Your search keyword '"Lace, B."' showing total 68 results

1. New substituted imidazo[1,5-a]pyridine and imidazo[5,1-a]isoquinoline derivatives and their application in fluorescence cell imaging

Author

Volpi, G., Lace, B., Garino, C., Priola, E., Artuso, E., Cerreia Vioglio, P., Barolo, C., Fin, A., Genre, A., and Prandi, C.

Published

2018

2. Genomic analyses in Cornelia de Lange Syndrome and related diagnoses: Novel candidate genes, genotype-phenotype correlations and common mechanisms.

Author

Kaur, M, Blair, J, Devkota, B, Fortunato, S, Clark, D, Lawrence, A, Kim, J, Do, W, Semeo, B, Katz, O, Mehta, D, Yamamoto, N, Schindler, E, Al Rawi, Z, Wallace, N, Wilde, JJ, McCallum, J, Liu, J, Xu, D, Jackson, M, Rentas, S, Tayoun, AA, Zhe, Z, Abdul-Rahman, O, Allen, B, Angula, MA, Anyane-Yeboa, K, Argente, J, Arn, PH, Armstrong, L, Basel-Salmon, L, Baynam, G, Bird, LM, Bruegger, D, Ch'ng, G-S, Chitayat, D, Clark, R, Cox, GF, Dave, U, DeBaere, E, Field, M, Graham, JM, Gripp, KW, Greenstein, R, Gupta, N, Heidenreich, R, Hoffman, J, Hopkin, RJ, Jones, KL, Jones, MC, Kariminejad, A, Kogan, J, Lace, B, Leroy, J, Lynch, SA, McDonald, M, Meagher, K, Mendelsohn, N, Micule, I, Moeschler, J, Nampoothiri, S, Ohashi, K, Powell, CM, Ramanathan, S, Raskin, S, Roeder, E, Rio, M, Rope, AF, Sangha, K, Scheuerle, AE, Schneider, A, Shalev, S, Siu, V, Smith, R, Stevens, C, Tkemaladze, T, Toimie, J, Toriello, H, Turner, A, Wheeler, PG, White, SM, Young, T, Loomes, KM, Pipan, M, Harrington, AT, Zackai, E, Rajagopalan, R, Conlin, L, Deardorff, MA, McEldrew, D, Pie, J, Ramos, F, Musio, A, Kline, AD, Izumi, K, Raible, SE, Krantz, ID, Kaur, M, Blair, J, Devkota, B, Fortunato, S, Clark, D, Lawrence, A, Kim, J, Do, W, Semeo, B, Katz, O, Mehta, D, Yamamoto, N, Schindler, E, Al Rawi, Z, Wallace, N, Wilde, JJ, McCallum, J, Liu, J, Xu, D, Jackson, M, Rentas, S, Tayoun, AA, Zhe, Z, Abdul-Rahman, O, Allen, B, Angula, MA, Anyane-Yeboa, K, Argente, J, Arn, PH, Armstrong, L, Basel-Salmon, L, Baynam, G, Bird, LM, Bruegger, D, Ch'ng, G-S, Chitayat, D, Clark, R, Cox, GF, Dave, U, DeBaere, E, Field, M, Graham, JM, Gripp, KW, Greenstein, R, Gupta, N, Heidenreich, R, Hoffman, J, Hopkin, RJ, Jones, KL, Jones, MC, Kariminejad, A, Kogan, J, Lace, B, Leroy, J, Lynch, SA, McDonald, M, Meagher, K, Mendelsohn, N, Micule, I, Moeschler, J, Nampoothiri, S, Ohashi, K, Powell, CM, Ramanathan, S, Raskin, S, Roeder, E, Rio, M, Rope, AF, Sangha, K, Scheuerle, AE, Schneider, A, Shalev, S, Siu, V, Smith, R, Stevens, C, Tkemaladze, T, Toimie, J, Toriello, H, Turner, A, Wheeler, PG, White, SM, Young, T, Loomes, KM, Pipan, M, Harrington, AT, Zackai, E, Rajagopalan, R, Conlin, L, Deardorff, MA, McEldrew, D, Pie, J, Ramos, F, Musio, A, Kline, AD, Izumi, K, Raible, SE, and Krantz, ID

Abstract

Cornelia de Lange Syndrome (CdLS) is a rare, dominantly inherited multisystem developmental disorder characterized by highly variable manifestations of growth and developmental delays, upper limb involvement, hypertrichosis, cardiac, gastrointestinal, craniofacial, and other systemic features. Pathogenic variants in genes encoding cohesin complex structural subunits and regulatory proteins (NIPBL, SMC1A, SMC3, HDAC8, and RAD21) are the major pathogenic contributors to CdLS. Heterozygous or hemizygous variants in the genes encoding these five proteins have been found to be contributory to CdLS, with variants in NIPBL accounting for the majority (>60%) of cases, and the only gene identified to date that results in the severe or classic form of CdLS when mutated. Pathogenic variants in cohesin genes other than NIPBL tend to result in a less severe phenotype. Causative variants in additional genes, such as ANKRD11, EP300, AFF4, TAF1, and BRD4, can cause a CdLS-like phenotype. The common role that these genes, and others, play as critical regulators of developmental transcriptional control has led to the conditions they cause being referred to as disorders of transcriptional regulation (or "DTRs"). Here, we report the results of a comprehensive molecular analysis in a cohort of 716 probands with typical and atypical CdLS in order to delineate the genetic contribution of causative variants in cohesin complex genes as well as novel candidate genes, genotype-phenotype correlations, and the utility of genome sequencing in understanding the mutational landscape in this population.

