P.A., Shashi, V., Petrovski, S., Stone, J.K., Park, E.Y., Veltman, J.A., Sinnema, M., Stumpel, C.T., Draaisma, J.M., Nicolai, J., Yntema, H.G., Lindstrom, K., Vries, B.B. de, Jewett, T., Santoro, S.L., Vogt, J., Bachman, K.K., Seeley, A.H., Krokosky, A., Turner, C., Rohena, L., Hempel, M., Kortum, F., Lessel, D., Neu, A., Strom, T.M., Wieczorek, D., Bramswig, N., Laccone, F.A., Behunova, J., Rehder, H., Gordon, C.T., Rio, M. del, Romana, S., Tang, S., El-Khechen, D., Cho, M.T., McWalter, K., Douglas, G., Baskin, B., Begtrup, A., Funari, T., Schoch, K., Stegmann, A.P., Stevens, S.J., Zhang, D.E., Traver, D., Yao, X., MacArthur, D.G., Brunner, H.G., Mancini, G.M., Myers, R.M., Owen, L.B., Lim, S.T., Stachura, D.L., Vissers, L.E.L.M., Ahn, E.Y., Kim, J.H., Shinde, D.N., Reijnders, M.R.F., Hauser, N.S., Belmonte, R.L., Wilson, G.R., Bosch, D.G.M., Bubulya, P.A., Shashi, V., Petrovski, S., Stone, J.K., Park, E.Y., Veltman, J.A., Sinnema, M., Stumpel, C.T., Draaisma, J.M., Nicolai, J., Yntema, H.G., Lindstrom, K., Vries, B.B. de, Jewett, T., Santoro, S.L., Vogt, J., Bachman, K.K., Seeley, A.H., Krokosky, A., Turner, C., Rohena, L., Hempel, M., Kortum, F., Lessel, D., Neu, A., Strom, T.M., Wieczorek, D., Bramswig, N., Laccone, F.A., Behunova, J., Rehder, H., Gordon, C.T., Rio, M. del, Romana, S., Tang, S., El-Khechen, D., Cho, M.T., McWalter, K., Douglas, G., Baskin, B., Begtrup, A., Funari, T., Schoch, K., Stegmann, A.P., Stevens, S.J., Zhang, D.E., Traver, D., Yao, X., MacArthur, D.G., Brunner, H.G., Mancini, G.M., Myers, R.M., Owen, L.B., Lim, S.T., Stachura, D.L., Vissers, L.E.L.M., and Ahn, E.Y.

Abstract

Item does not contain fulltext, The overall understanding of the molecular etiologies of intellectual disability (ID) and developmental delay (DD) is increasing as next-generation sequencing technologies identify genetic variants in individuals with such disorders. However, detailed analyses conclusively confirming these variants, as well as the underlying molecular mechanisms explaining the diseases, are often lacking. Here, we report on an ID syndrome caused by de novo heterozygous loss-of-function (LoF) mutations in SON. The syndrome is characterized by ID and/or DD, malformations of the cerebral cortex, epilepsy, vision problems, musculoskeletal abnormalities, and congenital malformations. Knockdown of son in zebrafish resulted in severe malformation of the spine, brain, and eyes. Importantly, analyses of RNA from affected individuals revealed that genes critical for neuronal migration and cortex organization (TUBG1, FLNA, PNKP, WDR62, PSMD3, and HDAC6) and metabolism (PCK2, PFKL, IDH2, ACY1, and ADA) are significantly downregulated because of the accumulation of mis-spliced transcripts resulting from erroneous SON-mediated RNA splicing. Our data highlight SON as a master regulator governing neurodevelopment and demonstrate the importance of SON-mediated RNA splicing in human development.

Published

2016

23. De Novo Mutations in SON Disrupt RNA Splicing of Genes Essential for Brain Development and Metabolism, Causing an Intellectual-Disability Syndrome

Author

Kim, J.-H. (Jung-Hyun), Shinde, D.N. (Deepali N.), Reijnders, M.R.F. (Margot R.F.), Hauser, N.S. (Natalie S.), Belmonte, R.L. (Rebecca L.), Wilson, G.R. (Gregory R.), Bosch, D.G.M. (Daniëlle G.M.), Bubulya, P.A. (Paula A.), Shashi, V. (Vandana), Petrovski, S. (Slavé), Stone, J.K. (Joshua K.), Park, E.Y. (Eun Young), Veltman, J.A. (Joris), Sinnema, M. (Margje), Stumpel, C. (Connie), Draaisma, J. (Jos), Nicolai, J. (Joost), Yntema, H.G., Lindstrom, K. (Kristin), Vries, B. (Boukje) de, Jewett, T. (Tamison), Santoro, S.L. (Stephanie L.), Vogt, J. (Julie), Bachman, K.K. (Kristine K.), Seeley, A.H. (Andrea ), Krokosky, A. (Alyson), Turner, C. (Clesson), Rohena, L. (Luis), Hempel, M. (Maja), Kortüm, F. (Fanny), Lessel, D. (Davor), Neu, A. (Axel), Strom, T.M. (Tim), Wieczorek, D. (Dagmar), Bramswig, N. (Nuria), Laccone, F.A. (Franco A.), Behunova, J. (Jana), Rehder, H. (Helga), Gordon, C.T. (Christopher T.), Rio, M. (Marlène), Romana, S. (Serge), Tang, S. (Sha), El-Khechen, D. (Dima), Cho, M.T. (Megan T.), McWalter, K. (Kirsty), Douglas, G. (Ganka), Baskin, B. (Berivan), Begtrup, A. (Amber), Funari, T. (Tara), Schoch, K. (Kelly), Stegmann, A.P.A. (Alexander P.A.), Stevens, S.J., Zhang, D.-E. (Dong-Er), Traver, D. (David), Yao, X. (Xu), MacArthur, D.G. (Daniel G.), Brunner, H.G., Mancini, G.M.S. (Grazia), Myers, R.H. (Richard), Owen, L.B. (Laurie B.), Lim, S.-T. (Ssang-Taek), Stachura, D.L. (David L.), Vissers, L.E.L.M., Ahn, E.-Y.E. (Eun-Young Erin), Kim, J.-H. (Jung-Hyun), Shinde, D.N. (Deepali N.), Reijnders, M.R.F. (Margot R.F.), Hauser, N.S. (Natalie S.), Belmonte, R.L. (Rebecca L.), Wilson, G.R. (Gregory R.), Bosch, D.G.M. (Daniëlle G.M.), Bubulya, P.A. (Paula A.), Shashi, V. (Vandana), Petrovski, S. (Slavé), Stone, J.K. (Joshua K.), Park, E.Y. (Eun Young), Veltman, J.A. (Joris), Sinnema, M. (Margje), Stumpel, C. (Connie), Draaisma, J. (Jos), Nicolai, J. (Joost), Yntema, H.G., Lindstrom, K. (Kristin), Vries, B. (Boukje) de, Jewett, T. (Tamison), Santoro, S.L. (Stephanie L.), Vogt, J. (Julie), Bachman, K.K. (Kristine K.), Seeley, A.H. (Andrea ), Krokosky, A. (Alyson), Turner, C. (Clesson), Rohena, L. (Luis), Hempel, M. (Maja), Kortüm, F. (Fanny), Lessel, D. (Davor), Neu, A. (Axel), Strom, T.M. (Tim), Wieczorek, D. (Dagmar), Bramswig, N. (Nuria), Laccone, F.A. (Franco A.), Behunova, J. (Jana), Rehder, H. (Helga), Gordon, C.T. (Christopher T.), Rio, M. (Marlène), Romana, S. (Serge), Tang, S. (Sha), El-Khechen, D. (Dima), Cho, M.T. (Megan T.), McWalter, K. (Kirsty), Douglas, G. (Ganka), Baskin, B. (Berivan), Begtrup, A. (Amber), Funari, T. (Tara), Schoch, K. (Kelly), Stegmann, A.P.A. (Alexander P.A.), Stevens, S.J., Zhang, D.-E. (Dong-Er), Traver, D. (David), Yao, X. (Xu), MacArthur, D.G. (Daniel G.), Brunner, H.G., Mancini, G.M.S. (Grazia), Myers, R.H. (Richard), Owen, L.B. (Laurie B.), Lim, S.-T. (Ssang-Taek), Stachura, D.L. (David L.), Vissers, L.E.L.M., and Ahn, E.-Y.E. (Eun-Young Erin)

Abstract

The overall understanding of the molecular etiologies of intellectual disability (ID) and developmental delay (DD) is increasing as next-generation sequencing technologies identify genetic variants in individuals with such disorders. However, detailed analyses c

Published

2016

24. Dementia in Older Adults With Intellectual Disabilities—Epidemiology, Presentation, and Diagnosis

Author

Strydom, A., Shooshtari, S., Lee, L., Raykar, V., Torr, J., Tsiouris, J., Jokinen, N., Courtenay, K., Bass, N., Sinnema, M., and Maaskant, M.

