Your search keyword '"Dudding-Byth T"' showing total 62 results

1. Analgesic use and the risk of renal cell carcinoma – Findings from the Consortium for the Investigation of Renal Malignancies (CONFIRM) study

Author

Bruinsma, F.J., Jordan, S., Bassett, J.K., Severi, G., MacInnis, R.J., Walsh, J., Aitken, T., Jenkins, M., Carroll, R., Jefford, M., Davis, I.D., Tucker, K., Dudding-Byth, T., English, D.R., Giles, G.G., Winship, I., and Milne, R.L.

Published

2021

2. Functional and clinical studies reveal pathophysiological complexity of CLCN4-related neurodevelopmental condition

Author

Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Pusch, M, Picollo, A, Forwood, C, Nguyen, MH ; https://orcid.org/0000-0002-2529-5330, Suckow, V, Gibbons, J, Hoff, A, Sigfrid, L, Megarbane, A, Nizon, M, Cogné, B, Beneteau, C, Alkuraya, FS, Chedrawi, A, Hashem, MO, Stamberger, H, Weckhuysen, S, Vanlander, A, Ceulemans, B, Rajagopalan, S, Nunn, K, Arpin, S, Raynaud, M, Motter, CS, Ward-Melver, C, Janssens, K, Meuwissen, M, Beysen, D, Dikow, N, Grimmel, M, Haack, TB, Clement, E, McTague, A, Hunt, D, Townshend, S, Ward, M, Richards, LJ, Simons, C, Costain, G, Dupuis, L, Mendoza-Londono, R, Dudding-Byth, T, Boyle, J, Saunders, C, Fleming, E, El Chehadeh, S, Spitz, MA, Piton, A, Gerard, B, Abi Warde, MT, Rea, G, McKenna, C, Douzgou, S, Banka, S, Akman, C, Bain, JM, Sands, TT, Wilson, GN, Silvertooth, EJ, Miller, L, Lederer, D, Sachdev, R, Macintosh, R ; https://orcid.org/0000-0001-5036-0264, Monestier, O, Karadurmus, D, Collins, F, Carter, M, Rohena, L, Willemsen, MH, Ockeloen, CW, Pfundt, R, Kroft, SD, Field, M, Laranjeira, FER, Fortuna, AM, Soares, AR, Michaud, V, Naudion, S, Golla, S, Weaver, DD, Bird, LM, Friedman, J, Clowes, V, Joss, S, Pölsler, L, Campeau, PM, Blazo, M, Bijlsma, EK, Rosenfeld, JA, Beetz, C, Powis, Z, McWalter, K, Brandt, T, Torti, E, Mathot, M, Mohammad, SS, Armstrong, R, Kalscheuer, VM, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Pusch, M, Picollo, A, Forwood, C, Nguyen, MH ; https://orcid.org/0000-0002-2529-5330, Suckow, V, Gibbons, J, Hoff, A, Sigfrid, L, Megarbane, A, Nizon, M, Cogné, B, Beneteau, C, Alkuraya, FS, Chedrawi, A, Hashem, MO, Stamberger, H, Weckhuysen, S, Vanlander, A, Ceulemans, B, Rajagopalan, S, Nunn, K, Arpin, S, Raynaud, M, Motter, CS, Ward-Melver, C, Janssens, K, Meuwissen, M, Beysen, D, Dikow, N, Grimmel, M, Haack, TB, Clement, E, McTague, A, Hunt, D, Townshend, S, Ward, M, Richards, LJ, Simons, C, Costain, G, Dupuis, L, Mendoza-Londono, R, Dudding-Byth, T, Boyle, J, Saunders, C, Fleming, E, El Chehadeh, S, Spitz, MA, Piton, A, Gerard, B, Abi Warde, MT, Rea, G, McKenna, C, Douzgou, S, Banka, S, Akman, C, Bain, JM, Sands, TT, Wilson, GN, Silvertooth, EJ, Miller, L, Lederer, D, Sachdev, R, Macintosh, R ; https://orcid.org/0000-0001-5036-0264, Monestier, O, Karadurmus, D, Collins, F, Carter, M, Rohena, L, Willemsen, MH, Ockeloen, CW, Pfundt, R, Kroft, SD, Field, M, Laranjeira, FER, Fortuna, AM, Soares, AR, Michaud, V, Naudion, S, Golla, S, Weaver, DD, Bird, LM, Friedman, J, Clowes, V, Joss, S, Pölsler, L, Campeau, PM, Blazo, M, Bijlsma, EK, Rosenfeld, JA, Beetz, C, Powis, Z, McWalter, K, Brandt, T, Torti, E, Mathot, M, Mohammad, SS, Armstrong, R, and Kalscheuer, VM

Abstract

Missense and truncating variants in the X-chromosome-linked CLCN4 gene, resulting in reduced or complete loss-of-function (LOF) of the encoded chloride/proton exchanger ClC-4, were recently demonstrated to cause a neurocognitive phenotype in both males and females. Through international clinical matchmaking and interrogation of public variant databases we assembled a database of 90 rare CLCN4 missense variants in 90 families: 41 unique and 18 recurrent variants in 49 families. For 43 families, including 22 males and 33 females, we collated detailed clinical and segregation data. To confirm causality of variants and to obtain insight into disease mechanisms, we investigated the effect on electrophysiological properties of 59 of the variants in Xenopus oocytes using extended voltage and pH ranges. Detailed analyses revealed new pathophysiological mechanisms: 25% (15/59) of variants demonstrated LOF, characterized by a “shift” of the voltage-dependent activation to more positive voltages, and nine variants resulted in a toxic gain-of-function, associated with a disrupted gate allowing inward transport at negative voltages. Functional results were not always in line with in silico pathogenicity scores, highlighting the complexity of pathogenicity assessment for accurate genetic counselling. The complex neurocognitive and psychiatric manifestations of this condition, and hitherto under-recognized impacts on growth, gastrointestinal function, and motor control are discussed. Including published cases, we summarize features in 122 individuals from 67 families with CLCN4-related neurodevelopmental condition and suggest future research directions with the aim of improving the integrated care for individuals with this diagnosis.

Published

2023

3. Functional and clinical studies reveal pathophysiological complexity of CLCN4-related neurodevelopmental condition.

Author

Palmer, E.E., Pusch, M., Picollo, A., Forwood, C., Nguyen, M.H., Suckow, V., Gibbons, J., Hoff, A., Sigfrid, L., Megarbane, A., Nizon, M., Cogné, B., Beneteau, C., Alkuraya, F.S., Chedrawi, A., Hashem, M.O., Stamberger, H., Weckhuysen, S., Vanlander, A., Ceulemans, B., Rajagopalan, S., Nunn, K., Arpin, S., Raynaud, M., Motter, C.S., Ward-Melver, C., Janssens, K., Meuwissen, M., Beysen, D., Dikow, N., Grimmel, M., Haack, T.B., Clement, E., McTague, A., Hunt, D., Townshend, S., Ward, M., Richards, L.J., Simons, C., Costain, G., Dupuis, L., Mendoza-Londono, R., Dudding-Byth, T., Boyle, J., Saunders, C., Fleming, E., Chehadeh, S. El, Spitz, M.A., Piton, A., Gerard, B., bi Warde, M.T. A, Rea, G., McKenna, C., Douzgou, S., Banka, S., Akman, C., Bain, J.M., Sands, T.T., Wilson, G.N., Silvertooth, E.J., Miller, L., Lederer, D., Sachdev, R., Macintosh, R., Monestier, O., Karadurmus, D., Collins, F., Carter, M., Rohena, L., Willemsen, M.H., Ockeloen, C.W., Pfundt, R.P., Kroft, S.D., Field, M., Laranjeira, F.E.R., Fortuna, A.M., Soares, A.R., Michaud, V., Naudion, S., Golla, S., Weaver, D.D., Bird, L.M., Friedman, J., Clowes, V., Joss, S., Pölsler, L., Campeau, P.M., Blazo, M., Bijlsma, E.K., Rosenfeld, J.A., Beetz, C., Powis, Z., McWalter, K., Brandt, T., Torti, E., Mathot, M., Mohammad, S.S., Armstrong, R., Kalscheuer, V.M., Palmer, E.E., Pusch, M., Picollo, A., Forwood, C., Nguyen, M.H., Suckow, V., Gibbons, J., Hoff, A., Sigfrid, L., Megarbane, A., Nizon, M., Cogné, B., Beneteau, C., Alkuraya, F.S., Chedrawi, A., Hashem, M.O., Stamberger, H., Weckhuysen, S., Vanlander, A., Ceulemans, B., Rajagopalan, S., Nunn, K., Arpin, S., Raynaud, M., Motter, C.S., Ward-Melver, C., Janssens, K., Meuwissen, M., Beysen, D., Dikow, N., Grimmel, M., Haack, T.B., Clement, E., McTague, A., Hunt, D., Townshend, S., Ward, M., Richards, L.J., Simons, C., Costain, G., Dupuis, L., Mendoza-Londono, R., Dudding-Byth, T., Boyle, J., Saunders, C., Fleming, E., Chehadeh, S. El, Spitz, M.A., Piton, A., Gerard, B., bi Warde, M.T. A, Rea, G., McKenna, C., Douzgou, S., Banka, S., Akman, C., Bain, J.M., Sands, T.T., Wilson, G.N., Silvertooth, E.J., Miller, L., Lederer, D., Sachdev, R., Macintosh, R., Monestier, O., Karadurmus, D., Collins, F., Carter, M., Rohena, L., Willemsen, M.H., Ockeloen, C.W., Pfundt, R.P., Kroft, S.D., Field, M., Laranjeira, F.E.R., Fortuna, A.M., Soares, A.R., Michaud, V., Naudion, S., Golla, S., Weaver, D.D., Bird, L.M., Friedman, J., Clowes, V., Joss, S., Pölsler, L., Campeau, P.M., Blazo, M., Bijlsma, E.K., Rosenfeld, J.A., Beetz, C., Powis, Z., McWalter, K., Brandt, T., Torti, E., Mathot, M., Mohammad, S.S., Armstrong, R., and Kalscheuer, V.M.

Abstract

01 februari 2023, Item does not contain fulltext, Missense and truncating variants in the X-chromosome-linked CLCN4 gene, resulting in reduced or complete loss-of-function (LOF) of the encoded chloride/proton exchanger ClC-4, were recently demonstrated to cause a neurocognitive phenotype in both males and females. Through international clinical matchmaking and interrogation of public variant databases we assembled a database of 90 rare CLCN4 missense variants in 90 families: 41 unique and 18 recurrent variants in 49 families. For 43 families, including 22 males and 33 females, we collated detailed clinical and segregation data. To confirm causality of variants and to obtain insight into disease mechanisms, we investigated the effect on electrophysiological properties of 59 of the variants in Xenopus oocytes using extended voltage and pH ranges. Detailed analyses revealed new pathophysiological mechanisms: 25% (15/59) of variants demonstrated LOF, characterized by a "shift" of the voltage-dependent activation to more positive voltages, and nine variants resulted in a toxic gain-of-function, associated with a disrupted gate allowing inward transport at negative voltages. Functional results were not always in line with in silico pathogenicity scores, highlighting the complexity of pathogenicity assessment for accurate genetic counselling. The complex neurocognitive and psychiatric manifestations of this condition, and hitherto under-recognized impacts on growth, gastrointestinal function, and motor control are discussed. Including published cases, we summarize features in 122 individuals from 67 families with CLCN4-related neurodevelopmental condition and suggest future research directions with the aim of improving the integrated care for individuals with this diagnosis.

Published

2023

4. POU3F3-related disorder: Defining the phenotype and expanding the molecular spectrum

Author

Rossi, A, Snijders Blok, L., Neuser, S., Klöckner, C., Platzer, K., Faivre, L.O., Weigand, H., Dentici, M.L., Tartaglia, M., Niceta, M., Alfieri, P., Srivastava, S., Coulter, D., Smith, Lacey, Vinorum, K., Cappuccio, G., Brunetti-Pierri, N., Torun, D., Arslan, M., Lauridsen, M.F., Murch, O., Irving, R., Lynch, S.A., Mehta, S.G., Carmichael, J., Zonneveld-Huijssoon, E., Vries, B.B. de, Kleefstra, T., Johannesen, K.M., Westphall, I.T., Hughes, S.S., Smithson, S., Evans, J., Dudding-Byth, T., Simon, M., Binsbergen, E. van, Herkert, J.C., Beunders, G., Oppermann, H., Bakal, M., Møller, R.S., Rubboli, G., Bayat, A., Rossi, A, Snijders Blok, L., Neuser, S., Klöckner, C., Platzer, K., Faivre, L.O., Weigand, H., Dentici, M.L., Tartaglia, M., Niceta, M., Alfieri, P., Srivastava, S., Coulter, D., Smith, Lacey, Vinorum, K., Cappuccio, G., Brunetti-Pierri, N., Torun, D., Arslan, M., Lauridsen, M.F., Murch, O., Irving, R., Lynch, S.A., Mehta, S.G., Carmichael, J., Zonneveld-Huijssoon, E., Vries, B.B. de, Kleefstra, T., Johannesen, K.M., Westphall, I.T., Hughes, S.S., Smithson, S., Evans, J., Dudding-Byth, T., Simon, M., Binsbergen, E. van, Herkert, J.C., Beunders, G., Oppermann, H., Bakal, M., Møller, R.S., Rubboli, G., and Bayat, A.

Abstract

Item does not contain fulltext, POU3F3 variants cause developmental delay, behavioral problems, hypotonia and dysmorphic features. We investigated the phenotypic and genetic landscape, and genotype-phenotype correlations in individuals with POU3F3-related disorders. We recruited unpublished individuals with POU3F3 variants through international collaborations and obtained updated clinical data on previously published individuals. Trio exome sequencing or single exome sequencing followed by segregation analysis were performed in the novel cohort. Functional effects of missense variants were investigated with 3D protein modeling. We included 28 individuals (5 previously published) from 26 families carrying POU3F3 variants; 23 de novo and one inherited from an affected parent. Median age at study inclusion was 7.4 years. All had developmental delay mainly affecting speech, behavioral difficulties, psychiatric comorbidities and dysmorphisms. Additional features included gastrointestinal comorbidities, hearing loss, ophthalmological anomalies, epilepsy, sleep disturbances and joint hypermobility. Autism, hearing and eye comorbidities, dysmorphisms were more common in individuals with truncating variants, whereas epilepsy was only associated with missense variants. In silico structural modeling predicted that all (likely) pathogenic variants destabilize the DNA-binding region of POU3F3. Our study refined the phenotypic and genetic landscape of POU3F3-related disorders, it reports the functional properties of the identified pathogenic variants, and delineates some genotype-phenotype correlations.