Published

2023

3. VP.06 A new case of congenital myopathy related to TNNC2

Author

Lace, B., primary, Laflamme, N., additional, Setty, S. Thonta, additional, Rioux, N., additional, Ellezam, B., additional, Rivest, S., additional, and Chrestian, N., additional

Published

2022

4. LGMD

Author

Lace, B., primary, Stavusis, J., additional, Micule, I., additional, Kenina, V., additional, Taurina, G., additional, Zdanovica, A., additional, Mroczek, M., additional, Burnyte, B., additional, and Inaskina, I., additional

Published

2021

5. CAV3 gene sequence variations: National Genome Database and clinics

Author

Stavusis, J., Inashkina, I., Jankevics, E., Radovica, I., Micule, I., Strautmanis, J., Naudina, M. S., Utkus, A., Burnyte, B., and Lace, B.

Published

2015

6. EIF2AK2 Missense Variants Associated with Early Onset Generalized Dystonia

Author

Kuipers, D. (Demy), Mandemakers, W.J. (Wim), Lu, C.-S. (Chin-Song), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Fevga, C. (Christina), Tadic, V. (Vera), Carecchio, M. (Miryam), Osterman, B. (Bradley), Sagi-Dain, L. (Lena), Wu-Chou, Y.H. (Yah-Huei), Chen, C.C. (Chiung C.), Chang, H.C. (Hsiu-Chen), Wu, S.-L. (Shey-Lin), Yeh, T.-H. (Tu-Hsueh), Weng, Y.H. (Yi Hsin), Elia, A.E. (Antonio E.), Panteghini, C. (Celeste), Marotta, N. (Nicolas), Pauly, M.G. (Martje G.), Kühn, A.A. (Andrea A.), Volkmann, J. (Jens), Lace, B. (Baiba), Meijer, I.A. (Inge A.), Kandaswamy, K. (Krishna), Quadri, M. (Marialuisa), Garavaglia, B. (Barbara), Lohmann, K. (Katja), Bauer, P. (Peter), Mencacci, N.E. (Niccolo), Lubbe, S.J. (Steven J.), Klein, C. (Christoph), Bertoli Avella, A.M. (Aida), Bonifati, V. (Vincenzo), Kuipers, D. (Demy), Mandemakers, W.J. (Wim), Lu, C.-S. (Chin-Song), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Fevga, C. (Christina), Tadic, V. (Vera), Carecchio, M. (Miryam), Osterman, B. (Bradley), Sagi-Dain, L. (Lena), Wu-Chou, Y.H. (Yah-Huei), Chen, C.C. (Chiung C.), Chang, H.C. (Hsiu-Chen), Wu, S.-L. (Shey-Lin), Yeh, T.-H. (Tu-Hsueh), Weng, Y.H. (Yi Hsin), Elia, A.E. (Antonio E.), Panteghini, C. (Celeste), Marotta, N. (Nicolas), Pauly, M.G. (Martje G.), Kühn, A.A. (Andrea A.), Volkmann, J. (Jens), Lace, B. (Baiba), Meijer, I.A. (Inge A.), Kandaswamy, K. (Krishna), Quadri, M. (Marialuisa), Garavaglia, B. (Barbara), Lohmann, K. (Katja), Bauer, P. (Peter), Mencacci, N.E. (Niccolo), Lubbe, S.J. (Steven J.), Klein, C. (Christoph), Bertoli Avella, A.M. (Aida), and Bonifati, V. (Vincenzo)

Abstract

Objective: The study was undertaken to identify a monogenic cause of early onset, generalized dystonia. Methods: Methods consisted of genome-wide linkage analysis, exome and Sanger sequencing, clinical neurological examination, brain magnetic resonance imaging, and protein expression studies in skin fibroblasts from patients. Results: We identified a heterozygous variant, c.388G>A, p.Gly130Arg, in the eukaryotic tra

Published

2020

7. A second cohort of CHD3 patients expands the molecular mechanisms known to cause Snijders Blok-Campeau syndrome

Author

Drivas, T. G., Li, D., Nair, D., Alaimo, J. T., Alders, M., Altmuller, J., Barakat, T. S., Bebin, E. M., Bertsch, N. L., Blackburn, P. R., Blesson, A., Bouman, A. M., Brockmann, K., Brunelle, P., Burmeister, M., Cooper, G. M., Denecke, J., Dieux-Coeslier, A., Dubbs, H., Ferrer, A., Gal, D., Bartik, L. E., Gunderson, L. B., Hasadsri, L., Jain, M., Karimov, C., Keena, B., Klee, E. W., Kloth, K., Lace, B., Macchiaiolo, M., Marcadier, J. L., Milunsky, J. M., Napier, M. P., Ortiz-Gonzalez, X. R., Pichurin, P. N., Pinner, J., Powis, Z., Prasad, C., Radio, F. C., Rasmussen, K. J., Renaud, D. L., Rush, E. T., Saunders, C., Selcen, D., Seman, A. R., Shinde, D. N., Smith, E. D., Smol, T., Snijders Blok, L., Stoler, J. M., Tang, S., Tartaglia, M., Thompson, M. L., van de Kamp, J. M., Wang, J., Weise, D., Weiss, K., Woitschach, R., Wollnik, B., Yan, H., Zackai, E. H., Zampino, Giuseppe, Campeau, P., Bhoj, E., Zampino G. (ORCID:0000-0003-3865-3253), Drivas, T. G., Li, D., Nair, D., Alaimo, J. T., Alders, M., Altmuller, J., Barakat, T. S., Bebin, E. M., Bertsch, N. L., Blackburn, P. R., Blesson, A., Bouman, A. M., Brockmann, K., Brunelle, P., Burmeister, M., Cooper, G. M., Denecke, J., Dieux-Coeslier, A., Dubbs, H., Ferrer, A., Gal, D., Bartik, L. E., Gunderson, L. B., Hasadsri, L., Jain, M., Karimov, C., Keena, B., Klee, E. W., Kloth, K., Lace, B., Macchiaiolo, M., Marcadier, J. L., Milunsky, J. M., Napier, M. P., Ortiz-Gonzalez, X. R., Pichurin, P. N., Pinner, J., Powis, Z., Prasad, C., Radio, F. C., Rasmussen, K. J., Renaud, D. L., Rush, E. T., Saunders, C., Selcen, D., Seman, A. R., Shinde, D. N., Smith, E. D., Smol, T., Snijders Blok, L., Stoler, J. M., Tang, S., Tartaglia, M., Thompson, M. L., van de Kamp, J. M., Wang, J., Weise, D., Weiss, K., Woitschach, R., Wollnik, B., Yan, H., Zackai, E. H., Zampino, Giuseppe, Campeau, P., Bhoj, E., and Zampino G. (ORCID:0000-0003-3865-3253)