Subjects

mental disorders, aging, Alzheimer's disease, comprehensive review, dementia, Down syndrome, intellectual disabilities, Prader-Willi syndrome, Downs syndrome, Alzheimers disease, Rett syndrome, follow-up, mental retardation, natural history, sudden death, learning disabilities, Klinefelter syndrome

Abstract

As life expectancy of people with intellectual disabilities (ID) extends into older age, dementia is an increasing cause of morbidity and mortality. To update and summarize current knowledge on dementia in older adults with ID, the authors conducted a comprehensive review of the published literature from 1997-2008 with a specific focus on: (1) epidemiology of dementia in ID in general as well as in specific genetic syndromes; (2) presentation; and (3) diagnostic criteria for dementia. The review drew upon a combination of searches in electronic databases Medline, EMBASE, and PsycINFO for original research papers in English, Dutch, or German. The authors report that varied methodologies and inherent challenges in diagnosis yield a wide range of reported prevalence rates of dementia. Rates of dementia in the population with intellectual disability not because of Down syndrome (DS) are comparable with or higher than the general population. Alzheimer's disease onset in DS appears earlier and the prevalence increases from under 10% in the 40s to more than 30% in the 50s, with varying prevalence reported for those 60 and older. Incidence rates increase with age. Few studies of dementia in other genetic syndromes were identified. Presentation differs in the ID population compared with the general population; those with DS present with prominent behavioral changes believed to be because of frontal lobe deficits. Authors recommend large-scale collaborative studies of high quality to further knowledge on the epidemiology and clinical presentation of dementia in this population.

Published

2010

25. The use of medical care and the prevalence of serious illness in an adult Prader-Willi syndrome cohort

Author

Sinnema, M., Maaskant, M.A., Schrojenstein Lantman-de Valk, H.M. van, Boer, H. de, Curfs, L.M.G., Schrander-Stumpel, C.T.R.M., Sinnema, M., Maaskant, M.A., Schrojenstein Lantman-de Valk, H.M. van, Boer, H. de, Curfs, L.M.G., and Schrander-Stumpel, C.T.R.M.

Abstract

Item does not contain fulltext, INTRODUCTION: Adults with Prader-Willi syndrome (PWS) have an increased occurrence of several medical conditions. We report on the consequences of high morbidity rates such as prevalence rate of hospital admissions, medication use and surgery in a Dutch cohort of adults with PWS. Special attention is paid to causes and symptoms of serious illness. METHOD: Participants were contacted via the Dutch Prader-Willi Parent Association and through physicians specializing in persons with ID. The persons with PWS and their main caregivers were visited at home. Information was collected through semi-structured interviews on 102 adults with PWS. RESULTS: The need for medical care in the neonatal period is associated with hypotonia and feeding problems. Hospital admissions for respiratory tract infections are frequent. During childhood most hospital admissions were due to PWS syndrome specific surgery. During adolescence hospital admissions occurred for scoliosis surgery and endocrine evaluations. At adult age, hospitalization was associated with inguinal hernia surgery, diabetes mellitus, psychosis, erysipelas, water and drug intoxications. In the older group, respiratory infections were again the main reason for hospital admissions. Frequently used medications at adult age included psychotropics, laxatives, anti-diabetics and dermatologic preparations. Abnormal drinking patterns, problems with anesthesia, decreased ability to vomit, abnormal pain awareness and unpredictable fever responses were frequent and often lead to delayed diagnoses of serious conditions. DISCUSSION: People with PWS are frequent users of medical-care. Reasons for hospitalization and medication use are age specific. Knowledge on the different presentation of symptoms in people with PWS is needed. In case of unexplained illness, disturbances of consciousness and behavioral changes in people with PWS, an infection should be ruled out in the first place. Information from this study may help in preventing con

Published

2013

26. Physical health problems in adults with Prader-Willi syndrome

Author

Sinnema, M., Maaskant, M.A., Schrojenstein Lantman-de Valk, H.M.J. van, Nieuwpoort, I.C. van, Drent, M.L., Curfs, L.M.G., Schrander-Stumpel, C.T.R.M., Sinnema, M., Maaskant, M.A., Schrojenstein Lantman-de Valk, H.M.J. van, Nieuwpoort, I.C. van, Drent, M.L., Curfs, L.M.G., and Schrander-Stumpel, C.T.R.M.

Abstract

Contains fulltext : 98215.pdf (publisher's version ) (Closed access), Prader-Willi syndrome (PWS) is a genetic disorder which is characterized by severe hypotonia and feeding problems in early infancy. In later childhood and adolescence, this is followed by hyperphagia and extreme obesity if the diet is not strictly controlled. Data on physical health problems in adults with PWS are scarce. We report on the prevalence of physical health problems in a Dutch cohort of adults with PWS in relation to age, BMI, and genetic subtype. Participants (n = 102) were retrieved via the Dutch Prader-Willi Parent Association and through physicians specializing in persons with intellectual disabilities (ID). Details regarding physical health problem spanning the participants' lifespan were collected from caretakers through semi-structured interviews. Cardiovascular problems included diabetes mellitus, hypertension, and cerebrovascular accidents. Respiratory infections were frequent in adulthood. In males, cryptorchidism was almost universal, for which 28/48 males had a history of surgery, mostly orchidopexy. None of the women had a regular menstrual cycle. Sixteen individuals had a diagnosis of osteoporosis. Spinal deformation, hip dysplasia, and foot abnormalities were common. Skinpicking, leg edema, and erysipelas were frequent dermatological problems. The findings in our group support the notion that the prevalence of physical health problems is underestimated. This underscores the importance of developing monitoring programs which would help to recognize physical health problems at an early stage.

Published

2011

27. Sleep disturbances and behavioural problems in adults with Prader-Willi syndrome

Author

Maas, A.P.H.M., Sinnema, M., Didden, H.C.M., Maaskant, M.A., Schrander-Stumpel, C.T.R.M., Curfs, L.M.G., Maas, A.P.H.M., Sinnema, M., Didden, H.C.M., Maaskant, M.A., Schrander-Stumpel, C.T.R.M., and Curfs, L.M.G.

Abstract

Contains fulltext : 89221.pdf (publisher's version ) (Closed access), Background Individuals with Prader-Willi syndrome (PWS) are at risk of sleep disturbances, such as excessive daytime sleepiness (EDS) and sleep apnoea, and behavioural problems. Sleep disturbances and their relationship with other variables had not been researched extensively in adults with PWS. Method Sleep disturbances and behavioural problems were investigated in adults with genetically confirmed PWS using standardised questionnaires. Results of adults with paternal deletion (n = 45) were compared with those of adults with maternal uniparental disomy (n = 33). Results Eleven adults with PWS (i.e. 15%) had a current sleep problem, mostly night waking problems. Twenty-six adults with PWS (i.e. 33%) suffered from severe EDS. No differences in prevalence of sleep disturbances between genetic subtypes were found. Seventeen adults with deletion (i.e. 38%) and 17 adults with maternal uniparental disomy (i.e. 52%) had behavioural problems. No significant relationships were found between sleep disturbances and behavioural problems. Conclusions In adults with PWS, EDS is the most common type of sleep disturbance. Men and individuals with relative high body mass index are at increased risk for EDS. More research, aimed at developing a suitable screening instrument for sleep apnoea in adults with PWS, is necessary. Clinical implications of the findings are discussed.

Published

2010

28. Urinary incontinence in persons with Prader-Willi Syndrome

Author

Gontard, A. von, Didden, H.C.M., Sinnema, M., Curfs, L.M.G., Gontard, A. von, Didden, H.C.M., Sinnema, M., and Curfs, L.M.G.

Abstract

Item does not contain fulltext, OBJECTIVE To assess and identify the frequency and type of urinary incontinence (UI), as well as associated symptoms in persons with Prader-Willi syndrome (PWS). PWS is characterized by mental retardation, short stature, obesity and hypogonadism. The behavioural phenotype includes eating problems, temper outbursts, affective disorders, stereotypies and speech abnormalities. UI is common in children with mental retardation in general, but has not been reported systematically in children with PWS so far. MATERIALS AND METHODS The Dutch version of the ‘Parental Questionnaire: Enuresis/Urinary Incontinence’ was completed by 118 parents of children with PWS. This questionnaire includes items referring to day- and night-time wetting, toilet habits, observable voiding behaviours and reactions, urinary tract infections, stool habits and behavioural symptoms. RESULTS The rate of nocturnal enuresis in persons with PWS was 13.6% (16) at a mean age of 15.1 years. 3.8% (5) had additional daytime urinary incontinence, and 3.3% (4) had faecal incontinence. Lower urinary tract symptoms were commonly indicative of overactive bladder, dysfunctional voiding and postponement. Also, the rate of internalizing and externalizing behavioural problems was high. CONCLUSION Urinary incontinence is more common in persons with PWS than in typically developing children, adolescents and adults. As lower urinary tract symptoms are common, detailed assessment and specific treatment of UI should be part of the care of all persons with PWS.