Published

2023

5. Rapid whole‐genome sequencing leading to specific treatment for two infants with haemophagocytic lymphohistiocytosis due to Wolman disease

Author

Selvanathan, Arthavan, primary, Forwood, C., additional, Russell, J., additional, Batten, K., additional, Thompson, S., additional, Palmer, E. E., additional, Macintosh, R., additional, Nightingale, S., additional, Mitchell, R., additional, Alvaro, F., additional, Dudding‐Byth, T., additional, Lunke, S., additional, Christodoulou, J., additional, Stark, Z., additional, White, F., additional, Jones, S. A., additional, and Bhattacharya, K., additional

Published

2023

6. An HNRNPK-specific DNA methylation signature makes sense of missense variants and expands the phenotypic spectrum of Au-Kline syndrome

Author

Choufani, S. (Sanaa), McNiven, V. (Vanda), Cytrynbaum, C. (Cheryl), Jangjoo, M. (Maryam), Adam, M. P. (Margaret P.), Bjornsson, H. T. (Hans T.), Harris, J. (Jacqueline), Dyment, D. A. (David A.), Graham, G. E. (Gail E.), Nezarati, M. M. (Marjan M.), Aul, R. B. (Ritu B.), Castiglioni, C. (Claudia), Breckpot, J. (Jeroen), Devriendt, K. (Koen), Stewart, H. (Helen), Banos-Pinero, B. (Benito), Mehta, S. (Sarju), Sandford, R. (Richard), Dunn, C. (Carolyn), Mathevet, R. (Remi), van Maldergem, L. (Lionel), Piard, J. (Juliette), Brischoux-Boucher, E. (Elise), Vitobello, A. (Antonio), Faivre, L. (Laurence), Bournez, M. (Marie), Tran-Mau, F. (Frederic), Maystadt, I. (Isabelle), Fernandez-Jaen, A. (Alberto), Alvarez, S. (Sara), Garcia-Prieto, I. D. (Irene Diez), Alkuraya, F. S. (Fowzan S.), Alsaif, H. S. (Hessa S.), Rahbeeni, Z. (Zuhair), El-Akouri, K. (Karen), Al-Mureikhi, M. (Mariam), Spillmann, R. C. (Rebecca C.), Shashi, V. (Vandana), Sanchez-Lara, P. A. (Pedro A.), Graham, J. M. (John M., Jr.), Roberts, A. (Amy), Chorin, O. (Odelia), Evrony, G. D. (Gilad D.), Kraatari-Tiri, M. (Minna), Dudding-Byth, T. (Tracy), Richardson, A. (Anamaria), Hunt, D. (David), Hamilton, L. (Laura), Dyack, S. (Sarah), Mendelsohn, B. A. (Bryce A.), Rodriguez, N. (Nicolas), Sanchez-Martinez, R. (Rosario), Tenorio-Castano, J. (Jair), Nevado, J. (Julian), Lapunzina, P. (Pablo), Tirado, P. (Pilar), Rodrigues, M. C. (Maria-Teresa Carminho Amaro), Quteineh, L. (Lina), Innes, A. M. (A. Micheil), Kline, A. D. (Antonie D.), Au, P. Y. (P. Y. Billie), Weksberg, R. (Rosanna), Choufani, S. (Sanaa), McNiven, V. (Vanda), Cytrynbaum, C. (Cheryl), Jangjoo, M. (Maryam), Adam, M. P. (Margaret P.), Bjornsson, H. T. (Hans T.), Harris, J. (Jacqueline), Dyment, D. A. (David A.), Graham, G. E. (Gail E.), Nezarati, M. M. (Marjan M.), Aul, R. B. (Ritu B.), Castiglioni, C. (Claudia), Breckpot, J. (Jeroen), Devriendt, K. (Koen), Stewart, H. (Helen), Banos-Pinero, B. (Benito), Mehta, S. (Sarju), Sandford, R. (Richard), Dunn, C. (Carolyn), Mathevet, R. (Remi), van Maldergem, L. (Lionel), Piard, J. (Juliette), Brischoux-Boucher, E. (Elise), Vitobello, A. (Antonio), Faivre, L. (Laurence), Bournez, M. (Marie), Tran-Mau, F. (Frederic), Maystadt, I. (Isabelle), Fernandez-Jaen, A. (Alberto), Alvarez, S. (Sara), Garcia-Prieto, I. D. (Irene Diez), Alkuraya, F. S. (Fowzan S.), Alsaif, H. S. (Hessa S.), Rahbeeni, Z. (Zuhair), El-Akouri, K. (Karen), Al-Mureikhi, M. (Mariam), Spillmann, R. C. (Rebecca C.), Shashi, V. (Vandana), Sanchez-Lara, P. A. (Pedro A.), Graham, J. M. (John M., Jr.), Roberts, A. (Amy), Chorin, O. (Odelia), Evrony, G. D. (Gilad D.), Kraatari-Tiri, M. (Minna), Dudding-Byth, T. (Tracy), Richardson, A. (Anamaria), Hunt, D. (David), Hamilton, L. (Laura), Dyack, S. (Sarah), Mendelsohn, B. A. (Bryce A.), Rodriguez, N. (Nicolas), Sanchez-Martinez, R. (Rosario), Tenorio-Castano, J. (Jair), Nevado, J. (Julian), Lapunzina, P. (Pablo), Tirado, P. (Pilar), Rodrigues, M. C. (Maria-Teresa Carminho Amaro), Quteineh, L. (Lina), Innes, A. M. (A. Micheil), Kline, A. D. (Antonie D.), Au, P. Y. (P. Y. Billie), and Weksberg, R. (Rosanna)

Abstract

Au-Kline syndrome (AKS) is a neurodevelopmental disorder associated with multiple malformations and a characteristic facial gestalt. The first individuals ascertained carried de novo loss-of-function (LoF) variants in HNRNPK. Here, we report 32 individuals with AKS (26 previously unpublished), including 13 with de novo missense variants. We propose new clinical diagnostic criteria for AKS that differentiate it from the clinically overlapping Kabuki syndrome and describe a significant phenotypic expansion to include individuals with missense variants who present with subtle facial features and few or no malformations. Many gene-specific DNA methylation (DNAm) signatures have been identified for neurodevelopmental syndromes. Because HNRNPK has roles in chromatin and epigenetic regulation, we hypothesized that pathogenic variants in HNRNPK may be associated with a specific DNAm signature. Here, we report a unique DNAm signature for AKS due to LoF HNRNPK variants, distinct from controls and Kabuki syndrome. This DNAm signature is also identified in some individuals with de novo HNRNPK missense variants, confirming their pathogenicity and the phenotypic expansion of AKS to include more subtle phenotypes. Furthermore, we report that some individuals with missense variants have an “intermediate” DNAm signature that parallels their milder clinical presentation, suggesting the presence of an epi-genotype phenotype correlation. In summary, the AKS DNAm signature may help elucidate the underlying pathophysiology of AKS. This DNAm signature also effectively supported clinical syndrome delineation and is a valuable aid for variant interpretation in individuals where a clinical diagnosis of AKS is unclear, particularly for mild presentations.

Published

2022

7. Analgesic use and the risk of renal cell carcinoma - Findings from the Consortium for the Investigation of Renal Malignancies (CONFIRM) study.

Author

Bruinsma F.J., Jordan S., Bassett J.K., Severi G., MacInnis R.J., Walsh J., Aitken T., Jenkins M., Carroll R., Jefford M., Davis I.D., Tucker K., Dudding-Byth T., English D.R., Giles G.G., Winship I., Milne R.L., Bruinsma F.J., Jordan S., Bassett J.K., Severi G., MacInnis R.J., Walsh J., Aitken T., Jenkins M., Carroll R., Jefford M., Davis I.D., Tucker K., Dudding-Byth T., English D.R., Giles G.G., Winship I., and Milne R.L.

Abstract

Purpose: The incidence of renal cell carcinoma (RCC) is rising. Use of analgesics such as non-steroidal anti-inflammatory drugs (NSAIDs) and paracetamol may affect renal function. The aim of this study was to assess associations between analgesic use and risk of RCC. Method(s): A population-based case-control family design was used. Cases were recruited via two Australian state cancer registries. Controls were siblings or partners of cases. Analgesic use was captured by self-completed questionnaire. Logistic regression was used to estimate odds ratios (OR) and 95% confidence intervals (CI) for RCC risk associated with regular analgesic use (at least 5 times per month for 6 months or more) and duration and frequency of use. Result(s): The analysis included 1064 cases and 724 controls. Regular use of paracetamol was associated with an increased risk of RCC (OR 1.41, 95%CI 1.13-1.77). Regular use of NSAIDs was associated with increased risk of RCC for women (OR 1.71, 95% CI 1.23-2.39) but not men (OR 0.83, 95% CI 0.58-1.18; p-interaction=0.003). There was no evidence of a dose-response for duration of use of paracetamol (linear trend p = 0.77) and weak evidence for non- aspirin NSAID use by women (linear trend p = 0.054). Conclusion(s): This study found that regular use of paracetamol was associated with increased risk of RCC. NSAID use was associated with increased risk only for women.Copyright © 2021 Elsevier Ltd

Published

2021

8. The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin-Siris syndrome (vol 21, pg 1295, 2019)

Author

Sluijs, P.J. van der, Jansen, S., Vergano, S.A., Adachi-Fukuda, M., Alanay, Y., AlKindy, A., Baban, A., Bayat, A., Beck-Wodl, S., Berry, K., Bijlsma, E.K., Bok, L.A., Brouwer, A.F.J., Burgt, I. van der, Campeau, P.M., Canham, N., Chrzanowska, K., Chu, Y.W.Y., Chung, B.H.Y., Dahan, K., Rademaeker, M. de, Destree, A., Dudding-Byth, T., Earl, R., Elcioglu, N., Elias, E.R., Fagerberg, C., Gardham, A., Gener, B., Gerkes, E.H., Grasshoff, U., Haeringen, A. van, Heitink, K.R., Herkert, J.C., Hollander, N.S. den, Horn, D., Hunt, D., Kant, S.G., Kato, M., Kayserili, H., Kersseboom, R., Kilic, E., Krajewska-Walasek, M., Lammers, K., Laulund, L.W., Lederer, D., Lees, M., Lopez-Gonzalez, V., Maas, S., Mancini, G.M.S., Marcelis, C., Martinez, F., Maystadt, I., McGuire, M., Mckee, S., Mehta, S., Metcalfe, K., Milunsky, J., Mizuno, S., Moeschler, J.B., Netzer, C., Ockeloen, C.W., Oehl-Jaschkowitz, B., Okamoto, N., Olminkhof, S.N.M., Orellana, C., Pasquier, L., Pottinger, C., Riehmer, V., Robertson, S.P., Roifman, M., Rooryck, C., Ropers, F.G., Rosello, M., Ruivenkamp, C.A.L., Sagiroglu, M.S., Sallevelt, S.C.E.H., Calvo, A.S., Simsek-Kiper, P.O., Soares, G., Solaeche, L., Sonmez, F.M., Splitt, M., Steenbeek, D., Stegmann, A.P.A., Stumpel, C.T.R.M., Tanabe, S., Uctepe, E., Utine, G.E., Veenstra-Knol, H.E., Venkateswaran, S., Vilain, C., Vincent-Delorme, C., Vulto-van Silfhout, A.T., Wheeler, P., Wilson, G.N., Wilson, L.C., Wollnik, B., Kosho, T., Wieczorek, D., Eichler, E., Pfundt, R., Vries, B.B.A. de, Clayton-Smith, J., Santen, G.W.E., and Acibadem University Dspace

Abstract

The original version of this Article contained an error in the spelling of the author Pleuntje J. van der Sluijs, which was incorrectly given as Eline (P. J.) van der Sluijs. This has now been corrected in both the PDF and HTML versions of the Article.

Published

2019

9. Significantly elevated FMR1 mRNA and mosaicism for methylated premutation and full mutation alleles in two brothers with autism features referred for fragile X testing

Author

Field, M, Dudding-Byth, T, Arpone, M, Baker, EK, Aliaga, SM, Rogers, C, Hickerton, C, Francis, D, Phelan, DG, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Amor, DJ, Slater, H, Bretherton, L, Ling, L, Godler, DE, Field, M, Dudding-Byth, T, Arpone, M, Baker, EK, Aliaga, SM, Rogers, C, Hickerton, C, Francis, D, Phelan, DG, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Amor, DJ, Slater, H, Bretherton, L, Ling, L, and Godler, DE

Abstract

Although fragile X syndrome (FXS) is caused by a hypermethylated full mutation (FM) expansion with ≥200 cytosine-guanine-guanine (CGG) repeats, and a decrease in FMR1 mRNA and its protein (FMRP), incomplete silencing has been associated with more severe autism features in FXS males. This study reports on brothers (B1 and B2), aged 5 and 2 years, with autistic features and language delay, but a higher non-verbal IQ in comparison to typical FXS. CGG sizing using AmplideX PCR only identified premutation (PM: 55–199 CGGs) alleles in blood. Similarly, follow-up in B1 only revealed PM alleles in saliva and skin fibroblasts; whereas, an FM expansion was detected in both saliva and buccal DNA of B2. While Southern blot analysis of blood detected an unmethylated FM, methylation analysis with a more sensitive methodology showed that B1 had partially methylated PM alleles in blood and fibroblasts, which were completely unmethylated in buccal and saliva cells. In contrast, B2 was partially methylated in all tested tissues. Moreover, both brothers had FMR1 mRNA ~5 fold higher values than those of controls, FXS and PM cohorts. In conclusion, the presence of unmethylated FM and/or PM in both brothers may lead to an overexpression of toxic expanded mRNA in some cells, which may contribute to neurodevelopmental problems, including elevated autism features.

Published

2019

10. Enabling global clinical collaborations on identifiable patient data: The Minerva Initiative

Author

Nellåker, C., Alkuraya, F.S., Baynam, G., Bernier, R.A., Bernier, F.P.J., Boulanger, V., Brudno, M., Brunner, H.G., Clayton-Smith, J., Cogné, B., Dawkins, H.J.S., deVries, B.B.A., Douzgou, S., Dudding-Byth, T., Eichler, E.E., Ferlaino, M., Fieggen, K., Firth, H.V., FitzPatrick, D.R., Gration, D., Groza, T., Haendel, M., Hallowell, N., Hamosh, A., Hehir-Kwa, J., Hitz, M-P, Hughes, M., Kini, U., Kleefstra, T., Kooy, R.F., Krawitz, P., Küry, S., Lees, M., Lyon, G.J., Lyonnet, S., Marcadier, J.L., Meyn, S., Moslerová, V., Politei, J.M., Poulton, C.C., Raymond, F.L., Reijnders, M.R.F., Robinson, P.N., Romano, C., Rose, C.M., Sainsbury, D.C.G., Schofield, L., Sutton, V.R., Turnovec, M., Van Dijck, A., Van Esch, H., Wilkie, A.O.M., Nellåker, C., Alkuraya, F.S., Baynam, G., Bernier, R.A., Bernier, F.P.J., Boulanger, V., Brudno, M., Brunner, H.G., Clayton-Smith, J., Cogné, B., Dawkins, H.J.S., deVries, B.B.A., Douzgou, S., Dudding-Byth, T., Eichler, E.E., Ferlaino, M., Fieggen, K., Firth, H.V., FitzPatrick, D.R., Gration, D., Groza, T., Haendel, M., Hallowell, N., Hamosh, A., Hehir-Kwa, J., Hitz, M-P, Hughes, M., Kini, U., Kleefstra, T., Kooy, R.F., Krawitz, P., Küry, S., Lees, M., Lyon, G.J., Lyonnet, S., Marcadier, J.L., Meyn, S., Moslerová, V., Politei, J.M., Poulton, C.C., Raymond, F.L., Reijnders, M.R.F., Robinson, P.N., Romano, C., Rose, C.M., Sainsbury, D.C.G., Schofield, L., Sutton, V.R., Turnovec, M., Van Dijck, A., Van Esch, H., and Wilkie, A.O.M.

Abstract

The clinical utility of computational phenotyping for both genetic and rare diseases is increasingly appreciated; however, its true potential is yet to be fully realized. Alongside the growing clinical and research availability of sequencing technologies, precise deep and scalable phenotyping is required to serve unmet need in genetic and rare diseases. To improve the lives of individuals affected with rare diseases through deep phenotyping, global big data interrogation is necessary to aid our understanding of disease biology, assist diagnosis, and develop targeted treatment strategies. This includes the application of cutting-edge machine learning methods to image data. As with most digital tools employed in health care, there are ethical and data governance challenges associated with using identifiable personal image data. There are also risks with failing to deliver on the patient benefits of these new technologies, the biggest of which is posed by data siloing. The Minerva Initiative has been designed to enable the public good of deep phenotyping while mitigating these ethical risks. Its open structure, enabling collaboration and data sharing between individuals, clinicians, researchers and private enterprise, is key for delivering precision public health.