Abstract

There has been one previous report of a cohort of patients with variants in Chromodomain Helicase DNA-binding 3 (CHD3), now recognized as Snijders Blok-Campeau syndrome. However, with only three previously-reported patients with variants outside the ATPase/helicase domain, it was unclear if variants outside of this domain caused a clinically similar phenotype. We have analyzed 24 new patients with CHD3 variants, including nine outside the ATPase/helicase domain. All patients were detected with unbiased molecular genetic methods. There is not a significant difference in the clinical or facial features of patients with variants in or outside this domain. These additional patients further expand the clinical and molecular data associated with CHD3 variants. Importantly we conclude that there is not a significant difference in the phenotypic features of patients with various molecular disruptions, including whole gene deletions and duplications, and missense variants outside the ATPase/helicase domain. This data will aid both clinical geneticists and molecular geneticists in the diagnosis of this emerging syndrome.

Published

2020

8. AUTOIMMUNE MYOPATHIES

Author

Chrestian, N., primary, Rioux, N., additional, Proulx-Gauthier, J., additional, Ellezam, B., additional, Labrie, Y., additional, Rivest, S., additional, and Lace, B., additional

Published

2020

9. CONGENITAL MYOPATHIES 1 – NEMALINE

Author

Chrestian, N., primary, Laflamme, N., additional, Labrie, Y., additional, Rioux, N., additional, Dugas, M., additional, Rivest, S., additional, and Lace, B., additional

Published

2020

10. LGMD: EP.195 The most common CAPN3 disease causing variant in north-eastern Europe population or controversial coincidence

Author

Lace, B., Stavusis, J., Micule, I., Kenina, V., Taurina, G., Zdanovica, A., Mroczek, M., Burnyte, B., and Inaskina, I.

Published

2021

11. AUTOIMMUNE MYOPATHIES: P.297 A case of juvenile HMGCR antibody myositis presenting as limb girdle muscular dystrophy

Author

Chrestian, N., Rioux, N., Proulx-Gauthier, J., Ellezam, B., Labrie, Y., Rivest, S., and Lace, B.

Published

2020

12. Muscle hyperthrophy with RYR1 mutation

Author

Chrestian, N., primary, Lace, B., additional, Gould, P., additional, and Dionne, A., additional

Published

2017

13. Gate crashing arbuscular mycorrhizas: in vivo imaging shows the extensive colonization of both symbionts by Trichoderma atroviride

Author

Lace B., Genre A., Woo S., Faccio A., Lorito M., and Bonfante P.

Subjects

fungi, food and beverages, AM fungi

Abstract

Plant growth-promoting fungi include strains of Trichoderma species that are used in biocontrol, and arbuscular mycorrhizal (AM) fungi, that enhance plant nutrition and stress resistance. The concurrent interaction of plants with these two groups of fungi affects crop performance but has only been occasionally studied so far. Using in vivo imaging of green fluorescent protein-tagged lines, we investigated the cellular interactions occurring between Trichoderma atroviridePKI1, Medicago truncatula and two Gigaspora species under in vitro culture conditions. Trichoderma atroviride did not activate symbiotic-like responses in the plant cells, such as nuclear calcium spiking or cytoplasmic aggregations at hyphal contact sites. Furthermore, T.atroviride parasitized G.gigantea and G.margarita hyphae through localized wall breaking and degradation - although this was not associated with significant chitin lysis nor the upregulation of two major chitinase genes. Trichodermaatroviride colonized broad areas of the root epidermis, in association with localized cell death. The infection of both symbionts was also observed when T.atroviride was applied to a pre-established AM symbiosis. We conclude that - although this triple interaction is known to improve plant growth in agricultural environments - in vitro culture demonstrate a particularly aggressive mycoparasitic and plant-colonizing behaviour of a biocontrol strain of Trichoderma.

Published

2015

14. CAV3gene sequence variations: National Genome Database and clinics

Author

Stavusis, J., primary, Inashkina, I., additional, Jankevics, E., additional, Radovica, I., additional, Micule, I., additional, Strautmanis, J., additional, Naudina, M. S., additional, Utkus, A., additional, Burnyte, B., additional, and Lace, B., additional

Published

2015

15. P.476 - Muscle hyperthrophy with RYR1 mutation

Author

Chrestian, N., Lace, B., Gould, P., and Dionne, A.

Published

2017

16. 279P Exploring myogenic tremor in an animal model of MYBPC1-associated myopathy: a comprehensive study.

Author

Inashkina, I., Zdanovica, A., Lunge, M., Zayakin, P., Upite, J., Dzirkale, Z., Alnis, J., Lace, B., Jansone, B., and Stavusis, J.