Published

2010

29. Mutation-specific pathophysiological mechanisms define different neurodevelopmental disorders associated with SATB1 dysfunction

Author

den Hoed, J., de Boer, E., Voisin, N., Dingemans, A.J.M., Guex, N., Wiel, L., Nellaker, C., Amudhavalli, S.M., Banka, S., Bena, F.S., Ben-Zeev, B., Bonagura, V.R., Bruel, A.-L., Brunet, T., Brunner, H.G., Chew, H.B., Chrast, J., Cimbalistienė, L., Coon, H., Délot, E.C., Démurger, F., Denommé-Pichon, A.-S., Depienne, C., Donnai, D., Dyment, D.A., Elpeleg, O., Faivre, L., Gilissen, C., Granger, L., Haber, B., Hachiya, Y., Abedi, Y.H., Hanebeck, J., Hehir-Kwa, J.Y., Horist, B., Itai, T., Jackson, A., Jewell, R., Jones, K.L., Joss, S., Kashii, H., Kato, M., Kattentidt-Mouravieva, A.A., Kok, F., Kotzaeridou, U., Krishnamurthy, V., Kučinskas, V., Kuechler, A., Lavillaureix, A., Liu, P., Manwaring, L., Matsumoto, N., Mazel, B., McWalter, K., Meiner, V., Mikati, M.A., Miyatake, S., Mizuguchi, T., Moey, L.H., Mohammed, S., Mor-Shaked, H., Mountford, H., Newbury-Ecob, R., Odent, S., Orec, L., Osmond, M., Palculict, T.B., Parker, M., Petersen, A., Pfundt, R., Preikšaitienė, E., Radtke, K., Ranza, E., Rosenfeld, J.A., Santiago-Sim, T., Schwager, C., Sinnema, M., Blok, L.S., Spillmann, R.C., Stegmann, A.P.A., Thiffault, I., Tran, L., Vaknin-Dembinsky, A., Vedovato-dos-Santos, J.H., Vergano, S.A., Vilain, E., Vitobello, A., Wagner, M., Waheeb, A., Willing, M., Zuccarelli, B., Kini, U., Newbury, D.F., Kleefstra, T., Reymond, A., Fisher, S.E., Vissers, L.E.L.M., den Hoed, J., de Boer, E., Voisin, N., Dingemans, A.J.M., Guex, N., Wiel, L., Nellaker, C., Amudhavalli, S.M., Banka, S., Bena, F.S., Ben-Zeev, B., Bonagura, V.R., Bruel, A.-L., Brunet, T., Brunner, H.G., Chew, H.B., Chrast, J., Cimbalistienė, L., Coon, H., Délot, E.C., Démurger, F., Denommé-Pichon, A.-S., Depienne, C., Donnai, D., Dyment, D.A., Elpeleg, O., Faivre, L., Gilissen, C., Granger, L., Haber, B., Hachiya, Y., Abedi, Y.H., Hanebeck, J., Hehir-Kwa, J.Y., Horist, B., Itai, T., Jackson, A., Jewell, R., Jones, K.L., Joss, S., Kashii, H., Kato, M., Kattentidt-Mouravieva, A.A., Kok, F., Kotzaeridou, U., Krishnamurthy, V., Kučinskas, V., Kuechler, A., Lavillaureix, A., Liu, P., Manwaring, L., Matsumoto, N., Mazel, B., McWalter, K., Meiner, V., Mikati, M.A., Miyatake, S., Mizuguchi, T., Moey, L.H., Mohammed, S., Mor-Shaked, H., Mountford, H., Newbury-Ecob, R., Odent, S., Orec, L., Osmond, M., Palculict, T.B., Parker, M., Petersen, A., Pfundt, R., Preikšaitienė, E., Radtke, K., Ranza, E., Rosenfeld, J.A., Santiago-Sim, T., Schwager, C., Sinnema, M., Blok, L.S., Spillmann, R.C., Stegmann, A.P.A., Thiffault, I., Tran, L., Vaknin-Dembinsky, A., Vedovato-dos-Santos, J.H., Vergano, S.A., Vilain, E., Vitobello, A., Wagner, M., Waheeb, A., Willing, M., Zuccarelli, B., Kini, U., Newbury, D.F., Kleefstra, T., Reymond, A., Fisher, S.E., and Vissers, L.E.L.M.

Abstract

Whereas large-scale statistical analyses can robustly identify disease-gene relationships, they do not accurately capture genotype-phenotype correlations or disease mechanisms. We use multiple lines of independent evidence to show that different variant types in a single gene, SATB1, cause clinically overlapping but distinct neurodevelopmental disorders. Clinical evaluation of 42 individuals carrying SATB1 variants identified overt genotype-phenotype relationships, associated with different pathophysiological mechanisms, established by functional assays. Missense variants in the CUT1 and CUT2 DNA-binding domains result in stronger chromatin binding, increased transcriptional repression and a severe phenotype. In contrast, variants predicted to result in haploinsufficiency are associated with a milder clinical presentation. A similarly mild phenotype is observed for individuals with premature protein truncating variants that escape nonsense-mediated decay, which are transcriptionally active but mislocalized in the cell. Our results suggest that in-depth mutation-specific genotype-phenotype studies are essential to capture full disease complexity and to explain phenotypic variability.

30. D-glyceric aciduria due to GLYCTK mutation: Disease or non-disease?

Author

Kingma SDK, Steinbusch LKM, Aukema SM, Sinnema M, Panis B, Nicolai J, and Rubio-Gozalbo E

Abstract

D-glyceric aciduria (DGA) is caused by D-glycerate-2-kinase deficiency due to biallelic pathogenic variants in GLYCTK. It is associated with variable neurological symptoms. DGA is extremely rare, and genetic variants are only known in 7 previously described patients. We report a new patient with DGA and a novel homozygous GLYCTK variant., Competing Interests: Sandra Kingma has no competing interests. Bianca Panis has no competing interests. Estela Rubio-Gozalbo has no competing interests. Joost Nicolai has no competing interests. Sietse Aukema has no competing interests. Margje Sinnema has no competing interests. Laura Steinbusch has no competing interests. Trial registration: not applicable. The parents of the patient gave informed consent for this study and publication., (© 2024 The Authors.)

Published

2024

31. Variants in LRRC7 lead to intellectual disability, autism, aggression and abnormal eating behaviors.

Author

Willim J, Woike D, Greene D, Das S, Pfeifer K, Yuan W, Lindsey A, Itani O, Böhme AL, Tibbe D, Hönck HH, Hassani Nia F, Zech M, Brunet T, Faivre L, Sorlin A, Vitobello A, Smol T, Colson C, Baranano K, Schatz K, Bayat A, Schoch K, Spillmann R, Davis EE, Conboy E, Vetrini F, Platzer K, Neuser S, Gburek-Augustat J, Grace AN, Mitchell B, Stegmann A, Sinnema M, Meeks N, Saunders C, Cadieux-Dion M, Hoyer J, Van-Gils J, de Sainte-Agathe JM, Thompson ML, Bebin EM, Weisz-Hubshman M, Tabet AC, Verloes A, Levy J, Latypova X, Harder S, Silverman GA, Pak SC, Schedl T, Freson K, Mumford A, Turro E, Schlein C, Shashi V, and Kreienkamp HJ

Subjects

Adolescent, Adult, Animals, Child, Child, Preschool, Female, Humans, Male, Young Adult, HEK293 Cells, Membrane Proteins genetics, Membrane Proteins metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurons metabolism, PDZ Domains genetics, Synapses metabolism, Aggression, Autistic Disorder genetics, Autistic Disorder metabolism, Intellectual Disability genetics

Abstract

Members of the leucine rich repeat (LRR) and PDZ domain (LAP) protein family are essential for animal development and histogenesis. Densin-180, encoded by LRRC7, is the only LAP protein selectively expressed in neurons. Densin-180 is a postsynaptic scaffold at glutamatergic synapses, linking cytoskeletal elements with signalling proteins such as the α-subunit of Ca 2+ /calmodulin-dependent protein kinase II. We have previously observed an association between high impact variants in LRRC7 and Intellectual Disability; also three individual cases with variants in LRRC7 had been described. We identify here 33 individuals (one of them previously described) with a dominant neurodevelopmental disorder due to heterozygous missense or loss-of-function variants in LRRC7. The clinical spectrum involves intellectual disability, autism, ADHD, aggression and, in several cases, hyperphagia-associated obesity. A PDZ domain variant interferes with synaptic targeting of Densin-180 in primary cultured neurons. Using in vitro systems (two hybrid, BioID, coimmunoprecipitation of tagged proteins from 293T cells) we identified new candidate interaction partners for the LRR domain, including protein phosphatase 1 (PP1), and observed that variants in the LRR reduced binding to these proteins. We conclude that LRRC7 encodes a major determinant of intellectual development and behaviour., (© 2024. The Author(s).)