Published

2019

11. Genetic variation affecting DNA methylation and the human imprinting disorder, Beckwith-Wiedemann syndrome.

Author

Mackenzie F., Turner A., White S., Kamien B., Ma A., Baynam G., Kiraly-Borri C., Field M., Dudding-Byth T., Algar E.M., Dagar V., Hutchison W., Muscat A., Krishnan A., Hoke D., Buckle A., Siswara P., Amor D.J., Mann J., Pinner J., Colley A., Wilson M., Sachdev R., McGillivray G., Edwards M., Kirk E., Collins F., Jones K., Taylor J., Hayes I., Thompson E., Barnett C., Haan E., Freckmann M.-L., Mackenzie F., Turner A., White S., Kamien B., Ma A., Baynam G., Kiraly-Borri C., Field M., Dudding-Byth T., Algar E.M., Dagar V., Hutchison W., Muscat A., Krishnan A., Hoke D., Buckle A., Siswara P., Amor D.J., Mann J., Pinner J., Colley A., Wilson M., Sachdev R., McGillivray G., Edwards M., Kirk E., Collins F., Jones K., Taylor J., Hayes I., Thompson E., Barnett C., Haan E., and Freckmann M.-L.

Abstract

Background: Beckwith-Wiedemann syndrome (BWS) is an imprinting disorder with a population frequency of approximately 1 in 10,000. The most common epigenetic defect in BWS is a loss of methylation (LOM) at the 11p15.5 imprinting centre, KCNQ1OT1 TSS-DMR, and affects 50% of cases. We hypothesised that genetic factors linked to folate metabolism may play a role in BWS predisposition via effects on methylation maintenance at KCNQ1OT1 TSS-DMR. Result(s): Single nucleotide variants (SNVs) in the folate pathway affecting methylenetetrahydrofolate reductase (MTHFR), methionine synthase reductase (MTRR), 5-methyltetrahydrofolate-homocysteine S-methyltransferase (MTR), cystathionine beta-synthase (CBS) and methionine adenosyltransferase (MAT1A) were examined in 55 BWS patients with KCNQ1OT1 TSS-DMR LOM and in 100 unaffected cases. MTHFR rs1801133: C>T was more prevalent in BWS with KCNQ1OT1 TSS-DMR LOM (p<0.017); however, the relationship was not significant when the Bonferroni correction for multiple testing was applied (significance, p=0.0036). None of the remaining 13 SNVs were significantly different in the two populations tested. The DNMT1 locus was screened in 53 BWS cases, and three rare missense variants were identified in each of three patients: rs138841970: C>T, rs150331990: A>G and rs757460628: G>A encoding NP_001124295 p.Arg136Cys, p.His1118Arg and p.Arg1223His, respectively. These variants have population frequencies of less than 1 in 1000 and were absent from 100 control cases. Functional characterization using a hemimethylated DNA trapping assay revealed a reduced methyltransferase activity relative to wild-type DNMT1 for each variant ranging from 40 to 70% reduction in activity. Conclusion(s): This study is the first to examine folate pathway genetics in BWS and to identify rare DNMT1 missense variants in affected individuals. Our data suggests that reduced DNMT1 activity could affect maintenance of methylation at KCNQ1OT1 TSS-DMR in some cases of BWS, possibl

Published

2018

12. Severe neurocognitive and growth disorders due to variation in THOC2, an essential component of nuclear mRNA export machinery

Author

Kumar, R, Gardner, A, Homan, CC, Douglas, E, Mefford, H, Wieczorek, D, Lüdecke, HJ, Stark, Z, Sadedin, S, Nowak, CB, Douglas, J, Parsons, G, Mark, P, Loidi, L, Herman, GE, Mihalic Mosher, T, Gillespie, MK, Brady, L, Tarnopolsky, M, Madrigal, I, Eiris, J, Domènech Salgado, L, Rabionet, R, Strom, TM, Ishihara, N, Inagaki, H, Kurahashi, H, Dudding-Byth, T, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Field, M, Gecz, J, Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X, Kumar, R, Gardner, A, Homan, CC, Douglas, E, Mefford, H, Wieczorek, D, Lüdecke, HJ, Stark, Z, Sadedin, S, Nowak, CB, Douglas, J, Parsons, G, Mark, P, Loidi, L, Herman, GE, Mihalic Mosher, T, Gillespie, MK, Brady, L, Tarnopolsky, M, Madrigal, I, Eiris, J, Domènech Salgado, L, Rabionet, R, Strom, TM, Ishihara, N, Inagaki, H, Kurahashi, H, Dudding-Byth, T, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Field, M, Gecz, J, and Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X

Abstract

Highly conserved TREX-mediated mRNA export is emerging as a key pathway in neuronal development and differentiation. TREX subunit variants cause neurodevelopmental disorders (NDDs) by interfering with mRNA export from the cell nucleus to the cytoplasm. Previously we implicated four missense variants in the X-linked THOC2 gene in intellectual disability (ID). We now report an additional six affected individuals from five unrelated families with two de novo and three maternally inherited pathogenic or likely pathogenic variants in THOC2 extending the genotypic and phenotypic spectrum. These comprise three rare missense THOC2 variants that affect evolutionarily conserved amino acid residues and reduce protein stability and two with canonical splice-site THOC2 variants that result in C-terminally truncated THOC2 proteins. We present detailed clinical assessment and functional studies on a de novo variant in a female with an epileptic encephalopathy and discuss an additional four families with rare variants in THOC2 with supportive evidence for pathogenicity. Severe neurocognitive features, including movement and seizure disorders, were observed in this cohort. Taken together our data show that even subtle alterations to the canonical molecular pathways such as mRNA export, otherwise essential for cellular life, can be compatible with life, but lead to NDDs in humans.

Published

2018

13. The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin–Siris syndrome

Author

van der Sluijs, E.P.J. (Eline (P.J.)), Jansen, S. (Sandra), Vergano, S.A. (Samantha A.), Adachi-Fukuda, M. (Miho), Alanay, Y. (Yasemin), AlKindy, A. (Adila), Baban, A. (Anwar), Bayat, A. (Allan), Beck-Wödl, S. (Stefanie), Berry, K. (Katherine), Bijlsma, E.K. (Emilia), Bok, L.A. (Levinus), Brouwer, A.F.J. (Alwin F. J.), Burgt, I. (Ineke) van der, Campeau, P.M. (Philippe M.), Canham, N. (Natalie), Chrzanowska, K.H. (Krystyna), Chu, Y.W.Y. (Yoyo W. Y.), Chung, B.H.Y. (Brain H. Y.), Dahan, K. (Karin), De Rademaeker, M. (Marjan), Destrée, A. (Anne), Dudding-Byth, T. (Tracy), Earl, R. (Rachel), Elcioglu, N.H. (Nursel), Elias, E.R. (Ellen R.), Fagerberg, C. (Christina), Gardham, A. (Alice), Gener, B. (Blanca), Gerkes, E.H. (Erica H), Grasshoff, U. (Ute), Haeringen, A. (Arie) van, Heitink, K.R. (Karin R.), Herkert, J.C. (Johanna), Hollander, N.S. (Nicolette) den, Horn, D. (Denise), Hunt, D. (David), Kant, S.G. (Sarina), Kato, M. (Mitsuhiro), Kayserili, H. (Hülya), Kersseboom, R. (Rogier), Kilic, E. (Esra), Krajewska-Walasek, M. (Malgorzata), Lammers, K. (Kylin), Laulund, L.W. (Lone W.), Lederer, D. (Damien), Lees, M.M. (Melissa), López-González, V. (V.), Maas, S.M. (Saskia), Mancini, G.M.S. (Grazia), Marcelis, C.L.M. (Carlo), Martinez, F. (Francisco), Maystadt, I. (Isabelle), McGuire, M. (Marianne), McKee, S., Mehta, S. (Sarju), Metcalfe, K. (Kay), Milunsky, J.M. (Jeff), Mizuno, S. (Seiji), Moeschler, J.B. (John B.), Netzer, C. (Christian), Ockeloen, C. (Charlotte), Oehl-Jaschkowitz, B. (Barbara), Okamoto, N. (Nobuhiko), Olminkhof, S.N.M. (Sharon N. M.), Orellana, C. (Carmen), Pasquier, L. (Laurent), Pottinger, C. (Caroline), Riehmer, V. (Vera), Robertson, S.P. (Stephen), Roifman, M. (Maian), Rooryck, C. (Caroline), Ropers, F.G. (Fabienne G.), Rosello, M. (Monica), Ruivenkamp, C.A. (Claudia), Sagiroglu, M.S. (Mahmut S.), Sallevelt, S.C.E.H. (Suzanne), Sanchis Calvo, A. (Amparo), Simsek-Kiper, P.O. (P.), Soares, G. (Gabriela), Solaeche, L. (Lucia), Mujgan Sonmez, F. (Fatma), Splitt, M. (M.), Steenbeek, D. (Duco), Stegmann, A.P.A. (Alexander P. A.), Stumpel, C. (Connie), Tanabe, S. (Saori), Uctepe, E. (Eyyup), Utine, G.E. (G. Eda), Veenstra-Knol, H.E. (Hermine), Venkateswaran, S. (Sunita), Vilain, C. (Catheline), Vincent-Delorme, C. (Catherine), Vulto-van Silfhout, A.T. (Anneke), Wheeler, P. (Patricia), Wilson, G.N. (Golder N.), Wilson, L.C. (Louise), Wollnik, B. (Bernd), Kosho, T. (Tomoki), Wieczorek, D. (Dagmar), Eichler, E.E. (Evan), Pfundt, R. (Rolph), Vries, B. (Boukje) de, Clayton-Smith, J., Santen, G.W.E. (Gijs), van der Sluijs, E.P.J. (Eline (P.J.)), Jansen, S. (Sandra), Vergano, S.A. (Samantha A.), Adachi-Fukuda, M. (Miho), Alanay, Y. (Yasemin), AlKindy, A. (Adila), Baban, A. (Anwar), Bayat, A. (Allan), Beck-Wödl, S. (Stefanie), Berry, K. (Katherine), Bijlsma, E.K. (Emilia), Bok, L.A. (Levinus), Brouwer, A.F.J. (Alwin F. J.), Burgt, I. (Ineke) van der, Campeau, P.M. (Philippe M.), Canham, N. (Natalie), Chrzanowska, K.H. (Krystyna), Chu, Y.W.Y. (Yoyo W. Y.), Chung, B.H.Y. (Brain H. Y.), Dahan, K. (Karin), De Rademaeker, M. (Marjan), Destrée, A. (Anne), Dudding-Byth, T. (Tracy), Earl, R. (Rachel), Elcioglu, N.H. (Nursel), Elias, E.R. (Ellen R.), Fagerberg, C. (Christina), Gardham, A. (Alice), Gener, B. (Blanca), Gerkes, E.H. (Erica H), Grasshoff, U. (Ute), Haeringen, A. (Arie) van, Heitink, K.R. (Karin R.), Herkert, J.C. (Johanna), Hollander, N.S. (Nicolette) den, Horn, D. (Denise), Hunt, D. (David), Kant, S.G. (Sarina), Kato, M. (Mitsuhiro), Kayserili, H. (Hülya), Kersseboom, R. (Rogier), Kilic, E. (Esra), Krajewska-Walasek, M. (Malgorzata), Lammers, K. (Kylin), Laulund, L.W. (Lone W.), Lederer, D. (Damien), Lees, M.M. (Melissa), López-González, V. (V.), Maas, S.M. (Saskia), Mancini, G.M.S. (Grazia), Marcelis, C.L.M. (Carlo), Martinez, F. (Francisco), Maystadt, I. (Isabelle), McGuire, M. (Marianne), McKee, S., Mehta, S. (Sarju), Metcalfe, K. (Kay), Milunsky, J.M. (Jeff), Mizuno, S. (Seiji), Moeschler, J.B. (John B.), Netzer, C. (Christian), Ockeloen, C. (Charlotte), Oehl-Jaschkowitz, B. (Barbara), Okamoto, N. (Nobuhiko), Olminkhof, S.N.M. (Sharon N. M.), Orellana, C. (Carmen), Pasquier, L. (Laurent), Pottinger, C. (Caroline), Riehmer, V. (Vera), Robertson, S.P. (Stephen), Roifman, M. (Maian), Rooryck, C. (Caroline), Ropers, F.G. (Fabienne G.), Rosello, M. (Monica), Ruivenkamp, C.A. (Claudia), Sagiroglu, M.S. (Mahmut S.), Sallevelt, S.C.E.H. (Suzanne), Sanchis Calvo, A. (Amparo), Simsek-Kiper, P.O. (P.), Soares, G. (Gabriela), Solaeche, L. (Lucia), Mujgan Sonmez, F. (Fatma), Splitt, M. (M.), Steenbeek, D. (Duco), Stegmann, A.P.A. (Alexander P. A.), Stumpel, C. (Connie), Tanabe, S. (Saori), Uctepe, E. (Eyyup), Utine, G.E. (G. Eda), Veenstra-Knol, H.E. (Hermine), Venkateswaran, S. (Sunita), Vilain, C. (Catheline), Vincent-Delorme, C. (Catherine), Vulto-van Silfhout, A.T. (Anneke), Wheeler, P. (Patricia), Wilson, G.N. (Golder N.), Wilson, L.C. (Louise), Wollnik, B. (Bernd), Kosho, T. (Tomoki), Wieczorek, D. (Dagmar), Eichler, E.E. (Evan), Pfundt, R. (Rolph), Vries, B. (Boukje) de, Clayton-Smith, J., and Santen, G.W.E. (Gijs)

Abstract

Purpose: Pathogenic variants in ARID1B are one of the most frequent causes of intellectual disability (ID) as determined by large-scale exome sequencing studies. Most studies published thus far describe clinically diagnosed Coffin–Siris patients (ARID1B-CSS) and it is unclear whether these data are representative for patients identified through sequencing of unbiased ID cohorts (ARID1B-ID). We therefore sought to determine genotypic and phenotypic differences between ARID1B-ID and ARID1B-CSS. In parallel, we investigated the effect of different methods of phenotype reporting. Methods: Clinicians entered clinical data in an extensive web-based survey. Results: 79 ARID1B-CSS and 64 ARID1B-ID patients were included. CSS-associated dysmorphic features, such as thick eyebrows, long eyelashes, thick alae nasi, long and/or broad philtrum, small nails and small or absent fifth distal phalanx and hypertrichosis, were observed significantly more often (p < 0.001) in ARID1B-CSS patients. No other significant differences were identified. Conclusion: There are only minor differences between ARID1B-ID and ARID1B-CSS patients. ARID1B-related disorders seem to consist of a spectrum, and patients should be managed similarly. We demonstrated that data collection methods without an explicit option to report the absence of a feature (such as most Human Phenotype Ontology-based methods) tended to underestimate gene-related features.

Published

2018

14. A clinical review of generalized overgrowth syndromes in the era of massively parallel sequencing

Author

Kamien, B., Ronan, A., Poke, G., Sinnerbrink, I., Baynam, G., Ward, M., Gibson, W.T., Dudding-Byth, T., Scott, R.J., Kamien, B., Ronan, A., Poke, G., Sinnerbrink, I., Baynam, G., Ward, M., Gibson, W.T., Dudding-Byth, T., and Scott, R.J.

Abstract

The overgrowth syndromes are important to diagnose, not just for accurate genetic counseling, but also for knowledge surrounding cancer surveillance and prognosis. There has been a recent expansion in the number of genes associated with a mendelian overgrowth phenotype, so this review updates previous classifications of overgrowth syndromes. We also describe a clinical and molecular approach to the investigation of individuals presenting with overgrowth. This review aims to assist the clinical diagnosis of generalized overgrowth syndromes by outlining the salient features of well-known overgrowth syndromes alongside the many syndromes that have been discovered and classified more recently. We provide key clinical “handles” to aid clinical diagnosis and a list of genes to aid with panel design when using next generation sequencing, which we believe is frequently needed due to the overlapping phenotypic features seen between overgrowth syndromes.