Subjects

*CYTOSKELETAL proteins, *MUTANT proteins, *PHENOTYPIC plasticity, *OXIDATIVE phosphorylation, *GENETIC variation

Abstract

Congenital Myopathy with tremor, currently classified as Congenital Myopathy-16, represents a very rare disease phenotype, associated with domain-specific variants in the MYBPC1 gene. This gene encodes Myosin binding protein-C slow (sMyBP-C), a cytoskeletal protein expressed in skeletal muscle tissues with at least 10 different isoforms. This protein plays a crucial role in stabilizing the thick filament and regulating actin-myosin binding during cross-bridge formation. Previous research has suggested that observed sarcomeric deficits may underlie the molecular mechanisms causing the disease. We have created a mouse model for this disease, harboring a patient-specific variant (c.739T>C, p.(Y247H)). Here, we present a comprehensive description of the observed phenotype using a plethora of quantitative and qualitative methods, including behavioral tests, microscopy, protein quantification, biochemical assays including spectrophotometric measurements of OXPHOS enzyme activities, transcriptome analysis by RNA-seq, and proteomics. Our findings demonstrate strength deficits, myogenic tremor, and homozygous lethality in the model, as well as the localization of the mutant protein, similar to a previous model, carrying another patient-specific variant in the MYBPC1 gene. While we observed expected sarcomere disorder and misalignment, they were not as pronounced. Transcriptome data and biochemical assays unveil not only morphological abnormalities in mitochondria but also functional deficits in the oxidative phosphorylation system. This research reinforces the myogenic tremor phenotype observed in patients and the initial animal model, emphasizing the correlation between phenotypic severity and alterations in the binding potential of the mutant protein, as suggested in our previous work. Additionally, we provide evidence indicating mitochondrial dysregulation as a component of this disease. We thank ERAF Nr. 1.1.1.1/18/A/097. [ABSTRACT FROM AUTHOR]

Published

2024

17. Genetic counselling legislation and practice in cancer in EU Member States.

Author

McCrary JM, Van Valckenborgh E, Poirel HA, de Putter R, van Rooij J, Horgan D, Dierks ML, Antonova O, Brunet J, Chirita-Emandi A, Colas C, Dalmas M, Ehrencrona H, Grima C, Janavičius R, Klink B, Koczok K, Krajc M, Lace B, Leitsalu L, Mistrik M, Paneque M, Primorac D, Roetzer KM, Ronez J, Slámová L, Spanou E, Stamatopoulos K, Stoklosa T, Strang-Karlsson S, Szakszon K, Szczałuba K, Turner J, van Dooren MF, van Zelst-Stams WAG, Vassallo LM, Wadt KAW, Žigman T, Ripperger T, Genuardi M, Van den Bulcke M, and Bergmann AK

Subjects

Humans, Genetic Testing legislation & jurisprudence, European Union, Genetic Counseling legislation & jurisprudence, Neoplasms genetics

Abstract

Background: Somatic and germline genetic alterations are significant drivers of cancer. Increasing integration of new technologies which profile these alterations requires timely, equitable and high-quality genetic counselling to facilitate accurate diagnoses and informed decision-making by patients and their families in preventive and clinical settings. This article aims to provide an overview of genetic counselling legislation and practice across European Union (EU) Member States to serve as a foundation for future European recommendations and action., Methods: National legislative databases of all 27 Member States were searched using terms relevant to genetic counselling, translated as appropriate. Interviews with relevant experts from each Member State were conducted to validate legislative search results and provide detailed insights into genetic counselling practice in each country., Results: Genetic counselling is included in national legislative documents of 22 of 27 Member States, with substantial variation in legal mechanisms and prescribed details (i.e. the 'who, what, when and where' of counselling). Practice is similarly varied. Workforce capacity (25 of 27 Member States) and genetic literacy (all Member States) were common reported barriers. Recognition and/or better integration of genetic counsellors and updated legislation and were most commonly noted as the 'most important change' which would improve practice., Conclusions: This review highlights substantial variability in genetic counselling across EU Member States, as well as common barriers notwithstanding this variation. Future recommendations and action should focus on addressing literacy and capacity challenges through legislative, regulatory and/or strategic approaches at EU, national, regional and/or local levels., (© The Author(s) 2024. Published by Oxford University Press on behalf of the European Public Health Association.)

Published

2024

18. The phenotypic spectrum of PTCD3 deficiency.

Author

Lace B, Faqeih E, Kaya N, Krumina Z, Mayr JA, Micule I, Wright NT, Achleitner MT, AlQudairy H, Pajusalu S, Stavusis J, Zayakin P, and Inashkina I

Abstract

The PTCD3 gene product (protein PTCD3 or MRPS39) forms the entry channel of the mitochondrial small ribosomal subunit and binds to single-stranded mRNA. Here, we expand on the clinical manifestations of PTCD3 pathogenic variants by describing an early-onset patient with Leigh-like syndrome and two patients with milder form of disease, with combined oxidative phosphorylation deficiency. A 34-year-old male and his 33-year-old sister both have horizontal nystagmus, pronounced rough tremor, truncal ataxia, dysmetria, spasticity and hyperreflexia. The basal respiration rate decreased significantly for the male patient and his mother ( p  < 0.0001) compared to the controls. The whole genome sequencing analysis revealed two heterozygous variants in the PTCD3 : c.1182T>A, p.(Tyr394Ter) and c.805C>T, p.(His269Tyr). Tyr394Ter variant ablates the C-terminal half of the protein, including a significant portion of the central fold. In silico modelling for the variant His269Tyr shows that the inclusion of the slightly larger tyrosine sidechain is well tolerated, with no significant change in either the position or the movement of the surrounding area. The third case is a 9-year-old boy, who has a global developmental delay, central hypotonia, hyperreflexia and abnormal MRI. PTCD3 pathogenic variant c.538+4A>G was identified by whole exome sequencing. To test the variant's effect on splicing, an RT-PCR experiment was performed, which revealed skipping of an out-of-frame exon 7., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Authors. JIMD Reports published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2024

19. Unraveling the Pathogenetic Mechanisms Underlying the Association between Specific Mitochondrial DNA Haplogroups and Parkinson's Disease.