Published

2024

32. Pathogenic variants in KMT2C result in a neurodevelopmental disorder distinct from Kleefstra and Kabuki syndromes.

Author

Rots D, Choufani S, Faundes V, Dingemans AJM, Joss S, Foulds N, Jones EA, Stewart S, Vasudevan P, Dabir T, Park SM, Jewell R, Brown N, Pais L, Jacquemont S, Jizi K, Ravenswaaij-Arts CMAV, Kroes HY, Stumpel CTRM, Ockeloen CW, Diets IJ, Nizon M, Vincent M, Cogné B, Besnard T, Kambouris M, Anderson E, Zackai EH, McDougall C, Donoghue S, O'Donnell-Luria A, Valivullah Z, O'Leary M, Srivastava S, Byers H, Leslie N, Mazzola S, Tiller GE, Vera M, Shen JJ, Boles R, Jain V, Brischoux-Boucher E, Kinning E, Simpson BN, Giltay JC, Harris J, Keren B, Guimier A, Marijon P, Vries BBA, Motter CS, Mendelsohn BA, Coffino S, Gerkes EH, Afenjar A, Visconti P, Bacchelli E, Maestrini E, Delahaye-Duriez A, Gooch C, Hendriks Y, Adams H, Thauvin-Robinet C, Josephi-Taylor S, Bertoli M, Parker MJ, Rutten JW, Caluseriu O, Vernon HJ, Kaziyev J, Zhu J, Kremen J, Frazier Z, Osika H, Breault D, Nair S, Lewis SME, Ceroni F, Viggiano M, Posar A, Brittain H, Giovanna T, Giulia G, Quteineh L, Ha-Vinh Leuchter R, Zonneveld-Huijssoon E, Mellado C, Marey I, Coudert A, Aracena Alvarez MI, Kennis MGP, Bouman A, Roifman M, Amorós Rodríguez MI, Ortigoza-Escobar JD, Vernimmen V, Sinnema M, Pfundt R, Brunner HG, Vissers LELM, Kleefstra T, Weksberg R, and Banka S

Subjects

Humans, Male, Female, Child, Child, Preschool, Neoplasm Proteins genetics, Adolescent, Hypertrichosis genetics, Mutation, Failure to Thrive genetics, Histone-Lysine N-Methyltransferase genetics, Heart Defects, Congenital, Abnormalities, Multiple genetics, Vestibular Diseases genetics, Intellectual Disability genetics, Face abnormalities, Face pathology, DNA-Binding Proteins genetics, Hematologic Diseases genetics, Neurodevelopmental Disorders genetics, Craniofacial Abnormalities genetics, Chromosome Deletion, Chromosomes, Human, Pair 9 genetics, DNA Methylation genetics

Abstract

Trithorax-related H3K4 methyltransferases, KMT2C and KMT2D, are critical epigenetic modifiers. Haploinsufficiency of KMT2C was only recently recognized as a cause of neurodevelopmental disorder (NDD), so the clinical and molecular spectrums of the KMT2C-related NDD (now designated as Kleefstra syndrome 2) are largely unknown. We ascertained 98 individuals with rare KMT2C variants, including 75 with protein-truncating variants (PTVs). Notably, ∼15% of KMT2C PTVs were inherited. Although the most highly expressed KMT2C transcript consists of only the last four exons, pathogenic PTVs were found in almost all the exons of this large gene. KMT2C variant interpretation can be challenging due to segmental duplications and clonal hematopoesis-induced artifacts. Using samples from 27 affected individuals, divided into discovery and validation cohorts, we generated a moderate strength disorder-specific KMT2C DNA methylation (DNAm) signature and demonstrate its utility in classifying non-truncating variants. Based on 81 individuals with pathogenic/likely pathogenic variants, we demonstrate that the KMT2C-related NDD is characterized by developmental delay, intellectual disability, behavioral and psychiatric problems, hypotonia, seizures, short stature, and other comorbidities. The facial module of PhenoScore, applied to photographs of 34 affected individuals, reveals that the KMT2C-related facial gestalt is significantly different from the general NDD population. Finally, using PhenoScore and DNAm signatures, we demonstrate that the KMT2C-related NDD is clinically and epigenetically distinct from Kleefstra and Kabuki syndromes. Overall, we define the clinical features, molecular spectrum, and DNAm signature of the KMT2C-related NDD and demonstrate they are distinct from Kleefstra and Kabuki syndromes highlighting the need to rename this condition., Competing Interests: Declaration of interests R.W. is a consultant (equity) for Alamya Health., (Copyright © 2024 American Society of Human Genetics. All rights reserved.)

Published

2024

33. PSMD11 loss-of-function variants correlate with a neurobehavioral phenotype, obesity, and increased interferon response.

Author

Deb W, Rosenfelt C, Vignard V, Papendorf JJ, Möller S, Wendlandt M, Studencka-Turski M, Cogné B, Besnard T, Ruffier L, Toutain B, Poirier L, Cuinat S, Kritzer A, Crunk A, diMonda J, Vengoechea J, Mercier S, Kleinendorst L, van Haelst MM, Zuurbier L, Sulem T, Katrínardóttir H, Friðriksdóttir R, Sulem P, Stefansson K, Jonsdottir B, Zeidler S, Sinnema M, Stegmann APA, Naveh N, Skraban CM, Gray C, Murrell JR, Isikay S, Pehlivan D, Calame DG, Posey JE, Nizon M, McWalter K, Lupski JR, Isidor B, Bolduc FV, Bézieau S, Krüger E, Küry S, and Ebstein F

Subjects

Adolescent, Animals, Child, Child, Preschool, Female, Humans, Male, Interferons metabolism, Interferons genetics, Loss of Function Mutation, Phenotype, Drosophila melanogaster genetics, Intellectual Disability genetics, Neurodevelopmental Disorders genetics, Obesity genetics, Proteasome Endopeptidase Complex genetics, Proteasome Endopeptidase Complex metabolism

Abstract

Primary proteasomopathies have recently emerged as a new class of rare early-onset neurodevelopmental disorders (NDDs) caused by pathogenic variants in the PSMB1, PSMC1, PSMC3, or PSMD12 proteasome genes. Proteasomes are large multi-subunit protein complexes that maintain cellular protein homeostasis by clearing ubiquitin-tagged damaged, misfolded, or unnecessary proteins. In this study, we have identified PSMD11 as an additional proteasome gene in which pathogenic variation is associated with an NDD-causing proteasomopathy. PSMD11 loss-of-function variants caused early-onset syndromic intellectual disability and neurodevelopmental delay with recurrent obesity in 10 unrelated children. Our findings demonstrate that the cognitive impairment observed in these individuals could be recapitulated in Drosophila melanogaster with depletion of the PMSD11 ortholog Rpn6, which compromised reversal learning. Our investigations in subject samples further revealed that PSMD11 loss of function resulted in impaired 26S proteasome assembly and the acquisition of a persistent type I interferon (IFN) gene signature, mediated by the integrated stress response (ISR) protein kinase R (PKR). In summary, these data identify PSMD11 as an additional member of the growing family of genes associated with neurodevelopmental proteasomopathies and provide insights into proteasomal biology in human health., Competing Interests: Declaration of interests A.C. and K.M. are employees of GeneDx, LLC. J.R.L. has stock in 23andMe and is a paid consultant for Genome International., (Copyright © 2024 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2024

34. De novo variants in FRYL are associated with developmental delay, intellectual disability, and dysmorphic features.

Author

Pan X, Tao AM, Lu S, Ma M, Hannan SB, Slaugh R, Drewes Williams S, O'Grady L, Kanca O, Person R, Carter MT, Platzer K, Schnabel F, Abou Jamra R, Roberts AE, Newburger JW, Revah-Politi A, Granadillo JL, Stegmann APA, Sinnema M, Accogli A, Salpietro V, Capra V, Ghaloul-Gonzalez L, Brueckner M, Simon MEH, Sweetser DA, Glinton KE, Kirk SE, Wangler MF, Yamamoto S, Chung WK, and Bellen HJ

Subjects

Animals, Child, Humans, Developmental Disabilities genetics, Developmental Disabilities diagnosis, Mammals, Mutation, Missense, Transcription Factors genetics, Drosophila, Intellectual Disability genetics, Musculoskeletal Abnormalities genetics

Abstract

FRY-like transcription coactivator (FRYL) belongs to a Furry protein family that is evolutionarily conserved from yeast to humans. The functions of FRYL in mammals are largely unknown, and variants in FRYL have not previously been associated with a Mendelian disease. Here, we report fourteen individuals with heterozygous variants in FRYL who present with developmental delay, intellectual disability, dysmorphic features, and other congenital anomalies in multiple systems. The variants are confirmed de novo in all individuals except one. Human genetic data suggest that FRYL is intolerant to loss of function (LoF). We find that the fly FRYL ortholog, furry (fry), is expressed in multiple tissues, including the central nervous system where it is present in neurons but not in glia. Homozygous fry LoF mutation is lethal at various developmental stages, and loss of fry in mutant clones causes defects in wings and compound eyes. We next modeled four out of the five missense variants found in affected individuals using fry knockin alleles. One variant behaves as a severe LoF variant, whereas two others behave as partial LoF variants. One variant does not cause any observable defect in flies, and the corresponding human variant is not confirmed to be de novo, suggesting that this is a variant of uncertain significance. In summary, our findings support that fry is required for proper development in flies and that the LoF variants in FRYL cause a dominant disorder with developmental and neurological symptoms due to haploinsufficiency., Competing Interests: Declaration of interests W.K.C. is a member of the Board of Directors of Prime Medicine and RallyBio. R.P. is an employee of GeneDx, LLC., (Copyright © 2024 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2024

35. A Novel Distal 22Q11.21 Microduplication in a 43-Year-Old Male Patient with Mild Intellectual Disability, Social Cognitive Dysfunctions, and Anxiety.