Published

2018

15. Genetic variation affecting DNA methylation and the human imprinting disorder, Beckwith-Wiedemann syndrome

Author

Dagar, V, Hutchison, W, Muscat, A, Krishnan, A, Hoke, D, Buckle, A, Siswara, P, Amor, DJ, Mann, J, Pinner, J, Colley, A, Wilson, M, Sachdev, R, McGillivray, G, Edwards, M, Kirk, E, Collins, F, Jones, K, Taylor, J, Hayes, I, Thompson, E, Barnett, C, Haan, E, Freckmann, M-L, Turner, A, White, S, Kamien, B, Ma, A, Mackenzie, F, Baynam, G, Kiraly-Borri, C, Field, M, Dudding-Byth, T, Algar, EM, Dagar, V, Hutchison, W, Muscat, A, Krishnan, A, Hoke, D, Buckle, A, Siswara, P, Amor, DJ, Mann, J, Pinner, J, Colley, A, Wilson, M, Sachdev, R, McGillivray, G, Edwards, M, Kirk, E, Collins, F, Jones, K, Taylor, J, Hayes, I, Thompson, E, Barnett, C, Haan, E, Freckmann, M-L, Turner, A, White, S, Kamien, B, Ma, A, Mackenzie, F, Baynam, G, Kiraly-Borri, C, Field, M, Dudding-Byth, T, and Algar, EM

Abstract

BACKGROUND: Beckwith-Wiedemann syndrome (BWS) is an imprinting disorder with a population frequency of approximately 1 in 10,000. The most common epigenetic defect in BWS is a loss of methylation (LOM) at the 11p15.5 imprinting centre, KCNQ1OT1 TSS-DMR, and affects 50% of cases. We hypothesised that genetic factors linked to folate metabolism may play a role in BWS predisposition via effects on methylation maintenance at KCNQ1OT1 TSS-DMR. RESULTS: Single nucleotide variants (SNVs) in the folate pathway affecting methylenetetrahydrofolate reductase (MTHFR), methionine synthase reductase (MTRR), 5-methyltetrahydrofolate-homocysteine S-methyltransferase (MTR), cystathionine beta-synthase (CBS) and methionine adenosyltransferase (MAT1A) were examined in 55 BWS patients with KCNQ1OT1 TSS-DMR LOM and in 100 unaffected cases. MTHFR rs1801133: C>T was more prevalent in BWS with KCNQ1OT1 TSS-DMR LOM (p < 0.017); however, the relationship was not significant when the Bonferroni correction for multiple testing was applied (significance, p = 0.0036). None of the remaining 13 SNVs were significantly different in the two populations tested. The DNMT1 locus was screened in 53 BWS cases, and three rare missense variants were identified in each of three patients: rs138841970: C>T, rs150331990: A>G and rs757460628: G>A encoding NP_001124295 p.Arg136Cys, p.His1118Arg and p.Arg1223His, respectively. These variants have population frequencies of less than 1 in 1000 and were absent from 100 control cases. Functional characterization using a hemimethylated DNA trapping assay revealed a reduced methyltransferase activity relative to wild-type DNMT1 for each variant ranging from 40 to 70% reduction in activity. CONCLUSIONS: This study is the first to examine folate pathway genetics in BWS and to identify rare DNMT1 missense variants in affected individuals. Our data suggests that reduced DNMT1 activity could affect maintenance of methylation at KCNQ1OT1 TSS-DMR in some cases of BWS, possibl

Published

2018

16. A Recurrent De Novo Nonsense Variant in ZSWIM6 Results in Severe Intellectual Disability without Frontonasal or Limb Malformations

Author

Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Kumar, R, Gordon, CT, Shaw, M, Hubert, L, Carroll, R, Rio, M, Murray, L, Leffler, M, Dudding-Byth, T, Oufadem, M, Lalani, SR, Lewis, AM, Xia, F, Tam, A, Webster, R, Brammah, S, Filippini, F, Pollard, J, Spies, J, Minoche, AE, Cowley, MJ ; https://orcid.org/0000-0002-9519-5714, Risen, S, Powell-Hamilton, NN, Tusi, JE, Immken, LD, Nagakura, H, Bole-Feysot, C, Nitschké, P, Garrigue, A, de Saint Basile, G, Kivuva, E, Scott, RH, Rendon, A, Munnich, A, Newman, W, Kerr, B, Besmond, C, Rosenfeld, JA, Amiel, J, Field, M, Gecz, J, Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Kumar, R, Gordon, CT, Shaw, M, Hubert, L, Carroll, R, Rio, M, Murray, L, Leffler, M, Dudding-Byth, T, Oufadem, M, Lalani, SR, Lewis, AM, Xia, F, Tam, A, Webster, R, Brammah, S, Filippini, F, Pollard, J, Spies, J, Minoche, AE, Cowley, MJ ; https://orcid.org/0000-0002-9519-5714, Risen, S, Powell-Hamilton, NN, Tusi, JE, Immken, LD, Nagakura, H, Bole-Feysot, C, Nitschké, P, Garrigue, A, de Saint Basile, G, Kivuva, E, Scott, RH, Rendon, A, Munnich, A, Newman, W, Kerr, B, Besmond, C, Rosenfeld, JA, Amiel, J, Field, M, Gecz, J, and Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X

Abstract

A recurrent de novo missense variant within the C-terminal Sin3-like domain of ZSWIM6 was previously reported to cause acromelic frontonasal dysostosis (AFND), an autosomal-dominant severe frontonasal and limb malformation syndrome, associated with neurocognitive and motor delay, via a proposed gain-of-function effect. We present detailed phenotypic information on seven unrelated individuals with a recurrent de novo nonsense variant (c.2737C>T [p.Arg913Ter]) in the penultimate exon of ZSWIM6 who have severe-profound intellectual disability and additional central and peripheral nervous system symptoms but an absence of frontonasal or limb malformations. We show that the c.2737C>T variant does not trigger nonsense-mediated decay of the ZSWIM6 mRNA in affected individual-derived cells. This finding supports the existence of a truncated ZSWIM6 protein lacking the Sin3-like domain, which could have a dominant-negative effect. This study builds support for a key role for ZSWIM6 in neuronal development and function, in addition to its putative roles in limb and craniofacial development, and provides a striking example of different variants in the same gene leading to distinct phenotypes.

Published

2017

17. Spinocerebellar ataxia type 29 due to mutations in ITPR1: A case series and review of this emerging congenital ataxia

Author

Zambonin, JL, Bellomo, A, Ben-Pazi, H, Everman, DB, Frazer, LM, Geraghty, MT, Harper, AD, Jones, JR, Kamien, B, Kernohan, K, Koenig, MK, Lines, M, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Richardson, R, Segel, R, Tarnopolsky, M, Vanstone, JR, Gibbons, M, Collins, A, Fogel, BL, Dudding-Byth, T, Boycott, KM, Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X, Zambonin, JL, Bellomo, A, Ben-Pazi, H, Everman, DB, Frazer, LM, Geraghty, MT, Harper, AD, Jones, JR, Kamien, B, Kernohan, K, Koenig, MK, Lines, M, Palmer, EE ; https://orcid.org/0000-0003-1844-215X, Richardson, R, Segel, R, Tarnopolsky, M, Vanstone, JR, Gibbons, M, Collins, A, Fogel, BL, Dudding-Byth, T, Boycott, KM, and Palmer, Elizabeth ; https://orcid.org/0000-0003-1844-215X

Abstract

Background: Spinocerebellar ataxia type 29 (SCA29) is an autosomal dominant, non-progressive cerebellar ataxia characterized by infantile-onset hypotonia, gross motor delay and cognitive impairment. Affected individuals exhibit cerebellar dysfunction and often have cerebellar atrophy on neuroimaging. Recently, missense mutations in ITPR1 were determined to be responsible. Results: Clinical information on 21 individuals from 15 unrelated families with ITPR1 mutations was retrospectively collected using standardized questionnaires, including 11 previously unreported singletons and 2 new patients from a previously reported family. We describe the genetic, clinical and neuroimaging features of these patients to further characterize the clinical features of this rare condition and assess for any genotype-phenotype correlation for this disorder. Our cohort consisted of 9 males and 12 females, with ages ranging from 28 months to 49 years. Disease course was non-progressive with infantile-onset hypotonia and delays in motor and speech development. Gait ataxia was present in all individuals and 10 (48%) were not ambulating independently between the ages of 3-12 years of age. Mild-to-moderate cognitive impairment was present in 17 individuals (85%). Cerebellar atrophy developed after initial symptom presentation in 13 individuals (72%) and was not associated with disease progression or worsening functional impairment. We identified 12 different mutations including 6 novel mutations; 10 mutations were missense (with 4 present in >1 individual), 1 a splice site mutation leading to an in-frame insertion and 1 an in-frame deletion. No specific genotype-phenotype correlations were observed within our cohort. Conclusions: Our findings document significant clinical heterogeneity between individuals with SCA29 in a large cohort of molecularly confirmed cases. Based on the retrospective observed clinical features and disease course, we provide recommendations for management. Further r

Published

2017

18. Computer face-matching technology using two-dimensional photographs accurately matches the facial gestalt of unrelated individuals with the same syndromic form of intellectual disability

Author

Dudding-Byth, T, Baxter, A, Holliday, EG, Hackett, A, O'Donnell, S, White, SM, Attia, J, Brunner, H, de Vries, B, Koolen, D, Kleefstra, T, Ratwatte, S, Riveros, C, Brain, S, Lovell, BC, Dudding-Byth, T, Baxter, A, Holliday, EG, Hackett, A, O'Donnell, S, White, SM, Attia, J, Brunner, H, de Vries, B, Koolen, D, Kleefstra, T, Ratwatte, S, Riveros, C, Brain, S, and Lovell, BC

Abstract

BACKGROUND: Massively parallel genetic sequencing allows rapid testing of known intellectual disability (ID) genes. However, the discovery of novel syndromic ID genes requires molecular confirmation in at least a second or a cluster of individuals with an overlapping phenotype or similar facial gestalt. Using computer face-matching technology we report an automated approach to matching the faces of non-identical individuals with the same genetic syndrome within a database of 3681 images [1600 images of one of 10 genetic syndrome subgroups together with 2081 control images]. Using the leave-one-out method, two research questions were specified: 1) Using two-dimensional (2D) photographs of individuals with one of 10 genetic syndromes within a database of images, did the technology correctly identify more than expected by chance: i) a top match? ii) at least one match within the top five matches? or iii) at least one in the top 10 with an individual from the same syndrome subgroup? 2) Was there concordance between correct technology-based matches and whether two out of three clinical geneticists would have considered the diagnosis based on the image alone? RESULTS: The computer face-matching technology correctly identifies a top match, at least one correct match in the top five and at least one in the top 10 more than expected by chance (P < 0.00001). There was low agreement between the technology and clinicians, with higher accuracy of the technology when results were discordant (P < 0.01) for all syndromes except Kabuki syndrome. CONCLUSIONS: Although the accuracy of the computer face-matching technology was tested on images of individuals with known syndromic forms of intellectual disability, the results of this pilot study illustrate the potential utility of face-matching technology within deep phenotyping platforms to facilitate the interpretation of DNA sequencing data for individuals who remain undiagnosed despite testing the known developmental disorder genes.

Published

2017

19. Fxtas in individuals with fragile x full mutation.

Author

Arpone M., Hwang Y., Aliaga S., Godler D., Francis D., Rogers C., Hunter M., Dudding-Byth T., Heard R., Arpone M., Hwang Y., Aliaga S., Godler D., Francis D., Rogers C., Hunter M., Dudding-Byth T., and Heard R.

Abstract

Fragile X syndrome (FXS) is the most common cause of inherited intellectual disability. FXS is characterized by a CGG expansion of more than 200 repeats (full mutation) in the fragile X mental retardation 1 (FMR1) gene, which usually results in the gene becoming methylated and silenced. Fragile X associated tremor ataxia syndrome (FXTAS) is commonly recognized as a late onset neurodegenerative disorder affecting premutation carriers with CGG repeat expansions between 55-199. FXTAS affects approximately 40% of male carriers and 8-16% of female carriers. We will present two FXS cases, one male aged 33 years and the other 38 years seen by the GOLD Service (Genetics of Learning Disability) presenting with clinical and MRI features consistent with FXTAS. We will describe our follow-up of these patients beyond the standard genetic testing to explain their presentation of FXS and FXTAS, their experiences and management. These two cases highlight: (1) limitations of standard genetic testing; and (2) that there is much to be learned about late onset disorders in FXS patients.

Published

2016

20. A systematic review and pooled analysis of penetrance estimates of copy-number variants associated with neurodevelopment.

Author

Goh S, Thiyagarajan L, Dudding-Byth T, Pinese M, and Kirk EP

Subjects

Humans, Developmental Disabilities genetics, Genetic Predisposition to Disease, Intellectual Disability genetics, Phenotype, DNA Copy Number Variations genetics, Neurodevelopmental Disorders genetics, Penetrance

Abstract

Purpose: Many copy-number variants (CNVs) are reported to cause a variety of neurodevelopmental disabilities including intellectual disability, developmental delay, autism, and other phenotypes with incomplete penetrance. Therefore, not all individuals with a pathogenic CNV are affected. Penetrance estimates vary between studies. A systematic review was conducted to clarify CNV penetrance for 83 recurrent CNVs., Methods: A systematic review using PRISMA guidelines (PROSPERO #CRD42021253955) was conducted to identify penetrance estimates for CNVs associated with neurodevelopment. Pooled analysis was performed using forest plots. The Ottawa Risk of Bias Assessment facilitated evaluation., Results: Fifteen studies were reviewed in detail with 9 affected cohorts pooled and compared with the gnomAD v4.0 CNV control cohort of 269,885 individuals. Several CNVs previously associated with nonstatistically significant penetrance estimates now exhibit statistically significant differences, contributing to emerging evidence for their pathogenicity (15q24 duplication [A-D breakpoints], 15q24.2q24.5 deletion and duplication [FBXO22], 17q11.2 duplication [NF1], 17q21.31 duplication [KANSL1] and 22q11.2 distal duplication). Additionally, evidence is presented for the benign nature of some CNVs (15q11.2 duplication [NIPA1] and 2q13 proximal duplication [NPHP1])., Conclusion: This is a large-scale systematic review of CNVs associated with neurodevelopment. A synopsis analyzing penetrance and pathogenicity is provided for each of the 83 recurrent CNVs., Competing Interests: Conflict of Interest All authors declare no conflicts of interest., (Copyright © 2024 American College of Medical Genetics and Genomics. All rights reserved.)

Published

2025

21. A Genotype/Phenotype Study of KDM5B -Associated Disorders Suggests a Pathogenic Effect of Dominantly Inherited Missense Variants.

Author

Borroto MC, Michaud C, Hudon C, Agrawal PB, Agre K, Applegate CD, Beggs AH, Bjornsson HT, Callewaert B, Chen MJ, Curry C, Devinsky O, Dudding-Byth T, Fagan K, Finnila CR, Gavrilova R, Genetti CA, Hiatt SM, Hildebrandt F, Wojcik MH, Kleefstra T, Kolvenbach CM, Korf BR, Kruszka P, Li H, Litwin J, Marcadier J, Platzer K, Blackburn PR, Reijnders MRF, Reutter H, Schanze I, Shieh JT, Stevens CA, Valivullah Z, van den Boogaard MJ, Klee EW, and Campeau PM

Subjects

Humans, Female, Male, Child, Child, Preschool, Adolescent, Adult, Genetic Association Studies, Intellectual Disability genetics, Intellectual Disability pathology, Retrospective Studies, Infant, Genotype, Nuclear Proteins, Repressor Proteins, Mutation, Missense, Jumonji Domain-Containing Histone Demethylases genetics, Phenotype

Abstract

Bi-allelic disruptive variants (nonsense, frameshift, and splicing variants) in KDM5B have been identified as causative for autosomal recessive intellectual developmental disorder type 65. In contrast, dominant variants, usually disruptive as well, have been more difficult to implicate in a specific phenotype, since some of them have been found in unaffected controls or relatives. Here, we describe individuals with likely pathogenic variants in KDM5B , including eight individuals with dominant missense variants. This study is a retrospective case series of 21 individuals with variants in KDM5B . We performed deep phenotyping and collected the clinical information and molecular data of these individuals' family members. We compared the phenotypes according to variant type and to those previously described in the literature. The most common features were developmental delay, impaired intellectual development, behavioral problems, autistic behaviors, sleep disorders, facial dysmorphism, and overgrowth. DD, ASD behaviors, and sleep disorders were more common in individuals with dominant disruptive KDM5B variants, while individuals with dominant missense variants presented more frequently with renal and skin anomalies. This study extends our understanding of the KDM5B -related neurodevelopmental disorder and suggests the pathogenicity of certain dominant KDM5B missense variants.