Author

Lan MY, Lin TK, Lace B, Utkus A, Burnyte B, Grigalioniene K, Lin YH, Inashkina I, and Liou CW

Subjects

Humans, Protein Phosphatase 1 genetics, Protein Phosphatase 1 metabolism, Mitochondria metabolism, Mitochondria genetics, Unfolded Protein Response genetics, Parkinson Disease genetics, DNA, Mitochondrial genetics, Haplotypes genetics

Abstract

Variants of mitochondrial DNA (mtDNA) have been identified as risk factors for the development of Parkinson's disease (PD). However, the underlying pathogenetic mechanisms remain unclear. Cybrid models carrying various genotypes of mtDNA variants were tested for resistance to PD-simulating MPP + treatment. The most resistant line was selected for transcriptome profiling, revealing specific genes potentially influencing the resistant characteristic. We then conducted protein validation and molecular biological studies to validate the related pathways as the influential factor. Cybrids carrying the W3 mtDNA haplogroup demonstrated the most resistance to the MPP + treatment. In the transcriptome study, PPP1R15A was identified, while further study noted elevated expressions of the coding protein GADD34 across all cybrids. In the study of GADD34-related mitochondrial unfolding protein response (mtUPR), we found that canonical mtUPR, launched by the phosphate eIF2a, is involved in the resistant characteristic of specific mtDNA to MPP + treatment. Our study suggests that a lower expression of GADD34 in the late phase of mtUPR may prolong the mtUPR process, thereby benefitting protein homeostasis and facilitating cellular resistance to PD development. We herein demonstrate that GADD34 plays an important role in PD development and should be further investigated as a target for the development of therapies for PD.

Published

2024

20. The recurrent deep intronic pseudoexon-inducing variant COL6A1 c.930+189C>T results in a consistently severe phenotype of COL6-related dystrophy: Towards clinical trial readiness for splice-modulating therapy.

Author

Foley AR, Bolduc V, Guirguis F, Donkervoort S, Hu Y, Orbach R, McCarty RM, Sarathy A, Norato G, Cummings BB, Lek M, Sarkozy A, Butterfield RJ, Kirschner J, Nascimento A, Benito DN, Quijano-Roy S, Stojkovic T, Merlini L, Comi G, Ryan M, McDonald D, Munot P, Yoon G, Leung E, Finanger E, Leach ME, Collins J, Tian C, Mohassel P, Neuhaus SB, Saade D, Cocanougher BT, Chu ML, Scavina M, Grosmann C, Richardson R, Kossak BD, Gospe SM Jr, Bhise V, Taurina G, Lace B, Troncoso M, Shohat M, Shalata A, Chan SHS, Jokela M, Palmio J, Haliloğlu G, Jou C, Gartioux C, Solomon-Degefa H, Freiburg CD, Schiavinato A, Zhou H, Aguti S, Nevo Y, Nishino I, Jimenez-Mallebrera C, Lamandé SR, Allamand V, Gualandi F, Ferlini A, MacArthur DG, Wilton SD, Wagener R, Bertini E, Muntoni F, and Bönnemann CG

Abstract

Collagen VI-related dystrophies (COL6-RDs) manifest with a spectrum of clinical phenotypes, ranging from Ullrich congenital muscular dystrophy (UCMD), presenting with prominent congenital symptoms and characterised by progressive muscle weakness, joint contractures and respiratory insufficiency, to Bethlem muscular dystrophy, with milder symptoms typically recognised later and at times resembling a limb girdle muscular dystrophy, and intermediate phenotypes falling between UCMD and Bethlem muscular dystrophy. Despite clinical and immunohistochemical features highly suggestive of COL6-RD, some patients had remained without an identified causative variant in COL6A1 , COL6A2 or COL6A3 . With combined muscle RNA-sequencing and whole-genome sequencing we uncovered a recurrent, de novo deep intronic variant in intron 11 of COL6A1 (c.930+189C>T) that leads to a dominantly acting in-frame pseudoexon insertion. We subsequently identified and have characterised an international cohort of forty-four patients with this COL6A1 intron 11 causative variant, one of the most common recurrent causative variants in the collagen VI genes. Patients manifest a consistently severe phenotype characterised by a paucity of early symptoms followed by an accelerated progression to a severe form of UCMD, except for one patient with somatic mosaicism for this COL6A1 intron 11 variant who manifests a milder phenotype consistent with Bethlem muscular dystrophy. Characterisation of this individual provides a robust validation for the development of our pseudoexon skipping therapy. We have previously shown that splice-modulating antisense oligomers applied in vitro effectively decreased the abundance of the mutant pseudoexon-containing COL6A1 transcripts to levels comparable to the in vivo scenario of the somatic mosaicism shown here, indicating that this therapeutic approach carries significant translational promise for ameliorating the severe form of UCMD caused by this common recurrent COL6A1 causative variant to a Bethlem muscular dystrophy phenotype.

Published

2024

21. Altered Splicing of LAMP2 in a Multigenerational Family from Latvia Affected by Danon Disease.

Author

Stavusis J, Micule I, Grinfelde I, Zdanovica A, Pudulis J, Valeina S, Sepetiene S, Lace B, and Inashkina I

Subjects

Humans, Male, Extended Family, Latvia, Myocardium, Genes, Regulator, Lysosomal-Associated Membrane Protein 2 genetics, Glycogen Storage Disease Type IIb genetics

Abstract

Background and Objectives : Danon disease is a multisystemic disorder associated with variants in the LAMP2 gene, mainly affecting the cardiac muscle. Here, we report a multigenerational family from Latvia with two male patients, hemizygous for a novel splice-affecting variant c.928+3A>G. Affected patients exhibit a cardiac phenotype, moderate mental disability, and mild retinal changes. Materials and Methods : Both patients underwent either exome or hypertrophic cardiomyopathy gene panel next-generation sequencing. The pathogenic variant effect was determined using reverse transcription, Sanger sequencing, and high-resolution electrophoresis. Results : Evaluation of the splicing process revealed that approximately 80% of the transcripts exhibited a lack of the entire exon 7. This alteration was predicted to cause a shift of the reading frame, consequently introducing a premature stop codon downstream in the sequence. Conclusions : Based on our data, we propose that c.928+3A>G is a pathogenic variant associated with Danon disease.