Author

Egger J, Verhoeven W, Verbeeck W, Sinnema M, Stegmann A, Stuurop K, and De Leeuw N

Abstract

Objective: The chromosome region 22q11.2 is highly susceptible to genomic rearrangements. It has become clear that genomic instability extends distally to the commonly deleted/duplicated region (Low Copy Repeats [LCR] A-D) and that a clear difference exists between the phenotypic presentation of patients with rearrangements in the common region versus that in the distal region (LCR D-H), particularly with respect to developmental and somatic issues. Microdeletions in the 22q11.2 distal region are typically associated with congenital heart defects whereas distal 22q11.2 microduplications are infrequently described and present with a smaller duplicated region and a rather unspecified phenotype., Method: The present paper provides detailed assessments of a middle-aged male with mild intellectual disability, elsewhere diagnosed with autism spectrum disorder. Because of persisting functional complaints, he was referred for second opinion to a specialized outpatient department., Results: High resolution SNP-based array analysis demonstrated a ~1.5 Mb distal microduplication in chromosome 22 flanked by LCR region 22C and LCR22E encompassing among others the disease gene MAPK1. No remarkable facial dysmorphisms were noticed. Autism spectrum disorder was ruled out and it was concluded that the patient was primarily suffering from mild intellectual disability and social cognitive dysfunctions with anxieties and suspicious social interactions, to be understood as a disorder within the anxiety spectrum., Conclusions: The pattern of psychological and psychiatric phenomena was discussed against the background of findings on psychopathology in the chromosome 22 region demarcated by LCR breakpoints C and E. It was suggested that alterations in the MAPK1 gene due to either a deletion or a duplication enhance the vulnerability to develop a psychiatric disorder within the anxiety spectrum., Competing Interests: Competing interests: None., (© 2023 Giovanni Fioriti Editore s.r.l.)

Published

2023

36. De novo missense variants in RRAGC lead to a fatal mTORopathy of early childhood.

Author

Reijnders MRF, Seibt A, Brugger M, Lamers IJC, Ott T, Klaas O, Horváth J, Rose AMS, Craghill IM, Brunet T, Graf E, Mayerhanser K, Hellebrekers D, Pauck D, Neuen-Jacob E, Rodenburg RJT, Wieczorek D, Klee D, Mayatepek E, Driessen G, Bindermann R, Averdunk L, Lohmeier K, Sinnema M, Stegmann APA, Roepman R, Poulter JA, and Distelmaier F

Subjects

Humans, Infant, Fibroblasts metabolism, Genetic Diseases, Inborn genetics, HEK293 Cells, Multiprotein Complexes genetics, Mutation, Missense, Mechanistic Target of Rapamycin Complex 1 genetics, Monomeric GTP-Binding Proteins genetics, Monomeric GTP-Binding Proteins metabolism, TOR Serine-Threonine Kinases genetics, TOR Serine-Threonine Kinases metabolism

Abstract

Purpose: Mechanistic target of rapamycin (mTOR) complex 1 (mTORC1) regulates cell growth in response to nutritional status. Central to the mTORC1 function is the Rag-GTPase heterodimer. One component of the Rag heterodimer is RagC (Ras-related GTP-binding protein C), which is encoded by the RRAGC gene., Methods: Genetic testing via trio exome sequencing was applied to identify the underlying disease cause in 3 infants with dilated cardiomyopathy, hepatopathy, and brain abnormalities, including pachygyria, polymicrogyria, and septo-optic dysplasia. Studies in patient-derived skin fibroblasts and in a HEK293 cell model were performed to investigate the cellular consequences., Results: We identified 3 de novo missense variants in RRAGC (NM_022157.4: c.269C>A, p.(Thr90Asn), c.353C>T, p.(Pro118Leu), and c.343T>C, p.(Trp115Arg)), which were previously reported as occurring somatically in follicular lymphoma. Studies of patient-derived fibroblasts carrying the p.(Thr90Asn) variant revealed increased cell size, as well as dysregulation of mTOR-related p70S6K (ribosomal protein S6 kinase 1) and transcription factor EB signaling. Moreover, subcellular localization of mTOR was decoupled from metabolic state. We confirmed the key findings for all RRAGC variants described in this study in a HEK293 cell model., Conclusion: The above results are in line with a constitutive overactivation of the mTORC1 pathway. Our study establishes de novo missense variants in RRAGC as cause of an early-onset mTORopathy with unfavorable prognosis., Competing Interests: Conflict of Interest The authors declare no conflicts of interest., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

37. The clinical and molecular spectrum of the KDM6B-related neurodevelopmental disorder.

Author

Rots D, Jakub TE, Keung C, Jackson A, Banka S, Pfundt R, de Vries BBA, van Jaarsveld RH, Hopman SMJ, van Binsbergen E, Valenzuela I, Hempel M, Bierhals T, Kortüm F, Lecoquierre F, Goldenberg A, Hertz JM, Andersen CB, Kibæk M, Prijoles EJ, Stevenson RE, Everman DB, Patterson WG, Meng L, Gijavanekar C, De Dios K, Lakhani S, Levy T, Wagner M, Wieczorek D, Benke PJ, Lopez Garcia MS, Perrier R, Sousa SB, Almeida PM, Simões MJ, Isidor B, Deb W, Schmanski AA, Abdul-Rahman O, Philippe C, Bruel AL, Faivre L, Vitobello A, Thauvin C, Smits JJ, Garavelli L, Caraffi SG, Peluso F, Davis-Keppen L, Platt D, Royer E, Leeuwen L, Sinnema M, Stegmann APA, Stumpel CTRM, Tiller GE, Bosch DGM, Potgieter ST, Joss S, Splitt M, Holden S, Prapa M, Foulds N, Douzgou S, Puura K, Waltes R, Chiocchetti AG, Freitag CM, Satterstrom FK, De Rubeis S, Buxbaum J, Gelb BD, Branko A, Kushima I, Howe J, Scherer SW, Arado A, Baldo C, Patat O, Bénédicte D, Lopergolo D, Santorelli FM, Haack TB, Dufke A, Bertrand M, Falb RJ, Rieß A, Krieg P, Spranger S, Bedeschi MF, Iascone M, Josephi-Taylor S, Roscioli T, Buckley MF, Liebelt J, Dagli AI, Aten E, Hurst ACE, Hicks A, Suri M, Aliu E, Naik S, Sidlow R, Coursimault J, Nicolas G, Küpper H, Petit F, Ibrahim V, Top D, Di Cara F, Louie RJ, Stolerman E, Brunner HG, Vissers LELM, Kramer JM, and Kleefstra T

Subjects

Humans, Animals, Facies, Phenotype, Drosophila, Jumonji Domain-Containing Histone Demethylases genetics, Neurodevelopmental Disorders genetics, Neurodevelopmental Disorders pathology, Intellectual Disability pathology

Abstract

De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders., Competing Interests: Declaration of interests S.W.S. is a scientific consultant of Population Bio and the King Abdullaziz University, and Athena Diagnostics has licensed intellectual property from his work held by the Hospital for Sick Children, Toronto., (Copyright © 2023 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2023

38. The performance of genome sequencing as a first-tier test for neurodevelopmental disorders.

Author

van der Sanden BPGH, Schobers G, Corominas Galbany J, Koolen DA, Sinnema M, van Reeuwijk J, Stumpel CTRM, Kleefstra T, de Vries BBA, Ruiterkamp-Versteeg M, Leijsten N, Kwint M, Derks R, Swinkels H, den Ouden A, Pfundt R, Rinne T, de Leeuw N, Stegmann AP, Stevens SJ, van den Wijngaard A, Brunner HG, Yntema HG, Gilissen C, Nelen MR, and Vissers LELM

Subjects

Humans, Genetic Testing methods, Base Sequence, Chromosome Mapping, Exome Sequencing, Neurodevelopmental Disorders diagnosis, Neurodevelopmental Disorders genetics

Abstract

Genome sequencing (GS) can identify novel diagnoses for patients who remain undiagnosed after routine diagnostic procedures. We tested whether GS is a better first-tier genetic diagnostic test than current standard of care (SOC) by assessing the technical and clinical validity of GS for patients with neurodevelopmental disorders (NDD). We performed both GS and exome sequencing in 150 consecutive NDD patient-parent trios. The primary outcome was diagnostic yield, calculated from disease-causing variants affecting exonic sequence of known NDD genes. GS (30%, n = 45) and SOC (28.7%, n = 43) had similar diagnostic yield. All 43 conclusive diagnoses obtained with SOC testing were also identified by GS. SOC, however, required integration of multiple test results to obtain these diagnoses. GS yielded two more conclusive diagnoses, and four more possible diagnoses than ES-based SOC (35 vs. 31). Interestingly, these six variants detected only by GS were copy number variants (CNVs). Our data demonstrate the technical and clinical validity of GS to serve as routine first-tier genetic test for patients with NDD. Although the additional diagnostic yield from GS is limited, GS comprehensively identified all variants in a single experiment, suggesting that GS constitutes a more efficient genetic diagnostic workflow., (© 2022. The Author(s).)