Published

2024

22. Narrowing the diagnostic gap: Genomes, episignatures, long-read sequencing, and health economic analyses in an exome-negative intellectual disability cohort.

Author

Dias KR, Shrestha R, Schofield D, Evans CA, O'Heir E, Zhu Y, Zhang F, Standen K, Weisburd B, Stenton SL, Sanchis-Juan A, Brand H, Talkowski ME, Ma A, Ghedia S, Wilson M, Sandaradura SA, Smith J, Kamien B, Turner A, Bakshi M, Adès LC, Mowat D, Regan M, McGillivray G, Savarirayan R, White SM, Tan TY, Stark Z, Brown NJ, Pérez-Jurado LA, Krzesinski E, Hunter MF, Akesson L, Fennell AP, Yeung A, Boughtwood T, Ewans LJ, Kerkhof J, Lucas C, Carey L, French H, Rapadas M, Stevanovski I, Deveson IW, Cliffe C, Elakis G, Kirk EP, Dudding-Byth T, Fletcher J, Walsh R, Corbett MA, Kroes T, Gecz J, Meldrum C, Cliffe S, Wall M, Lunke S, North K, Amor DJ, Field M, Sadikovic B, Buckley MF, O'Donnell-Luria A, and Roscioli T

Subjects

Humans, Male, Female, Cohort Studies, Genetic Testing economics, Genetic Testing methods, Whole Genome Sequencing economics, Child, Genome, Human genetics, DNA Copy Number Variations genetics, Polymorphism, Single Nucleotide genetics, Child, Preschool, Intellectual Disability genetics, Intellectual Disability diagnosis, Exome genetics, Exome Sequencing economics

Abstract

Purpose: Genome sequencing (GS)-specific diagnostic rates in prospective tightly ascertained exome sequencing (ES)-negative intellectual disability (ID) cohorts have not been reported extensively., Methods: ES, GS, epigenetic signatures, and long-read sequencing diagnoses were assessed in 74 trios with at least moderate ID., Results: The ES diagnostic yield was 42 of 74 (57%). GS diagnoses were made in 9 of 32 (28%) ES-unresolved families. Repeated ES with a contemporary pipeline on the GS-diagnosed families identified 8 of 9 single-nucleotide variations/copy-number variations undetected in older ES, confirming a GS-unique diagnostic rate of 1 in 32 (3%). Episignatures contributed diagnostic information in 9% with GS corroboration in 1 of 32 (3%) and diagnostic clues in 2 of 32 (6%). A genetic etiology for ID was detected in 51 of 74 (69%) families. Twelve candidate disease genes were identified. Contemporary ES followed by GS cost US$4976 (95% CI: $3704; $6969) per diagnosis and first-line GS at a cost of $7062 (95% CI: $6210; $8475) per diagnosis., Conclusion: Performing GS only in ID trios would be cost equivalent to ES if GS were available at $2435, about a 60% reduction from current prices. This study demonstrates that first-line GS achieves higher diagnostic rate than contemporary ES but at a higher cost., Competing Interests: Conflict of Interest The authors declare no conflicts of interest., (Copyright © 2024 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published

2024

23. Integration of EpiSign, facial phenotyping, and likelihood ratio interpretation of clinical abnormalities in the re-classification of an ARID1B missense variant.

Author

Forwood C, Ashton K, Zhu Y, Zhang F, Dias KR, Standen K, Evans CA, Carey L, Cardamone M, Shalhoub C, Katf H, Riveros C, Hsieh TC, Krawitz P, Robinson PN, Dudding-Byth T, Sadikovic B, Pinner J, Buckley MF, and Roscioli T

Subjects

Male, Humans, DNA-Binding Proteins genetics, Muscle Hypotonia pathology, Transcription Factors genetics, Face pathology, Neck pathology, Abnormalities, Multiple diagnosis, Micrognathism genetics, Intellectual Disability pathology, Hand Deformities, Congenital genetics

Abstract

Heterozygous ARID1B variants result in Coffin-Siris syndrome. Features may include hypoplastic nails, slow growth, characteristic facial features, hypotonia, hypertrichosis, and sparse scalp hair. Most reported cases are due to ARID1B loss of function variants. We report a boy with developmental delay, feeding difficulties, aspiration, recurrent respiratory infections, slow growth, and hypotonia without a clinical diagnosis, where a previously unreported ARID1B missense variant was classified as a variant of uncertain significance. The pathogenicity of this variant was refined through combined methodologies including genome-wide methylation signature analysis (EpiSign), Machine Learning (ML) facial phenotyping, and LIRICAL. Trio exome sequencing and EpiSign were performed. ML facial phenotyping compared facial images using FaceMatch and GestaltMatcher to syndrome-specific libraries to prioritize the trio exome bioinformatic pipeline gene list output. Phenotype-driven variant prioritization was performed with LIRICAL. A de novo heterozygous missense variant, ARID1B p.(Tyr1268His), was reported as a variant of uncertain significance. The ACMG classification was refined to likely pathogenic by a supportive methylation signature, ML facial phenotyping, and prioritization through LIRICAL. The ARID1B genotype-phenotype has been expanded through an extended analysis of missense variation through genome-wide methylation signatures, ML facial phenotyping, and likelihood-ratio gene prioritization., (© 2023 The Authors. American Journal of Medical Genetics Part C: Seminars in Medical Genetics published by Wiley Periodicals LLC.)

Published

2023

24. POU3F3-related disorder: Defining the phenotype and expanding the molecular spectrum.

Author

Rossi A, Blok LS, Neuser S, Klöckner C, Platzer K, Faivre LO, Weigand H, Dentici ML, Tartaglia M, Niceta M, Alfieri P, Srivastava S, Coulter D, Smith L, Vinorum K, Cappuccio G, Brunetti-Pierri N, Torun D, Arslan M, Lauridsen MF, Murch O, Irving R, Lynch SA, Mehta SG, Carmichael J, Zonneveld-Huijssoon E, de Vries B, Kleefstra T, Johannesen KM, Westphall IT, Hughes SS, Smithson S, Evans J, Dudding-Byth T, Simon M, van Binsbergen E, Herkert JC, Beunders G, Oppermann H, Bakal M, Møller RS, Rubboli G, and Bayat A

Subjects

Humans, Child, Phenotype, Mutation, Missense genetics, Developmental Disabilities genetics, POU Domain Factors genetics, Intellectual Disability genetics, Autistic Disorder genetics, Epilepsy genetics

Abstract

POU3F3 variants cause developmental delay, behavioral problems, hypotonia and dysmorphic features. We investigated the phenotypic and genetic landscape, and genotype-phenotype correlations in individuals with POU3F3-related disorders. We recruited unpublished individuals with POU3F3 variants through international collaborations and obtained updated clinical data on previously published individuals. Trio exome sequencing or single exome sequencing followed by segregation analysis were performed in the novel cohort. Functional effects of missense variants were investigated with 3D protein modeling. We included 28 individuals (5 previously published) from 26 families carrying POU3F3 variants; 23 de novo and one inherited from an affected parent. Median age at study inclusion was 7.4 years. All had developmental delay mainly affecting speech, behavioral difficulties, psychiatric comorbidities and dysmorphisms. Additional features included gastrointestinal comorbidities, hearing loss, ophthalmological anomalies, epilepsy, sleep disturbances and joint hypermobility. Autism, hearing and eye comorbidities, dysmorphisms were more common in individuals with truncating variants, whereas epilepsy was only associated with missense variants. In silico structural modeling predicted that all (likely) pathogenic variants destabilize the DNA-binding region of POU3F3. Our study refined the phenotypic and genetic landscape of POU3F3-related disorders, it reports the functional properties of the identified pathogenic variants, and delineates some genotype-phenotype correlations., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2023

25. Further delineation of dosage-sensitive K/L mediated Xq28 duplication syndrome includes incomplete penetrance.

Author

Leffler M, Christie L, Hackett A, Bennetts B, Goel H, Amor DJ, Peters GB, Field M, and Dudding-Byth T

Subjects

Female, Male, Humans, Chromosomes, Human, X, Penetrance, Phenotype, Gene Duplication, Chromosome Duplication, DNA Copy Number Variations, Intellectual Disability genetics

Abstract

The low copy tandem repeat area at Xq28 is prone to recurrent copy number gains, including the K/L mediated duplications of 300 kb size (herein described as the K/L mediated Xq28 duplication syndrome). We describe five families, including nine males with K/L mediated Xq28 duplications, some with regions of greater copy number variation (CNV). We summarise findings in 25 affected males reported to date. Within the five families, males were variably affected by seizures, intellectual disability, and neurological features; however, one male with a familial K/L mediated Xq28 duplication has normal intelligence, suggesting that this CNV is not 100% penetrant. Including our five families, 13 carrier females have been identified, with nine presenting phenotypically normal. Three carrier females reported mild learning difficulties, and all of them had duplications containing regions with at least four copies. Delineation of the spectrum of K/L mediated Xq28 duplication syndrome highlights GDI1 as the most likely candidate gene contributing to the phenotype. For patients identified with CNVs in this region, high-resolution microarray is required to define copy number gains and provide families with accurate information., (© 2023 The Authors. Clinical Genetics published by John Wiley & Sons Ltd.)

Published

2023

26. Functional and clinical studies reveal pathophysiological complexity of CLCN4-related neurodevelopmental condition.

Author

Palmer EE, Pusch M, Picollo A, Forwood C, Nguyen MH, Suckow V, Gibbons J, Hoff A, Sigfrid L, Megarbane A, Nizon M, Cogné B, Beneteau C, Alkuraya FS, Chedrawi A, Hashem MO, Stamberger H, Weckhuysen S, Vanlander A, Ceulemans B, Rajagopalan S, Nunn K, Arpin S, Raynaud M, Motter CS, Ward-Melver C, Janssens K, Meuwissen M, Beysen D, Dikow N, Grimmel M, Haack TB, Clement E, McTague A, Hunt D, Townshend S, Ward M, Richards LJ, Simons C, Costain G, Dupuis L, Mendoza-Londono R, Dudding-Byth T, Boyle J, Saunders C, Fleming E, El Chehadeh S, Spitz MA, Piton A, Gerard B, Abi Warde MT, Rea G, McKenna C, Douzgou S, Banka S, Akman C, Bain JM, Sands TT, Wilson GN, Silvertooth EJ, Miller L, Lederer D, Sachdev R, Macintosh R, Monestier O, Karadurmus D, Collins F, Carter M, Rohena L, Willemsen MH, Ockeloen CW, Pfundt R, Kroft SD, Field M, Laranjeira FER, Fortuna AM, Soares AR, Michaud V, Naudion S, Golla S, Weaver DD, Bird LM, Friedman J, Clowes V, Joss S, Pölsler L, Campeau PM, Blazo M, Bijlsma EK, Rosenfeld JA, Beetz C, Powis Z, McWalter K, Brandt T, Torti E, Mathot M, Mohammad SS, Armstrong R, and Kalscheuer VM

Subjects

Male, Female, Humans, Mutation, Missense, Genes, X-Linked, Phenotype, Chloride Channels genetics, Neurodevelopmental Disorders genetics

Abstract

Missense and truncating variants in the X-chromosome-linked CLCN4 gene, resulting in reduced or complete loss-of-function (LOF) of the encoded chloride/proton exchanger ClC-4, were recently demonstrated to cause a neurocognitive phenotype in both males and females. Through international clinical matchmaking and interrogation of public variant databases we assembled a database of 90 rare CLCN4 missense variants in 90 families: 41 unique and 18 recurrent variants in 49 families. For 43 families, including 22 males and 33 females, we collated detailed clinical and segregation data. To confirm causality of variants and to obtain insight into disease mechanisms, we investigated the effect on electrophysiological properties of 59 of the variants in Xenopus oocytes using extended voltage and pH ranges. Detailed analyses revealed new pathophysiological mechanisms: 25% (15/59) of variants demonstrated LOF, characterized by a "shift" of the voltage-dependent activation to more positive voltages, and nine variants resulted in a toxic gain-of-function, associated with a disrupted gate allowing inward transport at negative voltages. Functional results were not always in line with in silico pathogenicity scores, highlighting the complexity of pathogenicity assessment for accurate genetic counselling. The complex neurocognitive and psychiatric manifestations of this condition, and hitherto under-recognized impacts on growth, gastrointestinal function, and motor control are discussed. Including published cases, we summarize features in 122 individuals from 67 families with CLCN4-related neurodevelopmental condition and suggest future research directions with the aim of improving the integrated care for individuals with this diagnosis., (© 2022. The Author(s).)

Published

2023

27. The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance.

Author

Brazane M, Dimitrova DG, Pigeon J, Paolantoni C, Ye T, Marchand V, Da Silva B, Schaefer E, Angelova MT, Stark Z, Delatycki M, Dudding-Byth T, Gecz J, Plaçais PY, Teysset L, Préat T, Piton A, Hassan BA, Roignant JY, Motorin Y, and Carré C

Subjects

Humans, Methylation, Methyltransferases genetics, RNA, Transfer genetics, RNA, Transfer metabolism, Neurons metabolism, Nuclear Proteins genetics, Ribose, Intellectual Disability genetics

Abstract

FTSJ1 is a conserved human 2'-O-methyltransferase (Nm-MTase) that modifies several tRNAs at position 32 and the wobble position 34 in the anticodon loop. Its loss of function has been linked to X-linked intellectual disability (XLID), and more recently to cancers. However, the molecular mechanisms underlying these pathologies are currently unclear. Here, we report a novel FTSJ1 pathogenic variant from an X-linked intellectual disability patient. Using blood cells derived from this patient and other affected individuals carrying FTSJ1 mutations, we performed an unbiased and comprehensive RiboMethSeq analysis to map the ribose methylation on all human tRNAs and identify novel targets. In addition, we performed a transcriptome analysis in these cells and found that several genes previously associated with intellectual disability and cancers were deregulated. We also found changes in the miRNA population that suggest potential cross-regulation of some miRNAs with these key mRNA targets. Finally, we show that differentiation of FTSJ1-depleted human neural progenitor cells into neurons displays long and thin spine neurites compared with control cells. These defects are also observed in Drosophila and are associated with long-term memory deficits. Altogether, our study adds insight into FTSJ1 pathologies in humans and flies by the identification of novel FTSJ1 targets and the defect in neuron morphology., (© 2023 Brazane et al.)

Published

2023

28. An HNRNPK-specific DNA methylation signature makes sense of missense variants and expands the phenotypic spectrum of Au-Kline syndrome.