Published

2024

22. Genomic analyses in Cornelia de Lange Syndrome and related diagnoses: Novel candidate genes, genotype-phenotype correlations and common mechanisms.

Author

Kaur M, Blair J, Devkota B, Fortunato S, Clark D, Lawrence A, Kim J, Do W, Semeo B, Katz O, Mehta D, Yamamoto N, Schindler E, Al Rawi Z, Wallace N, Wilde JJ, McCallum J, Liu J, Xu D, Jackson M, Rentas S, Tayoun AA, Zhe Z, Abdul-Rahman O, Allen B, Angula MA, Anyane-Yeboa K, Argente J, Arn PH, Armstrong L, Basel-Salmon L, Baynam G, Bird LM, Bruegger D, Ch'ng GS, Chitayat D, Clark R, Cox GF, Dave U, DeBaere E, Field M, Graham JM Jr, Gripp KW, Greenstein R, Gupta N, Heidenreich R, Hoffman J, Hopkin RJ, Jones KL, Jones MC, Kariminejad A, Kogan J, Lace B, Leroy J, Lynch SA, McDonald M, Meagher K, Mendelsohn N, Micule I, Moeschler J, Nampoothiri S, Ohashi K, Powell CM, Ramanathan S, Raskin S, Roeder E, Rio M, Rope AF, Sangha K, Scheuerle AE, Schneider A, Shalev S, Siu V, Smith R, Stevens C, Tkemaladze T, Toimie J, Toriello H, Turner A, Wheeler PG, White SM, Young T, Loomes KM, Pipan M, Harrington AT, Zackai E, Rajagopalan R, Conlin L, Deardorff MA, McEldrew D, Pie J, Ramos F, Musio A, Kline AD, Izumi K, Raible SE, and Krantz ID

Subjects

Humans, Transcription Factors genetics, Cell Cycle Proteins genetics, Phenotype, Mutation, Genomics, Genetic Association Studies, Transcriptional Elongation Factors genetics, Histone Deacetylases genetics, Repressor Proteins genetics, Nuclear Proteins genetics, De Lange Syndrome diagnosis, De Lange Syndrome genetics, De Lange Syndrome pathology

Abstract

Cornelia de Lange Syndrome (CdLS) is a rare, dominantly inherited multisystem developmental disorder characterized by highly variable manifestations of growth and developmental delays, upper limb involvement, hypertrichosis, cardiac, gastrointestinal, craniofacial, and other systemic features. Pathogenic variants in genes encoding cohesin complex structural subunits and regulatory proteins (NIPBL, SMC1A, SMC3, HDAC8, and RAD21) are the major pathogenic contributors to CdLS. Heterozygous or hemizygous variants in the genes encoding these five proteins have been found to be contributory to CdLS, with variants in NIPBL accounting for the majority (>60%) of cases, and the only gene identified to date that results in the severe or classic form of CdLS when mutated. Pathogenic variants in cohesin genes other than NIPBL tend to result in a less severe phenotype. Causative variants in additional genes, such as ANKRD11, EP300, AFF4, TAF1, and BRD4, can cause a CdLS-like phenotype. The common role that these genes, and others, play as critical regulators of developmental transcriptional control has led to the conditions they cause being referred to as disorders of transcriptional regulation (or "DTRs"). Here, we report the results of a comprehensive molecular analysis in a cohort of 716 probands with typical and atypical CdLS in order to delineate the genetic contribution of causative variants in cohesin complex genes as well as novel candidate genes, genotype-phenotype correlations, and the utility of genome sequencing in understanding the mutational landscape in this population., (© 2023 Wiley Periodicals LLC.)

Published

2023

23. RPG acts as a central determinant for infectosome formation and cellular polarization during intracellular rhizobial infections.

Author

Lace B, Su C, Invernot Perez D, Rodriguez-Franco M, Vernié T, Batzenschlager M, Egli S, Liu CW, and Ott T

Subjects

Symbiosis, Cell Nucleus, Cell Wall, Rhizobium, Nitrogen-Fixing Bacteria

Abstract

Host-controlled intracellular accommodation of nitrogen-fixing bacteria is essential for the establishment of a functional Root Nodule Symbiosis (RNS). In many host plants, this occurs via transcellular tubular structures (infection threads - ITs) that extend across cell layers via polar tip-growth. Comparative phylogenomic studies have identified RPG ( RHIZOBIUM-DIRECTED POLAR GROWTH ) among the critical genetic determinants for bacterial infection. In Medicago truncatula , RPG is required for effective IT progression within root hairs but the cellular and molecular function of the encoded protein remains elusive. Here, we show that RPG resides in the protein complex formed by the core endosymbiotic components VAPYRIN (VPY) and LUMPY INFECTION (LIN) required for IT polar growth, co-localizes with both VPY and LIN in IT tip- and perinuclear-associated puncta of M. truncatula root hairs undergoing infection and is necessary for VPY recruitment into these structures. Fluorescence Lifetime Imaging Microscopy (FLIM) of phosphoinositide species during bacterial infection revealed that functional RPG is required to sustain strong membrane polarization at the advancing tip of the IT. In addition, loss of RPG functionality alters the cytoskeleton-mediated connectivity between the IT tip and the nucleus and affects the polar secretion of the cell wall modifying enzyme NODULE PECTATE LYASE (NPL). Our results integrate RPG into a core host machinery required to support symbiont accommodation, suggesting that its occurrence in plant host genomes is essential to co-opt a multimeric protein module committed to endosymbiosis to sustain IT-mediated bacterial infection., Competing Interests: BL, CS, DI, MR, TV, MB, SE, CL, TO No competing interests declared, (© 2023, Lace et al.)