Published

2023

39. Genomic and phenotypic characterization of 404 individuals with neurodevelopmental disorders caused by CTNNB1 variants.

Author

Kayumi S, Pérez-Jurado LA, Palomares M, Rangu S, Sheppard SE, Chung WK, Kruer MC, Kharbanda M, Amor DJ, McGillivray G, Cohen JS, García-Miñaúr S, van Eyk CL, Harper K, Jolly LA, Webber DL, Barnett CP, Santos-Simarro F, Pacio-Míguez M, Pozo AD, Bakhtiari S, Deardorff M, Dubbs HA, Izumi K, Grand K, Gray C, Mark PR, Bhoj EJ, Li D, Ortiz-Gonzalez XR, Keena B, Zackai EH, Goldberg EM, Perez de Nanclares G, Pereda A, Llano-Rivas I, Arroyo I, Fernández-Cuesta MÁ, Thauvin-Robinet C, Faivre L, Garde A, Mazel B, Bruel AL, Tress ML, Brilstra E, Fine AS, Crompton KE, Stegmann APA, Sinnema M, Stevens SCJ, Nicolai J, Lesca G, Lion-François L, Haye D, Chatron N, Piton A, Nizon M, Cogne B, Srivastava S, Bassetti J, Muss C, Gripp KW, Procopio RA, Millan F, Morrow MM, Assaf M, Moreno-De-Luca A, Joss S, Hamilton MJ, Bertoli M, Foulds N, McKee S, MacLennan AH, Gecz J, and Corbett MA

Subjects

Humans, Phenotype, Wnt Signaling Pathway genetics, Genomics, beta Catenin genetics, Neurodevelopmental Disorders genetics, Intellectual Disability genetics

Abstract

Purpose: Germline loss-of-function variants in CTNNB1 cause neurodevelopmental disorder with spastic diplegia and visual defects (NEDSDV; OMIM 615075) and are the most frequent, recurrent monogenic cause of cerebral palsy (CP). We investigated the range of clinical phenotypes owing to disruptions of CTNNB1 to determine the association between NEDSDV and CP., Methods: Genetic information from 404 individuals with collectively 392 pathogenic CTNNB1 variants were ascertained for the study. From these, detailed phenotypes for 52 previously unpublished individuals were collected and combined with 68 previously published individuals with comparable clinical information. The functional effects of selected CTNNB1 missense variants were assessed using TOPFlash assay., Results: The phenotypes associated with pathogenic CTNNB1 variants were similar. A diagnosis of CP was not significantly associated with any set of traits that defined a specific phenotypic subgroup, indicating that CP is not additional to NEDSDV. Two CTNNB1 missense variants were dominant negative regulators of WNT signaling, highlighting the utility of the TOPFlash assay to functionally assess variants., Conclusion: NEDSDV is a clinically homogeneous disorder irrespective of initial clinical diagnoses, including CP, or entry points for genetic testing., Competing Interests: Conflict of Interest F.M. and M.M.M. are employees of GeneDX, Inc. All other authors declare no conflict of interest., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

40. Loss-of-function variants in SRRM2 cause a neurodevelopmental disorder.

Author

Cuinat S, Nizon M, Isidor B, Stegmann A, van Jaarsveld RH, van Gassen KL, van der Smagt JJ, Volker-Touw CML, Holwerda SJB, Terhal PA, Schuhmann S, Vasileiou G, Khalifa M, Nugud AA, Yasaei H, Ousager LB, Brasch-Andersen C, Deb W, Besnard T, Simon MEH, Amsterdam KH, Verbeek NE, Matalon D, Dykzeul N, White S, Spiteri E, Devriendt K, Boogaerts A, Willemsen M, Brunner HG, Sinnema M, De Vries BBA, Gerkes EH, Pfundt R, Izumi K, Krantz ID, Xu ZL, Murrell JR, Valenzuela I, Cusco I, Rovira-Moreno E, Yang Y, Bizaoui V, Patat O, Faivre L, Tran-Mau-Them F, Vitobello A, Denommé-Pichon AS, Philippe C, Bezieau S, and Cogné B

Subjects

Child, Developmental Disabilities genetics, Humans, Muscle Hypotonia genetics, Phenotype, Intellectual Disability genetics, Neurodevelopmental Disorders genetics, RNA-Binding Proteins genetics

Abstract

Purpose: SRRM2 encodes the SRm300 protein, a splicing factor of the SR-related protein family characterized by its serine- and arginine-enriched domains. It promotes interactions between messenger RNA and the spliceosome catalytic machinery. This gene, predicted to be highly intolerant to loss of function (LoF) and very conserved through evolution, has not been previously reported in constitutive human disease., Methods: Among the 1000 probands studied with developmental delay and intellectual disability in our database, we found 2 patients with de novo LoF variants in SRRM2. Additional families were identified through GeneMatcher., Results: Here, we report on 22 patients with LoF variants in SRRM2 and provide a description of the phenotype. Molecular analysis identified 12 frameshift variants, 8 nonsense variants, and 2 microdeletions of 66 kb and 270 kb. The patients presented with a mild developmental delay, predominant speech delay, autistic or attention-deficit/hyperactivity disorder features, overfriendliness, generalized hypotonia, overweight, and dysmorphic facial features. Intellectual disability was variable and mild when present., Conclusion: We established SRRM2 as a gene responsible for a rare neurodevelopmental disease., Competing Interests: Conflict of Interest This work was carried out within the framework of Nantes University Medical Center activity without additional funding. One patient was diagnosed in the context of work in a private company (AiLife Diagnostics, Pearland, Texas). The other authors declare no conflicts of interest., (Copyright © 2022 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published

2022

41. De novo variants in ATP2B1 lead to neurodevelopmental delay.

Author

Rahimi MJ, Urban N, Wegler M, Sticht H, Schaefer M, Popp B, Gaunitz F, Morleo M, Nigro V, Maitz S, Mancini GMS, Ruivenkamp C, Suk EK, Bartolomaeus T, Merkenschlager A, Koboldt D, Bartholomew D, Stegmann APA, Sinnema M, Duynisveld I, Salvarinova R, Race S, de Vries BBA, Trimouille A, Naudion S, Marom D, Hamiel U, Henig N, Demurger F, Rahner N, Bartels E, Hamm JA, Putnam AM, Person R, Abou Jamra R, and Oppermann H

Subjects

HEK293 Cells, Humans, Mutation, Missense genetics, Phenotype, Plasma Membrane Calcium-Transporting ATPases genetics, Intellectual Disability diagnosis, Intellectual Disability genetics, Nervous System Malformations, Neurodevelopmental Disorders genetics

Abstract

Calcium (Ca 2+ ) is a universal second messenger involved in synaptogenesis and cell survival; consequently, its regulation is important for neurons. ATPase plasma membrane Ca 2+ transporting 1 (ATP2B1) belongs to the family of ATP-driven calmodulin-dependent Ca 2+ pumps that participate in the regulation of intracellular free Ca 2+ . Here, we clinically describe a cohort of 12 unrelated individuals with variants in ATP2B1 and an overlapping phenotype of mild to moderate global development delay. Additional common symptoms include autism, seizures, and distal limb abnormalities. Nine probands harbor missense variants, seven of which were in specific functional domains, and three individuals have nonsense variants. 3D structural protein modeling suggested that the variants have a destabilizing effect on the protein. We performed Ca 2+ imaging after introducing all nine missense variants in transfected HEK293 cells and showed that all variants lead to a significant decrease in Ca 2+ export capacity compared with the wild-type construct, thus proving their pathogenicity. Furthermore, we observed for the same variant set an incorrect intracellular localization of ATP2B1. The genetic findings and the overlapping phenotype of the probands as well as the functional analyses imply that de novo variants in ATP2B1 lead to a monogenic form of neurodevelopmental disorder., Competing Interests: Declaration of interests R.P. is an employee of GeneDx, Inc. All other authors declare no competing interests., (Copyright © 2022 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2022