Author

Choufani S, McNiven V, Cytrynbaum C, Jangjoo M, Adam MP, Bjornsson HT, Harris J, Dyment DA, Graham GE, Nezarati MM, Aul RB, Castiglioni C, Breckpot J, Devriendt K, Stewart H, Banos-Pinero B, Mehta S, Sandford R, Dunn C, Mathevet R, van Maldergem L, Piard J, Brischoux-Boucher E, Vitobello A, Faivre L, Bournez M, Tran-Mau F, Maystadt I, Fernández-Jaén A, Alvarez S, García-Prieto ID, Alkuraya FS, Alsaif HS, Rahbeeni Z, El-Akouri K, Al-Mureikhi M, Spillmann RC, Shashi V, Sanchez-Lara PA, Graham JM Jr, Roberts A, Chorin O, Evrony GD, Kraatari-Tiri M, Dudding-Byth T, Richardson A, Hunt D, Hamilton L, Dyack S, Mendelsohn BA, Rodríguez N, Sánchez-Martínez R, Tenorio-Castaño J, Nevado J, Lapunzina P, Tirado P, Carminho Amaro Rodrigues MT, Quteineh L, Innes AM, Kline AD, Au PYB, and Weksberg R

Subjects

Abnormalities, Multiple, Chromatin, Epigenesis, Genetic, Face abnormalities, Hematologic Diseases, Heterogeneous-Nuclear Ribonucleoprotein K genetics, Humans, Phenotype, Vestibular Diseases, DNA Methylation genetics, Intellectual Disability genetics

Abstract

Au-Kline syndrome (AKS) is a neurodevelopmental disorder associated with multiple malformations and a characteristic facial gestalt. The first individuals ascertained carried de novo loss-of-function (LoF) variants in HNRNPK. Here, we report 32 individuals with AKS (26 previously unpublished), including 13 with de novo missense variants. We propose new clinical diagnostic criteria for AKS that differentiate it from the clinically overlapping Kabuki syndrome and describe a significant phenotypic expansion to include individuals with missense variants who present with subtle facial features and few or no malformations. Many gene-specific DNA methylation (DNAm) signatures have been identified for neurodevelopmental syndromes. Because HNRNPK has roles in chromatin and epigenetic regulation, we hypothesized that pathogenic variants in HNRNPK may be associated with a specific DNAm signature. Here, we report a unique DNAm signature for AKS due to LoF HNRNPK variants, distinct from controls and Kabuki syndrome. This DNAm signature is also identified in some individuals with de novo HNRNPK missense variants, confirming their pathogenicity and the phenotypic expansion of AKS to include more subtle phenotypes. Furthermore, we report that some individuals with missense variants have an "intermediate" DNAm signature that parallels their milder clinical presentation, suggesting the presence of an epi-genotype phenotype correlation. In summary, the AKS DNAm signature may help elucidate the underlying pathophysiology of AKS. This DNAm signature also effectively supported clinical syndrome delineation and is a valuable aid for variant interpretation in individuals where a clinical diagnosis of AKS is unclear, particularly for mild presentations., Competing Interests: Declaration of interests H.T.B. is a consultant for Mahzi therapeutics., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

29. IQSEC2-related encephalopathy in males due to missense variants in the pleckstrin homology domain.

Author

Shoubridge C, Dudding-Byth T, Pasquier L, Goel H, Yap P, and McConnell V

Subjects

Guanine Nucleotide Exchange Factors genetics, Humans, Male, Mutation, Phenotype, Pleckstrin Homology Domains, Brain Diseases, Intellectual Disability genetics, Intellectual Disability pathology

Abstract

Pathogenic variants in IQ motif and SEC7 domain containing protein 2 (IQSEC2) gene cause a variety of neurodevelopmental disorders, with intellectual disability as a uniform feature. We report five cases, each with a novel missense variant in the pleckstrin homology (PH) domain of the IQSEC2 protein. Male patients all present with moderate to profound intellectual disability, significant delays or absent language and speech and variable seizures. We describe the phenotypic spectrum associated with missense variants in PH domain of IQSEC2, further delineating the genotype-phenotype correlation for this X-linked gene., (© 2022 The Authors. Clinical Genetics published by John Wiley & Sons Ltd.)

Published

2022

30. Methylation analysis and developmental profile of two individuals with Angelman syndrome due to mosaic imprinting defects.

Author

Baker EK, Merton CF, Tan WH, Dudding-Byth T, Godler DE, and Sadhwani A

Subjects

Adult, Chromosomes, Human, Pair 15 genetics, DNA Methylation, Genomic Imprinting, Humans, Mosaicism, Uniparental Disomy, snRNP Core Proteins genetics, Angelman Syndrome genetics

Abstract

Angelman syndrome (AS) is a severe neurodevelopmental disorder caused by loss of expression of the maternally-inherited UBE3A on chromosome 15q11.2. In AS due to a chromosomal deletion that encompasses UBE3A, paternal uniparental disomy of chromosome 15, or imprinting defects (ImpD), the SNRPN locus is unmethylated, while in neurotypical individuals, it is ∼50% methylated. We present the developmental profile of two adults with mild AS assessed using standardized behavioral and neurodevelopmental measures. Both had intellectual disability with unusually advanced verbal communication skills compared to other individuals with AS. Methylation of the SNRPN locus was examined using Methylation Specific Quantitative Melt Analysis (MS-QMA) in different tissues at one time point for participant A (22 years) and two time points for participant B (T1: 22 years, T2: 25 years), and these levels were compared to a typical AS cohort. While participant A showed methylation levels comparable to the typical AS cohort, participant B showed methylation mosaicism in all tissues at both time points and changes in methylation levels from T1 to T2. AS should be considered in individuals with intellectual disability and verbal speech who may not have the typical symptoms of AS., (Copyright © 2022. Published by Elsevier Masson SAS.)

Published

2022

31. Experiences of non-invasive prenatal screening: A survey study.

Author

Cornell P, Armstrong T, Fyfe R, Mallise CA, Dudding-Byth T, and Campbell LE

Subjects

Australia, Female, Humans, Pregnancy, Surveys and Questionnaires, Emotions, Prenatal Diagnosis methods

Abstract

Background: In Australia, using non-invasive prenatal testing (NIPT) to screen for fetal abnormalities is becoming more commonplace. However, there is a lack of standardised procedures surrounding pre-test counselling. This holds the potential for variability in pregnant people's experiences when undergoing NIPT, which subsequently may impact their ability to make informed decisions surrounding NIPT results., Aim: This study sought to characterise the experiences of Australian women undergoing NIPT, including perceptions of informed choice, counselling experiences and decision to undergo NIPT., Materials and Methods: Australian women who had been recently pregnant (n = 94) completed an online survey which assessed: their knowledge of and attitude toward NIPT; satisfaction with counselling; satisfaction with their decision; and decisional conflict to undergo NIPT. The survey also allowed participants to provide qualitative information about their counselling experience and reasons for undergoing NIPT., Results: Overall, participants had good knowledge of and positive attitudes toward NIPT, experienced low decisional conflict and were overall satisfied with their counselling experience and decision to undergo NIPT. However, some participants expressed dissatisfaction with the lack of information provided, and biased language, by counselling providers. The desire to be informed was the most frequent reason for undergoing NIPT., Conclusion: The provision of accurate and objective information in pre-test counselling is important to reduce decisional conflict and improve satisfaction with the decision to undergo NIPT. It is recommended counselling providers present pregnant people with neutral, objective, and accurate information at the time of pre-test counselling., (© 2021 The Royal Australian and New Zealand College of Obstetricians and Gynaecologists.)

Published

2022

32. Different types of disease-causing noncoding variants revealed by genomic and gene expression analyses in families with X-linked intellectual disability.

Author

Field MJ, Kumar R, Hackett A, Kayumi S, Shoubridge CA, Ewans LJ, Ivancevic AM, Dudding-Byth T, Carroll R, Kroes T, Gardner AE, Sullivan P, Ha TT, Schwartz CE, Cowley MJ, Dinger ME, Palmer EE, Christie L, Shaw M, Roscioli T, Gecz J, and Corbett MA

Subjects

Gene Expression, Genes, X-Linked, Genomics, Humans, Pedigree, Intellectual Disability diagnosis

Abstract

The pioneering discovery research of X-linked intellectual disability (XLID) genes has benefitted thousands of individuals worldwide; however, approximately 30% of XLID families still remain unresolved. We postulated that noncoding variants that affect gene regulation or splicing may account for the lack of a genetic diagnosis in some cases. Detecting pathogenic, gene-regulatory variants with the same sensitivity and specificity as structural and coding variants is a major challenge for Mendelian disorders. Here, we describe three pedigrees with suggestive XLID where distinctive phenotypes associated with known genes guided the identification of three different noncoding variants. We used comprehensive structural, single-nucleotide, and repeat expansion analyses of genome sequencing. RNA-Seq from patient-derived cell lines, reverse-transcription polymerase chain reactions, Western blots, and reporter gene assays were used to confirm the functional effect of three fundamentally different classes of pathogenic noncoding variants: a retrotransposon insertion, a novel intronic splice donor, and a canonical splice variant of an untranslated exon. In one family, we excluded a rare coding variant in ARX, a known XLID gene, in favor of a regulatory noncoding variant in OFD1 that correlated with the clinical phenotype. Our results underscore the value of genomic research on unresolved XLID families to aid novel, pathogenic noncoding variant discovery., (© 2021 Wiley Periodicals LLC.)

Published

2021

33. Correction: The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin-Siris syndrome.

Author

van der Sluijs PJ, Jansen S, Vergano SA, Adachi-Fukuda M, Alanay Y, AlKindy A, Baban A, Bayat A, Beck-Wödl S, Berry K, Bijlsma EK, Bok LA, Brouwer AFJ, van der Burgt I, Campeau PM, Canham N, Chrzanowska K, Chu YWY, Chung BHY, Dahan K, De Rademaeker M, Destree A, Dudding-Byth T, Earl R, Elcioglu N, Elias ER, Fagerberg C, Gardham A, Gener B, Gerkes EH, Grasshoff U, van Haeringen A, Heitink KR, Herkert JC, den Hollander NS, Horn D, Hunt D, Kant SG, Kato M, Kayserili H, Kersseboom R, Kilic E, Krajewska-Walasek M, Lammers K, Laulund LW, Lederer D, Lees M, López-González V, Maas S, Mancini GMS, Marcelis C, Martinez F, Maystadt I, McGuire M, McKee S, Mehta S, Metcalfe K, Milunsky J, Mizuno S, Moeschler JB, Netzer C, Ockeloen CW, Oehl-Jaschkowitz B, Okamoto N, Olminkhof SNM, Orellana C, Pasquier L, Pottinger C, Riehmer V, Robertson SP, Roifman M, Rooryck C, Ropers FG, Rosello M, Ruivenkamp CAL, Sagiroglu MS, Sallevelt SCEH, Calvo AS, Simsek-Kiper PO, Soares G, Solaeche L, Sonmez FM, Splitt M, Steenbeek D, Stegmann APA, Stumpel CTRM, Tanabe S, Uctepe E, Utine GE, Veenstra-Knol HE, Venkateswaran S, Vilain C, Vincent-Delorme C, Vulto-van Silfhout AT, Wheeler P, Wilson GN, Wilson LC, Wollnik B, Kosho T, Wieczorek D, Eichler E, Pfundt R, de Vries BBA, Clayton-Smith J, and Santen GWE

Abstract

The original version of this Article contained an error in the spelling of the author Pleuntje J. van der Sluijs, which was incorrectly given as Eline (P. J.) van der Sluijs. This has now been corrected in both the PDF and HTML versions of the Article.

Published

2019

34. Significantly Elevated FMR1 mRNA and Mosaicism for Methylated Premutation and Full Mutation Alleles in Two Brothers with Autism Features Referred for Fragile X Testing.

Author

Field M, Dudding-Byth T, Arpone M, Baker EK, Aliaga SM, Rogers C, Hickerton C, Francis D, Phelan DG, Palmer EE, Amor DJ, Slater H, Bretherton L, Ling L, and Godler DE

Subjects

Alleles, Child, Preschool, DNA Methylation, Humans, Male, Mosaicism, Mutation, Siblings, Up-Regulation, Autistic Disorder genetics, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome genetics, RNA, Messenger genetics

Abstract

Although fragile X syndrome (FXS) is caused by a hypermethylated full mutation (FM) expansion with ≥200 cytosine-guanine-guanine (CGG) repeats, and a decrease in FMR1 mRNA and its protein (FMRP), incomplete silencing has been associated with more severe autism features in FXS males. This study reports on brothers (B1 and B2), aged 5 and 2 years, with autistic features and language delay, but a higher non-verbal IQ in comparison to typical FXS. CGG sizing using AmplideX PCR only identified premutation (PM: 55-199 CGGs) alleles in blood. Similarly, follow-up in B1 only revealed PM alleles in saliva and skin fibroblasts; whereas, an FM expansion was detected in both saliva and buccal DNA of B2. While Southern blot analysis of blood detected an unmethylated FM, methylation analysis with a more sensitive methodology showed that B1 had partially methylated PM alleles in blood and fibroblasts, which were completely unmethylated in buccal and saliva cells. In contrast, B2 was partially methylated in all tested tissues. Moreover, both brothers had FMR1 mRNA ~5 fold higher values than those of controls, FXS and PM cohorts. In conclusion, the presence of unmethylated FM and/or PM in both brothers may lead to an overexpression of toxic expanded mRNA in some cells, which may contribute to neurodevelopmental problems, including elevated autism features.

Published

2019

35. Enabling Global Clinical Collaborations on Identifiable Patient Data: The Minerva Initiative.

Author

Nellåker C, Alkuraya FS, Baynam G, Bernier RA, Bernier FPJ, Boulanger V, Brudno M, Brunner HG, Clayton-Smith J, Cogné B, Dawkins HJS, deVries BBA, Douzgou S, Dudding-Byth T, Eichler EE, Ferlaino M, Fieggen K, Firth HV, FitzPatrick DR, Gration D, Groza T, Haendel M, Hallowell N, Hamosh A, Hehir-Kwa J, Hitz MP, Hughes M, Kini U, Kleefstra T, Kooy RF, Krawitz P, Küry S, Lees M, Lyon GJ, Lyonnet S, Marcadier JL, Meyn S, Moslerová V, Politei JM, Poulton CC, Raymond FL, Reijnders MRF, Robinson PN, Romano C, Rose CM, Sainsbury DCG, Schofield L, Sutton VR, Turnovec M, Van Dijck A, Van Esch H, and Wilkie AOM

Abstract

The clinical utility of computational phenotyping for both genetic and rare diseases is increasingly appreciated; however, its true potential is yet to be fully realized. Alongside the growing clinical and research availability of sequencing technologies, precise deep and scalable phenotyping is required to serve unmet need in genetic and rare diseases. To improve the lives of individuals affected with rare diseases through deep phenotyping, global big data interrogation is necessary to aid our understanding of disease biology, assist diagnosis, and develop targeted treatment strategies. This includes the application of cutting-edge machine learning methods to image data. As with most digital tools employed in health care, there are ethical and data governance challenges associated with using identifiable personal image data. There are also risks with failing to deliver on the patient benefits of these new technologies, the biggest of which is posed by data siloing. The Minerva Initiative has been designed to enable the public good of deep phenotyping while mitigating these ethical risks. Its open structure, enabling collaboration and data sharing between individuals, clinicians, researchers and private enterprise, is key for delivering precision public health.