Published

2023

24. Impact of the m.13513G>A Variant on the Functions of the OXPHOS System and Cell Retrograde Signaling.

Author

Kidere D, Zayakin P, Livcane D, Makrecka-Kuka M, Stavusis J, Lace B, Lin TK, Liou CW, and Inashkina I

Abstract

Mitochondria are involved in many vital functions in living cells, including the synthesis of ATP by oxidative phosphorylation (OXPHOS) and regulation of nuclear gene expression through retrograde signaling. Leigh syndrome is a heterogeneous neurological disorder resulting from an isolated complex I deficiency that causes damage to mitochondrial energy production. The pathogenic mitochondrial DNA (mtDNA) variant m.13513G>A has been associated with Leigh syndrome. The present study investigated the effects of this mtDNA variant on the OXPHOS system and cell retrograde signaling. Transmitochondrial cytoplasmic hybrid (cybrid) cell lines harboring 50% and 70% of the m.13513G>A variant were generated and tested along with wild-type (WT) cells. The functionality of the OXPHOS system was evaluated by spectrophotometric assessment of enzyme activity and high-resolution respirometry. Nuclear gene expression was investigated by RNA sequencing and droplet digital PCR. Increasing levels of heteroplasmy were associated with reduced OXPHOS system complex I, IV, and I + III activities, and high-resolution respirometry also showed a complex I defect. Profound changes in transcription levels of nuclear genes were observed in the cell lines harboring the pathogenic mtDNA variant, indicating the physiological processes associated with defective mitochondria.

Published

2023

25. The most common European HINT1 neuropathy variant phenotype and its case studies.

Author

Rozevska M, Rots D, Gailite L, Linde R, Mironovs S, Timcenko M, Linovs V, Locmele D, Micule I, Lace B, and Kenina V

Abstract

HINT1 is an ubiquitous homodimeric purine phosphoramidase belonging to the histidine-triad superfamily. In neurons, HINT1 stabilizes the interaction of different receptors and regulates the effects of their signaling disturbances. Changes in HINT1 gene are associated with autosomal recessive axonal neuropathy with neuromyotonia. Aim of the study was detailed description of patients' phenotype with HINT1 homozygous NM&#95;005340.7: c.110G>C (p.Arg37Pro) variant. Seven homozygous and three compound heterozygous patients were recruited and evaluated using standardized tests for CMT patients, in four patients' nerve ultrasonography was performed. The median age of symptom onset was 10 years (range 1-20), with initial complaints being distal lower limb weakness with gait impairment, combined with muscle stiffness, more pronounced in the hands than in the legs and worsened by cold. Arm muscles became involved later, presenting with distal weakness and hypotrophy. Neuromyotonia was present in all reported patients and is thus a diagnostic hallmark. Electrophysiological studies demonstrated axonal polyneuropathy. Impaired mental performance was observed in six out of ten cases. In all patients with HINT1 neuropathy, ultrasound examination showed significantly reduced muscle volume as well as spontaneous fasciculations and fibrillations. The nerve cross-sectional areas of the median and ulnar nerves were closer to the lower limits of the normal values. None of the investigated nerves had structural changes. Our findings broaden the phenotype of HINT1 -neuropathy and have implications for diagnostics and ultrasonographic evaluation of HINT1 -neuropathy patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Rozevska, Rots, Gailite, Linde, Mironovs, Timcenko, Linovs, Locmele, Micule, Lace and Kenina.)

Published

2023

26. Stabilization of membrane topologies by proteinaceous remorin scaffolds.

Author

Su C, Rodriguez-Franco M, Lace B, Nebel N, Hernandez-Reyes C, Liang P, Schulze E, Mymrikov EV, Gross NM, Knerr J, Wang H, Siukstaite L, Keller J, Libourel C, Fischer AAM, Gabor KE, Mark E, Popp C, Hunte C, Weber W, Wendler P, Stanislas T, Delaux PM, Einsle O, Grosse R, Römer W, and Ott T

Subjects

Plant Proteins metabolism, Plants metabolism, Symbiosis, Carrier Proteins metabolism, Phosphoproteins metabolism

Abstract

In plants, the topological organization of membranes has mainly been attributed to the cell wall and the cytoskeleton. Additionally, few proteins, such as plant-specific remorins have been shown to function as protein and lipid organizers. Root nodule symbiosis requires continuous membrane re-arrangements, with bacteria being finally released from infection threads into membrane-confined symbiosomes. We found that mutations in the symbiosis-specific SYMREM1 gene result in highly disorganized perimicrobial membranes. AlphaFold modelling and biochemical analyses reveal that SYMREM1 oligomerizes into antiparallel dimers and may form a higher-order membrane scaffolding structure. This was experimentally confirmed when expressing this and other remorins in wall-less protoplasts is sufficient where they significantly alter and stabilize de novo membrane topologies ranging from membrane blebs to long membrane tubes with a central actin filament. Reciprocally, mechanically induced membrane indentations were equally stabilized by SYMREM1. Taken together we describe a plant-specific mechanism that allows the stabilization of large-scale membrane conformations independent of the cell wall., (© 2023. The Author(s).)