42. Establishing the phenotypic spectrum of ZTTK syndrome by analysis of 52 individuals with variants in SON.

Author

Dingemans AJM, Truijen KMG, Kim JH, Alaçam Z, Faivre L, Collins KM, Gerkes EH, van Haelst M, van de Laar IMBH, Lindstrom K, Nizon M, Pauling J, Heropolitańska-Pliszka E, Plomp AS, Racine C, Sachdev R, Sinnema M, Skranes J, Veenstra-Knol HE, Verberne EA, Vulto-van Silfhout AT, Wilsterman MEF, Ahn EE, de Vries BBA, and Vissers LELM

Subjects

Humans, Mutation, Missense, Phenotype, Syndrome, DNA-Binding Proteins genetics, Intellectual Disability genetics, Minor Histocompatibility Antigens genetics

Abstract

Zhu-Tokita-Takenouchi-Kim (ZTTK) syndrome, an intellectual disability syndrome first described in 2016, is caused by heterozygous loss-of-function variants in SON. Its encoded protein promotes pre-mRNA splicing of many genes essential for development. Whereas individual phenotypic traits have previously been linked to erroneous splicing of SON target genes, the phenotypic spectrum and the pathogenicity of missense variants have not been further evaluated. We present the phenotypic abnormalities in 52 individuals, including 17 individuals who have not been reported before. In total, loss-of-function variants were detected in 49 individuals (de novo in 47, inheritance unknown in 2), and in 3, a missense variant was observed (2 de novo, 1 inheritance unknown). Phenotypic abnormalities, systematically collected and analyzed in Human Phenotype Ontology, were found in all organ systems. Significant inter-individual phenotypic variability was observed, even in individuals with the same recurrent variant (n = 13). SON haploinsufficiency was previously shown to lead to downregulation of downstream genes, contributing to specific phenotypic features. Similar functional analysis for one missense variant, however, suggests a different mechanism than for heterozygous loss-of-function. Although small in numbers and while pathogenicity of these variants is not certain, these data allow for speculation whether de novo missense variants cause ZTTK syndrome via another mechanism, or a separate overlapping syndrome. In conclusion, heterozygous loss-of-function variants in SON define a recognizable syndrome, ZTTK, associated with a broad, severe phenotypic spectrum, characterized by a large inter-individual variability. These observations provide essential information for affected individuals, parents, and healthcare professionals to ensure appropriate clinical management., (© 2021. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published

2022

43. Mutation-specific pathophysiological mechanisms define different neurodevelopmental disorders associated with SATB1 dysfunction.

Author

den Hoed J, de Boer E, Voisin N, Dingemans AJM, Guex N, Wiel L, Nellaker C, Amudhavalli SM, Banka S, Bena FS, Ben-Zeev B, Bonagura VR, Bruel AL, Brunet T, Brunner HG, Chew HB, Chrast J, Cimbalistienė L, Coon H, Délot EC, Démurger F, Denommé-Pichon AS, Depienne C, Donnai D, Dyment DA, Elpeleg O, Faivre L, Gilissen C, Granger L, Haber B, Hachiya Y, Abedi YH, Hanebeck J, Hehir-Kwa JY, Horist B, Itai T, Jackson A, Jewell R, Jones KL, Joss S, Kashii H, Kato M, Kattentidt-Mouravieva AA, Kok F, Kotzaeridou U, Krishnamurthy V, Kučinskas V, Kuechler A, Lavillaureix A, Liu P, Manwaring L, Matsumoto N, Mazel B, McWalter K, Meiner V, Mikati MA, Miyatake S, Mizuguchi T, Moey LH, Mohammed S, Mor-Shaked H, Mountford H, Newbury-Ecob R, Odent S, Orec L, Osmond M, Palculict TB, Parker M, Petersen AK, Pfundt R, Preikšaitienė E, Radtke K, Ranza E, Rosenfeld JA, Santiago-Sim T, Schwager C, Sinnema M, Snijders Blok L, Spillmann RC, Stegmann APA, Thiffault I, Tran L, Vaknin-Dembinsky A, Vedovato-Dos-Santos JH, Schrier Vergano SA, Vilain E, Vitobello A, Wagner M, Waheeb A, Willing M, Zuccarelli B, Kini U, Newbury DF, Kleefstra T, Reymond A, Fisher SE, and Vissers LELM

Subjects

Chromatin metabolism, Female, Genetic Association Studies, Haploinsufficiency, Humans, Male, Matrix Attachment Region Binding Proteins chemistry, Matrix Attachment Region Binding Proteins metabolism, Models, Molecular, Mutation, Missense, Protein Binding, Protein Domains, Transcription, Genetic, Matrix Attachment Region Binding Proteins genetics, Mutation, Neurodevelopmental Disorders genetics

Abstract

Whereas large-scale statistical analyses can robustly identify disease-gene relationships, they do not accurately capture genotype-phenotype correlations or disease mechanisms. We use multiple lines of independent evidence to show that different variant types in a single gene, SATB1, cause clinically overlapping but distinct neurodevelopmental disorders. Clinical evaluation of 42 individuals carrying SATB1 variants identified overt genotype-phenotype relationships, associated with different pathophysiological mechanisms, established by functional assays. Missense variants in the CUT1 and CUT2 DNA-binding domains result in stronger chromatin binding, increased transcriptional repression, and a severe phenotype. In contrast, variants predicted to result in haploinsufficiency are associated with a milder clinical presentation. A similarly mild phenotype is observed for individuals with premature protein truncating variants that escape nonsense-mediated decay, which are transcriptionally active but mislocalized in the cell. Our results suggest that in-depth mutation-specific genotype-phenotype studies are essential to capture full disease complexity and to explain phenotypic variability., (Copyright © 2021 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2021

44. Germline AGO2 mutations impair RNA interference and human neurological development.

Author

Lessel D, Zeitler DM, Reijnders MRF, Kazantsev A, Hassani Nia F, Bartholomäus A, Martens V, Bruckmann A, Graus V, McConkie-Rosell A, McDonald M, Lozic B, Tan ES, Gerkes E, Johannsen J, Denecke J, Telegrafi A, Zonneveld-Huijssoon E, Lemmink HH, Cham BWM, Kovacevic T, Ramsdell L, Foss K, Le Duc D, Mitter D, Syrbe S, Merkenschlager A, Sinnema M, Panis B, Lazier J, Osmond M, Hartley T, Mortreux J, Busa T, Missirian C, Prasun P, Lüttgen S, Mannucci I, Lessel I, Schob C, Kindler S, Pappas J, Rabin R, Willemsen M, Gardeitchik T, Löhner K, Rump P, Dias KR, Evans CA, Andrews PI, Roscioli T, Brunner HG, Chijiwa C, Lewis MES, Jamra RA, Dyment DA, Boycott KM, Stegmann APA, Kubisch C, Tan EC, Mirzaa GM, McWalter K, Kleefstra T, Pfundt R, Ignatova Z, Meister G, and Kreienkamp HJ

Subjects

Adolescent, Animals, Argonaute Proteins chemistry, Child, Child, Preschool, Cluster Analysis, Dendrites metabolism, Fibroblasts metabolism, Gene Silencing, HEK293 Cells, Hippocampus pathology, Humans, Mice, Molecular Dynamics Simulation, Neurons metabolism, Phosphorylation, Protein Domains, RNA, Messenger genetics, RNA, Messenger metabolism, RNA, Small Interfering metabolism, RNA-Induced Silencing Complex metabolism, Rats, Transcriptome genetics, Argonaute Proteins genetics, Germ Cells metabolism, Mutation genetics, Nervous System growth & development, Nervous System metabolism, RNA Interference

Abstract

ARGONAUTE-2 and associated miRNAs form the RNA-induced silencing complex (RISC), which targets mRNAs for translational silencing and degradation as part of the RNA interference pathway. Despite the essential nature of this process for cellular function, there is little information on the role of RISC components in human development and organ function. We identify 13 heterozygous mutations in AGO2 in 21 patients affected by disturbances in neurological development. Each of the identified single amino acid mutations result in impaired shRNA-mediated silencing. We observe either impaired RISC formation or increased binding of AGO2 to mRNA targets as mutation specific functional consequences. The latter is supported by decreased phosphorylation of a C-terminal serine cluster involved in mRNA target release, increased formation of dendritic P-bodies in neurons and global transcriptome alterations in patient-derived primary fibroblasts. Our data emphasize the importance of gene expression regulation through the dynamic AGO2-RNA association for human neuronal development.

Published

2020

45. Pathogenic variants in TNRC6B cause a genetic disorder characterised by developmental delay/intellectual disability and a spectrum of neurobehavioural phenotypes including autism and ADHD.