Published

2019

36. The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin-Siris syndrome.

Author

van der Sluijs PJ, Jansen S, Vergano SA, Adachi-Fukuda M, Alanay Y, AlKindy A, Baban A, Bayat A, Beck-Wödl S, Berry K, Bijlsma EK, Bok LA, Brouwer AFJ, van der Burgt I, Campeau PM, Canham N, Chrzanowska K, Chu YWY, Chung BHY, Dahan K, De Rademaeker M, Destree A, Dudding-Byth T, Earl R, Elcioglu N, Elias ER, Fagerberg C, Gardham A, Gener B, Gerkes EH, Grasshoff U, van Haeringen A, Heitink KR, Herkert JC, den Hollander NS, Horn D, Hunt D, Kant SG, Kato M, Kayserili H, Kersseboom R, Kilic E, Krajewska-Walasek M, Lammers K, Laulund LW, Lederer D, Lees M, López-González V, Maas S, Mancini GMS, Marcelis C, Martinez F, Maystadt I, McGuire M, McKee S, Mehta S, Metcalfe K, Milunsky J, Mizuno S, Moeschler JB, Netzer C, Ockeloen CW, Oehl-Jaschkowitz B, Okamoto N, Olminkhof SNM, Orellana C, Pasquier L, Pottinger C, Riehmer V, Robertson SP, Roifman M, Rooryck C, Ropers FG, Rosello M, Ruivenkamp CAL, Sagiroglu MS, Sallevelt SCEH, Sanchis Calvo A, Simsek-Kiper PO, Soares G, Solaeche L, Sonmez FM, Splitt M, Steenbeek D, Stegmann APA, Stumpel CTRM, Tanabe S, Uctepe E, Utine GE, Veenstra-Knol HE, Venkateswaran S, Vilain C, Vincent-Delorme C, Vulto-van Silfhout AT, Wheeler P, Wilson GN, Wilson LC, Wollnik B, Kosho T, Wieczorek D, Eichler E, Pfundt R, de Vries BBA, Clayton-Smith J, and Santen GWE

Subjects

Abnormalities, Multiple genetics, Adolescent, Adult, Child, Child, Preschool, Chromosomal Proteins, Non-Histone genetics, Exome, Face abnormalities, Female, Genetic Association Studies methods, Genetic Variation genetics, Hand Deformities, Congenital genetics, Humans, Infant, Infant, Newborn, Intellectual Disability genetics, Male, Micrognathism genetics, Middle Aged, Mutation, Neck abnormalities, Penetrance, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Transcription Factors genetics, Transcription Factors metabolism

Abstract

Purpose: Pathogenic variants in ARID1B are one of the most frequent causes of intellectual disability (ID) as determined by large-scale exome sequencing studies. Most studies published thus far describe clinically diagnosed Coffin-Siris patients (ARID1B-CSS) and it is unclear whether these data are representative for patients identified through sequencing of unbiased ID cohorts (ARID1B-ID). We therefore sought to determine genotypic and phenotypic differences between ARID1B-ID and ARID1B-CSS. In parallel, we investigated the effect of different methods of phenotype reporting., Methods: Clinicians entered clinical data in an extensive web-based survey., Results: 79 ARID1B-CSS and 64 ARID1B-ID patients were included. CSS-associated dysmorphic features, such as thick eyebrows, long eyelashes, thick alae nasi, long and/or broad philtrum, small nails and small or absent fifth distal phalanx and hypertrichosis, were observed significantly more often (p < 0.001) in ARID1B-CSS patients. No other significant differences were identified., Conclusion: There are only minor differences between ARID1B-ID and ARID1B-CSS patients. ARID1B-related disorders seem to consist of a spectrum, and patients should be managed similarly. We demonstrated that data collection methods without an explicit option to report the absence of a feature (such as most Human Phenotype Ontology-based methods) tended to underestimate gene-related features.

Published

2019

37. A recurrent missense variant in SLC9A7 causes nonsyndromic X-linked intellectual disability with alteration of Golgi acidification and aberrant glycosylation.

Author

Khayat W, Hackett A, Shaw M, Ilie A, Dudding-Byth T, Kalscheuer VM, Christie L, Corbett MA, Juusola J, Friend KL, Kirmse BM, Gecz J, Field M, and Orlowski J

Subjects

Acids metabolism, Animals, CHO Cells, Cell Membrane genetics, Cricetinae, Cricetulus, Gene Expression Regulation genetics, Genetic Diseases, X-Linked metabolism, Genetic Diseases, X-Linked pathology, Glycosylation, Golgi Apparatus metabolism, Humans, Intellectual Disability metabolism, Intellectual Disability pathology, Membrane Glycoproteins genetics, Mutation, Missense genetics, Protein Transport genetics, Transfection, Viral Envelope Proteins genetics, trans-Golgi Network genetics, Genetic Diseases, X-Linked genetics, Golgi Apparatus genetics, Intellectual Disability genetics, Sodium-Hydrogen Exchangers genetics

Abstract

We report two unrelated families with multigenerational nonsyndromic intellectual disability (ID) segregating with a recurrent de novo missense variant (c.1543C>T:p.Leu515Phe) in the alkali cation/proton exchanger gene SLC9A7 (also commonly referred to as NHE7). SLC9A7 is located on human X chromosome at Xp11.3 and has not yet been associated with a human phenotype. The gene is widely transcribed, but especially abundant in brain, skeletal muscle and various secretory tissues. Within cells, SLC9A7 resides in the Golgi apparatus, with prominent enrichment in the trans-Golgi network (TGN) and post-Golgi vesicles. In transfected Chinese hamster ovary AP-1 cells, the Leu515Phe mutant protein was correctly targeted to the TGN/post-Golgi vesicles, but its N-linked oligosaccharide maturation as well as that of a co-transfected secretory membrane glycoprotein, vesicular stomatitis virus G (VSVG) glycoprotein, was reduced compared to cells co-expressing SLC9A7 wild-type and VSVG. This correlated with alkalinization of the TGN/post-Golgi compartments, suggestive of a gain-of-function. Membrane trafficking of glycosylation-deficient Leu515Phe and co-transfected VSVG to the cell surface, however, was relatively unaffected. Mass spectrometry analysis of patient sera also revealed an abnormal N-glycosylation profile for transferrin, a clinical diagnostic marker for congenital disorders of glycosylation. These data implicate a crucial role for SLC9A7 in the regulation of TGN/post-Golgi pH homeostasis and glycosylation of exported cargo, which may underlie the cellular pathophysiology and neurodevelopmental deficits associated with this particular nonsyndromic form of X-linked ID.

Published

2019

38. IQSEC2 mutation update and review of the female-specific phenotype spectrum including intellectual disability and epilepsy.

Author

Shoubridge C, Harvey RJ, and Dudding-Byth T

Subjects

Female, Genetic Association Studies, Guanine Nucleotide Exchange Factors chemistry, Humans, Phenotype, Epilepsy genetics, Guanine Nucleotide Exchange Factors genetics, Intellectual Disability genetics, Mutation genetics

Abstract

The IQSEC2- related disorders represent a spectrum of X-chromosome phenotypes with intellectual disability (ID) as the cardinal feature. Here, we review the increasing number of reported families and isolated cases have been reported with a variety of different pathogenic variants. The spectrum of clinical features is expanding with early-onset seizures as a frequent comorbidity in both affected male and female patients. There is a growing number of female patients with de novo loss-of-function variants in IQSEC2 have a more severe phenotype than the heterozygous state would predict, particularly if IQSEC2 is thought to escape X-inactivation. Interestingly, these findings highlight that the classical understanding of X-linked inheritance does not readily explain the emergence of these affected females, warranting further investigations into the underlying mechanisms., (© 2018 Wiley Periodicals, Inc.)

Published

2019

39. Genetic variation affecting DNA methylation and the human imprinting disorder, Beckwith-Wiedemann syndrome.

Author

Dagar V, Hutchison W, Muscat A, Krishnan A, Hoke D, Buckle A, Siswara P, Amor DJ, Mann J, Pinner J, Colley A, Wilson M, Sachdev R, McGillivray G, Edwards M, Kirk E, Collins F, Jones K, Taylor J, Hayes I, Thompson E, Barnett C, Haan E, Freckmann ML, Turner A, White S, Kamien B, Ma A, Mackenzie F, Baynam G, Kiraly-Borri C, Field M, Dudding-Byth T, and Algar EM

Subjects

Beckwith-Wiedemann Syndrome metabolism, Female, Genomic Imprinting, HeLa Cells, Humans, Male, Metabolic Networks and Pathways, Methylenetetrahydrofolate Reductase (NADPH2) genetics, Polymorphism, Single Nucleotide, Potassium Channels, Voltage-Gated genetics, Beckwith-Wiedemann Syndrome genetics, DNA (Cytosine-5-)-Methyltransferase 1 genetics, DNA Methylation, Folic Acid metabolism, Mutation, Missense

Abstract

Background: Beckwith-Wiedemann syndrome (BWS) is an imprinting disorder with a population frequency of approximately 1 in 10,000. The most common epigenetic defect in BWS is a loss of methylation (LOM) at the 11p15.5 imprinting centre, KCNQ1OT1 TSS-DMR, and affects 50% of cases. We hypothesised that genetic factors linked to folate metabolism may play a role in BWS predisposition via effects on methylation maintenance at KCNQ1OT1 TSS-DMR., Results: Single nucleotide variants (SNVs) in the folate pathway affecting methylenetetrahydrofolate reductase (MTHFR), methionine synthase reductase (MTRR), 5-methyltetrahydrofolate-homocysteine S-methyltransferase (MTR), cystathionine beta-synthase (CBS) and methionine adenosyltransferase (MAT1A) were examined in 55 BWS patients with KCNQ1OT1 TSS-DMR LOM and in 100 unaffected cases. MTHFR rs1801133: C>T was more prevalent in BWS with KCNQ1OT1 TSS-DMR LOM (p < 0.017); however, the relationship was not significant when the Bonferroni correction for multiple testing was applied (significance, p = 0.0036). None of the remaining 13 SNVs were significantly different in the two populations tested. The DNMT1 locus was screened in 53 BWS cases, and three rare missense variants were identified in each of three patients: rs138841970: C>T, rs150331990: A>G and rs757460628: G>A encoding NP&#95;001124295 p.Arg136Cys, p.His1118Arg and p.Arg1223His, respectively. These variants have population frequencies of less than 1 in 1000 and were absent from 100 control cases. Functional characterization using a hemimethylated DNA trapping assay revealed a reduced methyltransferase activity relative to wild-type DNMT1 for each variant ranging from 40 to 70% reduction in activity., Conclusions: This study is the first to examine folate pathway genetics in BWS and to identify rare DNMT1 missense variants in affected individuals. Our data suggests that reduced DNMT1 activity could affect maintenance of methylation at KCNQ1OT1 TSS-DMR in some cases of BWS, possibly via a maternal effect in the early embryo. Larger cohort studies are warranted to further interrogate the relationship between impaired MTHFR enzymatic activity attributable to MTHFR rs1801133: C>T, dietary folate intake and BWS.

Published

2018

40. Severe neurocognitive and growth disorders due to variation in THOC2, an essential component of nuclear mRNA export machinery.

Author

Kumar R, Gardner A, Homan CC, Douglas E, Mefford H, Wieczorek D, Lüdecke HJ, Stark Z, Sadedin S, Nowak CB, Douglas J, Parsons G, Mark P, Loidi L, Herman GE, Mihalic Mosher T, Gillespie MK, Brady L, Tarnopolsky M, Madrigal I, Eiris J, Domènech Salgado L, Rabionet R, Strom TM, Ishihara N, Inagaki H, Kurahashi H, Dudding-Byth T, Palmer EE, Field M, and Gecz J

Subjects

Child, Child, Preschool, Epilepsy genetics, Female, Growth Disorders genetics, HEK293 Cells, HeLa Cells, Humans, Intellectual Disability genetics, Male, Mutation, Missense genetics, Protein Isoforms genetics, RNA Transport genetics, RNA Transport physiology, RNA-Binding Proteins genetics, Epilepsy metabolism, Exons genetics, Growth Disorders metabolism, Intellectual Disability metabolism, RNA, Messenger metabolism, RNA-Binding Proteins metabolism

Abstract

Highly conserved TREX-mediated mRNA export is emerging as a key pathway in neuronal development and differentiation. TREX subunit variants cause neurodevelopmental disorders (NDDs) by interfering with mRNA export from the cell nucleus to the cytoplasm. Previously we implicated four missense variants in the X-linked THOC2 gene in intellectual disability (ID). We now report an additional six affected individuals from five unrelated families with two de novo and three maternally inherited pathogenic or likely pathogenic variants in THOC2 extending the genotypic and phenotypic spectrum. These comprise three rare missense THOC2 variants that affect evolutionarily conserved amino acid residues and reduce protein stability and two with canonical splice-site THOC2 variants that result in C-terminally truncated THOC2 proteins. We present detailed clinical assessment and functional studies on a de novo variant in a female with an epileptic encephalopathy and discuss an additional four families with rare variants in THOC2 with supportive evidence for pathogenicity. Severe neurocognitive features, including movement and seizure disorders, were observed in this cohort. Taken together our data show that even subtle alterations to the canonical molecular pathways such as mRNA export, otherwise essential for cellular life, can be compatible with life, but lead to NDDs in humans., (© 2018 Wiley Periodicals, Inc.)

Published

2018

41. The genetics of recurrent hydatidiform moles: new insights and lessons from a comprehensive analysis of 113 patients.

Author

Nguyen NMP, Khawajkie Y, Mechtouf N, Rezaei M, Breguet M, Kurvinen E, Jagadeesh S, Solmaz AE, Aguinaga M, Hemida R, Harma MI, Rittore C, Rahimi K, Arseneau J, Hovanes K, Clisham R, Lenzi T, Scurry B, Addor MC, Bagga R, Nendaz GG, Finci V, Poke G, Grimes L, Gregersen N, York K, Bolze PA, Patel C, Mozdarani H, Puechberty J, Scotchie J, Fardaei M, Harma M, Gardner RJM, Sahoo T, Dudding-Byth T, Srinivasan R, Sauthier P, and Slim R

Subjects

DNA Mutational Analysis, Female, Genetic Predisposition to Disease, Genotype, Humans, Pregnancy, Adaptor Proteins, Signal Transducing genetics, Hydatidiform Mole genetics, Neoplasms, Second Primary genetics, Proteins genetics, Uterine Neoplasms genetics

Abstract

Hydatidiform mole is an aberrant human pregnancy characterized by early embryonic arrest and excessive trophoblastic proliferation. Recurrent hydatidiform moles are defined by the occurrence of at least two hydatidiform moles in the same patient. Fifty to eighty percent of patients with recurrent hydatidiform moles have biallelic pathogenic variants in NLRP7 or KHDC3L. However, in the remaining patients, the genotypic types of the moles are unknown. We characterized 80 new hydatidiform mole tissues, 57 of which were from patients with no mutations in the known genes, and we reviewed the genotypes of a total of 123 molar tissues. We also reviewed mutation analysis in 113 patients with recurrent hydatidiform moles. While all hydatidiform moles from patients with biallelic NLRP7 or KHDC3L mutations are diploid biparental, we demonstrate that those from patients without mutations are highly heterogeneous and only a small minority of them are diploid biparental (8%). The other mechanisms that were found to recur in patients without mutations are diploid androgenetic monospermic (24%) and triploid dispermic (32%); the remaining hydatidiform moles were misdiagnosed as moles due to errors in the analyses and/or their unusual mechanisms. We compared three parameters of genetic susceptibility in patients with and without mutations and show that patients without mutations are mostly from non-familial cases, have fewer reproductive losses, and more live births. Our data demonstrate that patients with recurrent hydatidiform moles and no mutations in the known genes are, in general, different from those with mutations; they have a milder genetic susceptibility and/or a multifactorial etiology underlying their recurrent hydatidiform moles. Categorizing these patients according to the genotypic types of their recurrent hydatidiform moles may facilitate the identification of novel genes for this entity.

Published

2018

42. A Clinical Review of Generalized Overgrowth Syndromes in the Era of Massively Parallel Sequencing.

Author

Kamien B, Ronan A, Poke G, Sinnerbrink I, Baynam G, Ward M, Gibson WT, Dudding-Byth T, and Scott RJ

Abstract

The overgrowth syndromes are important to diagnose, not just for accurate genetic counseling, but also for knowledge surrounding cancer surveillance and prognosis. There has been a recent expansion in the number of genes associated with a mendelian overgrowth phenotype, so this review updates previous classifications of overgrowth syndromes. We also describe a clinical and molecular approach to the investigation of individuals presenting with overgrowth. This review aims to assist the clinical diagnosis of generalized overgrowth syndromes by outlining the salient features of well-known overgrowth syndromes alongside the many syndromes that have been discovered and classified more recently. We provide key clinical "handles" to aid clinical diagnosis and a list of genes to aid with panel design when using next generation sequencing, which we believe is frequently needed due to the overlapping phenotypic features seen between overgrowth syndromes.

Published

2018

43. Computer face-matching technology using two-dimensional photographs accurately matches the facial gestalt of unrelated individuals with the same syndromic form of intellectual disability.

Author

Dudding-Byth T, Baxter A, Holliday EG, Hackett A, O'Donnell S, White SM, Attia J, Brunner H, de Vries B, Koolen D, Kleefstra T, Ratwatte S, Riveros C, Brain S, and Lovell BC

Subjects

Adult, Algorithms, Child, Databases, Factual, Female, Humans, Male, Photography, Syndrome, Congenital Abnormalities classification, Congenital Abnormalities diagnosis, Congenital Abnormalities genetics, Congenital Abnormalities pathology, Face abnormalities, Facies, Image Processing, Computer-Assisted methods, Intellectual Disability classification, Intellectual Disability diagnosis, Intellectual Disability genetics, Intellectual Disability pathology

Abstract

Background: Massively parallel genetic sequencing allows rapid testing of known intellectual disability (ID) genes. However, the discovery of novel syndromic ID genes requires molecular confirmation in at least a second or a cluster of individuals with an overlapping phenotype or similar facial gestalt. Using computer face-matching technology we report an automated approach to matching the faces of non-identical individuals with the same genetic syndrome within a database of 3681 images [1600 images of one of 10 genetic syndrome subgroups together with 2081 control images]. Using the leave-one-out method, two research questions were specified: 1) Using two-dimensional (2D) photographs of individuals with one of 10 genetic syndromes within a database of images, did the technology correctly identify more than expected by chance: i) a top match? ii) at least one match within the top five matches? or iii) at least one in the top 10 with an individual from the same syndrome subgroup? 2) Was there concordance between correct technology-based matches and whether two out of three clinical geneticists would have considered the diagnosis based on the image alone?, Results: The computer face-matching technology correctly identifies a top match, at least one correct match in the top five and at least one in the top 10 more than expected by chance (P < 0.00001). There was low agreement between the technology and clinicians, with higher accuracy of the technology when results were discordant (P < 0.01) for all syndromes except Kabuki syndrome., Conclusions: Although the accuracy of the computer face-matching technology was tested on images of individuals with known syndromic forms of intellectual disability, the results of this pilot study illustrate the potential utility of face-matching technology within deep phenotyping platforms to facilitate the interpretation of DNA sequencing data for individuals who remain undiagnosed despite testing the known developmental disorder genes.

Published

2017

44. A Recurrent De Novo Nonsense Variant in ZSWIM6 Results in Severe Intellectual Disability without Frontonasal or Limb Malformations.

Author

Palmer EE, Kumar R, Gordon CT, Shaw M, Hubert L, Carroll R, Rio M, Murray L, Leffler M, Dudding-Byth T, Oufadem M, Lalani SR, Lewis AM, Xia F, Tam A, Webster R, Brammah S, Filippini F, Pollard J, Spies J, Minoche AE, Cowley MJ, Risen S, Powell-Hamilton NN, Tusi JE, Immken L, Nagakura H, Bole-Feysot C, Nitschké P, Garrigue A, de Saint Basile G, Kivuva E, Scott RH, Rendon A, Munnich A, Newman W, Kerr B, Besmond C, Rosenfeld JA, Amiel J, Field M, and Gecz J

Subjects

Central Nervous System abnormalities, Central Nervous System embryology, Codon, Nonsense genetics, High-Throughput Nucleotide Sequencing, Humans, Limb Deformities, Congenital genetics, Mandibulofacial Dysostosis genetics, Peripheral Nervous System abnormalities, Peripheral Nervous System enzymology, DNA-Binding Proteins genetics, Intellectual Disability genetics, Neurocognitive Disorders genetics

Abstract

A recurrent de novo missense variant within the C-terminal Sin3-like domain of ZSWIM6 was previously reported to cause acromelic frontonasal dysostosis (AFND), an autosomal-dominant severe frontonasal and limb malformation syndrome, associated with neurocognitive and motor delay, via a proposed gain-of-function effect. We present detailed phenotypic information on seven unrelated individuals with a recurrent de novo nonsense variant (c.2737C>T [p.Arg913Ter]) in the penultimate exon of ZSWIM6 who have severe-profound intellectual disability and additional central and peripheral nervous system symptoms but an absence of frontonasal or limb malformations. We show that the c.2737C>T variant does not trigger nonsense-mediated decay of the ZSWIM6 mRNA in affected individual-derived cells. This finding supports the existence of a truncated ZSWIM6 protein lacking the Sin3-like domain, which could have a dominant-negative effect. This study builds support for a key role for ZSWIM6 in neuronal development and function, in addition to its putative roles in limb and craniofacial development, and provides a striking example of different variants in the same gene leading to distinct phenotypes., (Copyright © 2017 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2017

45. Spinocerebellar ataxia type 29 due to mutations in ITPR1: a case series and review of this emerging congenital ataxia.

Author

Zambonin JL, Bellomo A, Ben-Pazi H, Everman DB, Frazer LM, Geraghty MT, Harper AD, Jones JR, Kamien B, Kernohan K, Koenig MK, Lines M, Palmer EE, Richardson R, Segel R, Tarnopolsky M, Vanstone JR, Gibbons M, Collins A, Fogel BL, Dudding-Byth T, and Boycott KM

Subjects

Adolescent, Adult, Cerebellar Ataxia genetics, Child, Child, Preschool, Female, Humans, Male, Middle Aged, Mutation genetics, Retrospective Studies, Young Adult, Inositol 1,4,5-Trisphosphate Receptors genetics, Spinocerebellar Ataxias genetics

Abstract

Background: Spinocerebellar ataxia type 29 (SCA29) is an autosomal dominant, non-progressive cerebellar ataxia characterized by infantile-onset hypotonia, gross motor delay and cognitive impairment. Affected individuals exhibit cerebellar dysfunction and often have cerebellar atrophy on neuroimaging. Recently, missense mutations in ITPR1 were determined to be responsible., Results: Clinical information on 21 individuals from 15 unrelated families with ITPR1 mutations was retrospectively collected using standardized questionnaires, including 11 previously unreported singletons and 2 new patients from a previously reported family. We describe the genetic, clinical and neuroimaging features of these patients to further characterize the clinical features of this rare condition and assess for any genotype-phenotype correlation for this disorder. Our cohort consisted of 9 males and 12 females, with ages ranging from 28 months to 49 years. Disease course was non-progressive with infantile-onset hypotonia and delays in motor and speech development. Gait ataxia was present in all individuals and 10 (48%) were not ambulating independently between the ages of 3-12 years of age. Mild-to-moderate cognitive impairment was present in 17 individuals (85%). Cerebellar atrophy developed after initial symptom presentation in 13 individuals (72%) and was not associated with disease progression or worsening functional impairment. We identified 12 different mutations including 6 novel mutations; 10 mutations were missense (with 4 present in >1 individual), 1 a splice site mutation leading to an in-frame insertion and 1 an in-frame deletion. No specific genotype-phenotype correlations were observed within our cohort., Conclusions: Our findings document significant clinical heterogeneity between individuals with SCA29 in a large cohort of molecularly confirmed cases. Based on the retrospective observed clinical features and disease course, we provide recommendations for management. Further research into the natural history of SCA29 through prospective studies is an important next step in better understanding the condition.

Published

2017

46. Atypical Angelman syndrome due to a mosaic imprinting defect: Case reports and review of the literature.

Author

Le Fevre A, Beygo J, Silveira C, Kamien B, Clayton-Smith J, Colley A, Buiting K, and Dudding-Byth T

Subjects

Adolescent, Child, Chromosome Mapping, DNA Methylation, Facies, Female, Genetic Association Studies, Genetic Heterogeneity, Humans, Incidence, Male, snRNP Core Proteins genetics, Angelman Syndrome diagnosis, Angelman Syndrome genetics, Genomic Imprinting, Mosaicism, Phenotype

Abstract

Angelman syndrome (AS) is characterized by severe intellectual disability, limited, or absent speech and a generally happy demeanor. The four known etiological mechanisms; deletions, uniparental disomy, imprinting defects, and UBE3A mutation all affect expression of the UBE3A gene at 15q11-q13. An atypical phenotype is seen in individuals who are mosaic for a chromosome 15q11-q13 imprinting defect on the maternal allele. These patients present with a milder phenotype, often with hyperphagia and obesity or non-specific intellectual disability. Unlike typical AS syndrome, they can have a vocabulary up to 100 words and speak in sentences. Ataxia and seizures may not be present, and the majority of individuals do not have microcephaly. Here we review the current literature and present three individuals with atypical AS caused by a mosaic imprinting defect to demonstrate why DNA methylation analysis at the SNRPN locus needs to be considered in a broader clinical context. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

47. Fryns Syndrome Associated with Recessive Mutations in PIGN in two Separate Families.

Author

McInerney-Leo AM, Harris JE, Gattas M, Peach EE, Sinnott S, Dudding-Byth T, Rajagopalan S, Barnett CP, Anderson LK, Wheeler L, Brown MA, Leo PJ, Wicking C, and Duncan EL

Subjects

Exome, Facies, Heterozygote, Humans, Pedigree, Polymorphism, Single Nucleotide, RNA Splice Sites, Sequence Analysis, DNA, Hernia, Diaphragmatic genetics, Limb Deformities, Congenital genetics, Mutation, Phosphotransferases genetics

Abstract

Fryns syndrome is an autosomal recessive condition characterized by congenital diaphragmatic hernia (CDH), dysmorphic facial features, distal digital hypoplasia, and other associated malformations, and is the most common syndromic form of CDH. No gene has been associated with this condition. Whole-exome sequence data from two siblings and three unrelated individuals with Fryns syndrome were filtered for rare, good quality, coding mutations fitting a recessive inheritance model. Compound heterozygous mutations in PIGN were identified in the siblings, with appropriate parental segregation: a novel STOP mutation (c.1966C>T: p.Glu656X) and a rare (minor allele frequency <0.001) donor splice site mutation (c.1674+1G>C) causing skipping of exon 18 and utilization of a cryptic acceptor site in exon 19. A further novel homozygous STOP mutation in PIGN (c.694A>T: p.Lys232X) was detected in one unrelated case. All three variants affected highly conserved bases. The two remaining cases were negative for PIGN mutations. Mutations in PIGN have been reported in cases with multiple congenital anomalies, including one case with syndromic CDH. Fryns syndrome can be caused by recessive mutations in PIGN. Whether PIGN affects other syndromic and non-syndromic forms of CDH warrants investigation., (© 2016 WILEY PERIODICALS, INC.)

Published

2016

48. Germline De Novo Mutations in GNB1 Cause Severe Neurodevelopmental Disability, Hypotonia, and Seizures.

Author

Petrovski S, Küry S, Myers CT, Anyane-Yeboa K, Cogné B, Bialer M, Xia F, Hemati P, Riviello J, Mehaffey M, Besnard T, Becraft E, Wadley A, Politi AR, Colombo S, Zhu X, Ren Z, Andrews I, Dudding-Byth T, Schneider AL, Wallace G, Rosen ABI, Schelley S, Enns GM, Corre P, Dalton J, Mercier S, Latypova X, Schmitt S, Guzman E, Moore C, Bier L, Heinzen EL, Karachunski P, Shur N, Grebe T, Basinger A, Nguyen JM, Bézieau S, Wierenga K, Bernstein JA, Scheffer IE, Rosenfeld JA, Mefford HC, Isidor B, and Goldstein DB

Subjects

Adolescent, Adult, Child, Child, Preschool, Developmental Disabilities pathology, Exome genetics, Female, GTP-Binding Protein beta Subunits chemistry, Humans, Infant, Intellectual Disability pathology, Male, Muscle Hypotonia pathology, Phenotype, Protein Conformation, Seizures pathology, Signal Transduction, Young Adult, Developmental Disabilities etiology, GTP-Binding Protein beta Subunits genetics, Germ-Line Mutation genetics, Intellectual Disability etiology, Muscle Hypotonia etiology, Seizures etiology

Abstract

Whole-exome sequencing of 13 individuals with developmental delay commonly accompanied by abnormal muscle tone and seizures identified de novo missense mutations enriched within a sub-region of GNB1, a gene encoding the guanine nucleotide-binding protein subunit beta-1, Gβ. These 13 individuals were identified among a base of 5,855 individuals recruited for various undiagnosed genetic disorders. The probability of observing 13 or more de novo mutations by chance among 5,855 individuals is very low (p = 7.1 × 10(-21)), implicating GNB1 as a genome-wide-significant disease-associated gene. The majority of these 13 mutations affect known Gβ binding sites, which suggests that a likely disease mechanism is through the disruption of the protein interface required for Gα-Gβγ interaction (resulting in a constitutively active Gβγ) or through the disruption of residues relevant for interaction between Gβγ and certain downstream effectors (resulting in reduced interaction with the effectors). Strikingly, 8 of the 13 individuals recruited here for a neurodevelopmental disorder have a germline de novo GNB1 mutation that overlaps a set of five recurrent somatic tumor mutations for which recent functional studies demonstrated a gain-of-function effect due to constitutive activation of G protein downstream signaling cascades for some of the affected residues., (Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2016

49. Narrowing the critical region for overgrowth within 13q14.2-q14.3 microdeletions.

Author

Kamien B, Digilio MC, Novelli A, O'Donnell S, Bain N, Meldrum C, Dudding-Byth T, Scott RJ, and Goel H

Subjects

Adolescent, Child, Growth Disorders diagnosis, Heart Diseases diagnosis, Humans, Intellectual Disability diagnosis, Male, Megalencephaly diagnosis, Syndrome, Chromosome Deletion, Chromosomes, Human, Pair 13 genetics, Growth Disorders genetics, Heart Diseases genetics, Intellectual Disability genetics, Megalencephaly genetics

Abstract

Large chromosomal deletions from 13q13.3 to 13q21.3 have previously been associated with overgrowth. We present two patients with deletions at 13q14.2q14.3 who have macrocephaly, tall stature relative to their parents, cardiac phenotypes, and intellectual disability. This report narrows the critical region for tall stature, macrocephaly, and possibly cardiac disease., (Crown Copyright © 2015. Published by Elsevier Masson SAS. All rights reserved.)

Published

2015

50. A powerful team: the family physician advocating for patients with a rare disease.

Author

Dudding-Byth T

Subjects

Adult, Continuity of Patient Care, Female, Humans, Referral and Consultation, Physician's Role, Physician-Patient Relations, Physicians, Family, Rare Diseases diagnosis, Rare Diseases therapy

Abstract

Background: Rare diseases are characteristically difficult to diagnose and for the majority, there are no effective treatments or evidence-based management guidelines. Although it is unrealistic to expect family physicians to recognise the wide clinical spectrum of rare diseases, their longitudinal and holistic approach to medicine place them in a unique position to consider the possibility of a rare disease., Objective: This article outlines the challenges faced by the rare disease community, and the role of the primary care physician to advocate for answers as their patients transition through the healthcare system., Discussion: The road to the diagnosis of a rare disease can test the doctor-patient relationship. Patients often struggle for answers and family physicians are stymied by a lack of information. At the same time, the availability of cyber-based health information and online rare-disease patient groups has led to the emergence of the 'expert' patient, who seeks a collaborative and empowering relationship with their physician. Following diagnosis, the family physician plays a crucial part in providing continuity of care, advocating access to expert healthcare, coordinating complex management and becoming a source of psychological support.

Published

2015