Author

Granadillo JL, P A Stegmann A, Guo H, Xia K, Angle B, Bontempo K, Ranells JD, Newkirk P, Costin C, Viront J, Stumpel CT, Sinnema M, Panis B, Pfundt R, Krapels IPC, Klaassens M, Nicolai J, Li J, Jiang Y, Marco E, Canton A, Latronico AC, Montenegro L, Leheup B, Bonnet C, M Amudhavalli S, Lawson CE, McWalter K, Telegrafi A, Pearson R, Kvarnung M, Wang X, Bi W, Rosenfeld JA, and Shinawi M

Subjects

Attention Deficit Disorder with Hyperactivity complications, Attention Deficit Disorder with Hyperactivity pathology, Autistic Disorder complications, Autistic Disorder pathology, Child, Child, Preschool, Developmental Disabilities genetics, Developmental Disabilities pathology, Female, Heterozygote, Humans, Intellectual Disability complications, Intellectual Disability genetics, Intellectual Disability pathology, Language Development Disorders genetics, Language Development Disorders pathology, Male, Motor Skills Disorders genetics, Motor Skills Disorders pathology, Mutation genetics, Phenotype, Exome Sequencing, Attention Deficit Disorder with Hyperactivity genetics, Autistic Disorder genetics, Genetic Predisposition to Disease, RNA-Binding Proteins genetics

Abstract

Background: Rare variants in hundreds of genes have been implicated in developmental delay (DD), intellectual disability (ID) and neurobehavioural phenotypes. TNRC6B encodes a protein important for RNA silencing. Heterozygous truncating variants have been reported in three patients from large cohorts with autism, but no full phenotypic characterisation was described., Methods: Clinical and molecular characterisation was performed on 17 patients with TNRC6B variants. Clinical data were obtained by retrospective chart review, parent interviews, direct patient interaction with providers and formal neuropsychological evaluation., Results: Clinical findings included DD/ID (17/17) (speech delay in 94% (16/17), fine motor delay in 82% (14/17) and gross motor delay in 71% (12/17) of subjects), autism or autistic traits (13/17), attention deficit and hyperactivity disorder (ADHD) (11/17), other behavioural problems (7/17) and musculoskeletal findings (12/17). Other congenital malformations or clinical findings were occasionally documented. The majority of patients exhibited some dysmorphic features but no recognisable gestalt was identified. 17 heterozygous TNRC6B variants were identified in 12 male and five female unrelated subjects by exome sequencing (14), a targeted panel (2) and a chromosomal microarray (1). The variants were nonsense (7), frameshift (5), splice site (2), intragenic deletions (2) and missense (1)., Conclusions: Variants in TNRC6B cause a novel genetic disorder characterised by recurrent neurocognitive and behavioural phenotypes featuring DD/ID, autism, ADHD and other behavioural abnormalities. Our data highly suggest that haploinsufficiency is the most likely pathogenic mechanism. TNRC6B should be added to the growing list of genes of the RNA-induced silencing complex associated with ID/DD, autism and ADHD., Competing Interests: Competing interests: KM, AT and RP are employed by GeneDx, and XW, WB, JAR receive salary support from Baylor Genetics Laboratory. Both laboratories offer extensive genetic laboratory testing, including exome sequencing and derive revenue from this activity., (© Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

46. Acute encephalopathy after head trauma in a patient with a RHOBTB2 mutation.

Author

Knijnenburg ACS, Nicolai J, Bok LA, Bay A, Stegmann APA, Sinnema M, and Vreeburg M

Abstract

Objective: De novo missense mutations in the RHOBTB2 gene have been described as causative for developmental and epileptic encephalopathy., Methods: The clinical phenotype of this disorder includes early-onset epilepsy, severe intellectual disability, postnatal microcephaly, and movement disorder. Three RHOBTB2 patients have been described with acute encephalopathy and febrile epileptic status. All showed severe EEG abnormalities during this episode and abnormal MRI with hemisphere swelling or reduced diffusion in various brain regions., Results: We describe the episode of acute encephalopathy after head trauma in a 5-year-old RHOBTB2 patient. At admission, Glasgow coma scale score was E4M4V1. EEG was severely abnormal showing a noncontinuous pattern with slow activity without epileptic activity indicating severe encephalopathy. A second EEG on day 8 was still severely slowed and showed focal delta activity frontotemporal in both hemispheres. Gradually, he recovered, and on day 11, he had regained his normal reactivity, behavior, and mood. Two months after discharge, EEG showed further decrease in slow activity and increase in normal electroencephalographic activity. After discharge, parents noted that he showed more hyperkinetic movements compared to before this period of encephalopathy. Follow-up MRI showed an increment of hippocampal atrophy. In addition, we summarize the clinical characteristics of a second RHOBTB2 patient with increase of focal periventricular atrophy and development of hemiparesis after epileptic status., Conclusions: Acute encephalopathy in RHOBTB2 patients can also be triggered by head trauma., (Copyright © 2020 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2020

47. Letter to the editor according to the study of Schwarze et al.

Author

Sinnema M

Subjects

Dehydroepiandrosterone, Humans, Sperm Injections, Intracytoplasmic, Ovarian Reserve

Published

2019

48. SON haploinsufficiency causes impaired pre-mRNA splicing of CAKUT genes and heterogeneous renal phenotypes.

Author

Kim JH, Park EY, Chitayat D, Stachura DL, Schaper J, Lindstrom K, Jewett T, Wieczorek D, Draaisma JM, Sinnema M, Hoeberigs C, Hempel M, Bachman KK, Seeley AH, Stone JK, Kong HK, Vukadin L, Richard A, Shinde DN, McWalter K, Si YC, Douglas G, Lim ST, Vissers LELM, Lemaire M, and Ahn EE

Subjects

Adolescent, Adult, Child, Child, Preschool, DNA-Binding Proteins metabolism, Female, HEK293 Cells, Humans, Male, Minor Histocompatibility Antigens metabolism, RNA Precursors genetics, RNA Precursors metabolism, TRPP Cation Channels genetics, Urogenital Abnormalities diagnosis, Vesico-Ureteral Reflux diagnosis, DNA-Binding Proteins genetics, Genetic Testing methods, Haploinsufficiency, Minor Histocompatibility Antigens genetics, RNA Splicing genetics, Urogenital Abnormalities genetics, Vesico-Ureteral Reflux genetics

Abstract

Although genetic testing is increasingly used in clinical nephrology, a large number of patients with congenital abnormalities of the kidney and urinary tract (CAKUT) remain undiagnosed with current gene panels. Therefore, careful curation of novel genetic findings is key to improving diagnostic yields. We recently described a novel intellectual disability syndrome caused by de novo heterozygous loss-of-function mutations in the gene encoding the splicing factor SON. Here, we show that many of these patients, including two previously unreported, exhibit a wide array of kidney abnormalities. Detailed phenotyping of 14 patients with SON haploinsufficiency identified kidney anomalies in 8 patients, including horseshoe kidney, unilateral renal hypoplasia, and renal cysts. Recurrent urinary tract infections, electrolyte disturbances, and hypertension were also observed in some patients. SON knockdown in kidney cell lines leads to abnormal pre-mRNA splicing, resulting in decreased expression of several established CAKUT genes. Furthermore, these molecular events were observed in patient-derived cells with SON haploinsufficiency. Taken together, our data suggest that the wide spectrum of phenotypes in patients with a pathogenic SON mutation is a consequence of impaired pre-mRNA splicing of several CAKUT genes. We propose that genetic testing panels designed to diagnose children with a kidney phenotype should include the SON gene., (Copyright © 2019 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published

2019

49. A Recurrent De Novo PACS2 Heterozygous Missense Variant Causes Neonatal-Onset Developmental Epileptic Encephalopathy, Facial Dysmorphism, and Cerebellar Dysgenesis.

Author

Olson HE, Jean-Marçais N, Yang E, Heron D, Tatton-Brown K, van der Zwaag PA, Bijlsma EK, Krock BL, Backer E, Kamsteeg EJ, Sinnema M, Reijnders MRF, Bearden D, Begtrup A, Telegrafi A, Lunsing RJ, Burglen L, Lesca G, Cho MT, Smith LA, Sheidley BR, El Achkar CM, Pearl PL, Poduri A, Skraban CM, Tarpinian J, Nesbitt AI, Fransen van de Putte DE, Ruivenkamp CAL, Rump P, Chatron N, Sabatier I, De Bellescize J, Guibaud L, Sweetser DA, Waxler JL, Wierenga KJ, Donadieu J, Narayanan V, Ramsey KM, Nava C, Rivière JB, Vitobello A, Mau-Them FT, Philippe C, Bruel AL, Duffourd Y, Thomas L, Lelieveld SH, Schuurs-Hoeijmakers J, Brunner HG, Keren B, Thevenon J, Faivre L, Thomas G, and Thauvin-Robinet C

Published

2018

50. Loss-of-function zinc finger mutation in the EGLN1 gene associated with erythrocytosis.

Author

Sinnema M, Song D, Guan W, Janssen JWH, van Wijk R, Navalsky BE, Peng K, Donker AE, Stegmann APA, and Lee FS

Subjects

Adolescent, Amino Acid Sequence, Consanguinity, Female, Humans, Hypoxia-Inducible Factor-Proline Dioxygenases chemistry, Zinc Fingers, Hypoxia-Inducible Factor-Proline Dioxygenases genetics, Loss of Function Mutation, Polycythemia genetics

Published

2018