Published

2023

27. CAPN3 c.1746-20C>G variant is hypomorphic for LGMD R1 calpain 3-related.

Author

Mroczek M, Inashkina I, Stavusis J, Zayakin P, Khrunin A, Micule I, Kenina V, Zdanovica A, Zídková J, Fajkusová L, Limborska S, van der Kooi AJ, Brusse E, Leonardis L, Maver A, Pajusalu S, Õunap K, Puusepp S, Dobosz P, Sypniewski M, Burnyte B, and Lace B

Subjects

Humans, Mutation, RNA Splicing, Calpain genetics, Muscle Proteins genetics, Muscular Dystrophies, Limb-Girdle genetics

Abstract

The investigated intronic CAPN3 variant NM&#95;000070.3:c.1746-20C>G occurs in the Central and Eastern Europe with a frequency of >1% and there are conflicting interpretations on its pathogenicity. We collected data on 14 patients carrying the CAPN3 c.1746-20C>G variant in trans position with another CAPN3 pathogenic/likely pathogenic variant. The patients compound heterozygous for the CAPN3 c.1746-20C>G variant presented a phenotype consistent with calpainopathy of mild/medium severity. This variant is most frequent in the North/West regions of Russia and may originate from that area. Molecular studies revealed that different splicing isoforms are produced in the muscle. We hypothesize that c.1746-20C>G is a hypomorphic variant with a reduction of RNA and protein expression and only individuals having a higher ratio of abnormal isoforms are affected. Reclassification of the CAPN3 variant c.1746-20C>G from variant with a conflicting interpretation of pathogenicity to hypomorphic variant explains many unidentified cases of limb girdle muscular dystrophy R1 calpain 3-related in Eastern and Central Europe., (© 2022 Wiley Periodicals LLC.)

Published

2022

28. Overview of Neuromuscular Disorder Molecular Diagnostic Experience for the Population of Latvia.

Author

Lace B, Micule I, Kenina V, Setlere S, Strautmanis J, Kazaine I, Taurina G, Murmane D, Grinfelde I, Kornejeva L, Krumina Z, Sterna O, Radovica-Spalvina I, Vasiljeva I, Gailite L, Stavusis J, Livcane D, Kidere D, Malniece I, and Inashkina I

Abstract

Background and Objectives: Genetic testing has become an integral part of health care, allowing the confirmation of thousands of hereditary diseases, including neuromuscular disorders (NMDs). The reported average prevalence of individual inherited NMDs is 3.7-4.99 per 10,000. This number varies greatly in the selected populations after applying population-wide studies. The aim of this study was to evaluate the effect of genetic analysis as the first-tier test in patients with NMD and to calculate the disease prevalence and allelic frequencies for reoccurring genetic variants., Methods: Patients with NMD from Latvia with molecular tests confirming their diagnosis in 2008-2020 were included in this retrospective study., Results: Diagnosis was confirmed in 153 unique cases of all persons tested. Next-generation sequencing resulted in a detection rate of 37%. Two of the most common childhood-onset NMDs in our population were spinal muscular atrophy and dystrophinopathies, with a birth prevalence of 1.01 per 10,000 newborns and 2.08 per 10,000 (male newborn population), respectively. The calculated point prevalence was 0.079 per 10,000 for facioscapulohumeral muscular dystrophy type 1, 0.078 per 10,000 for limb-girdle muscular dystrophy, 0.073 per 10,000 for nondystrophic congenital myotonia, 0.052 per 10,000 for spinobulbar muscular atrophy, and 0.047 per 10,000 for type 1 myotonic dystrophy., Discussion: DNA diagnostics is a successful approach. The carrier frequencies of the common CAPN3 , FKRP , SPG11 , and HINT1 gene variants as well as that of the SMN1 gene exon 7 deletion in the population of Latvia are comparable with data from Europe. The carrier frequency of the CLCN1 gene variant c.2680C>T p.(Arg894Ter) is 2.11%, and consequently, congenital myotonia is the most frequent NMD in our population., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2022

29. Monogenic Versus Multifactorial Inheritance in the Development of Isolated Cleft Palate: A Whole Genome Sequencing Study.

Author

Lace B, Pajusalu S, Livcane D, Grinfelde I, Akota I, Mauliņa I, Barkāne B, Stavusis J, and Inashkina I

Abstract

Craniofacial morphogenesis is highly complex, as is the anatomical region involved. Errors during this process, resulting in orofacial clefts, occur in more than 400 genetic syndromes. Some cases of cleft lip and/or palate (CLP) are caused by mutations in single genes; however, complex interactions between genetic and environmental factors are considered to be responsible for the majority of non-syndromic CLP development. The aim of the current study was to identify genetic risk factors in patients with isolated cleft palate (CP) by whole genome sequencing. Patients with isolated CP ( n = 30) recruited from the Riga Cleft Lip and Palate Centre, Institute of Stomatology, Riga, were analyzed by whole genome sequencing. Pathogenic or likely pathogenic variants were discovered in genes associated with CP ( TBX22 , COL2A1 , FBN1 , PCGF2 , and KMT2D ) in five patients; hence, rare disease variants were identified in 17% of patients with non-syndromic isolated CP. Our results were relevant to routine genetic counselling practice and genetic testing recommendations. Based on our data, we propose that all newborns with orofacial clefts should be offered genetic testing, at least for a panel of known CLP genes. Only if the results are negative and there is no suggestive family history or additional clinical symptoms (which would support additional exome or genome-wide investigation), should multifactorial empiric recurrence risk prediction tools be applied for families., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Lace, Pajusalu, Livcane, Grinfelde, Akota, Mauliņa, Barkāne, Stavusis and Inashkina.)

Published

2022

30. Case Report: Two Families With HPDL Related Neurodegeneration.

Author

Micule I, Lace B, Wright NT, Chrestian N, Strautmanis J, Diriks M, Stavusis J, Kidere D, Kleina E, Zdanovica A, Laflamme N, Rioux N, Setty ST, Pajusalu S, Droit A, Lek M, Rivest S, and Inashkina I

Abstract

There are recent reports of associations of variants in the HPDL gene with a hereditary neurological disease that presents with a wide spectrum of clinical severity, ranging from severe neonatal encephalopathy with no psychomotor development to adolescent-onset uncomplicated spastic paraplegia. Here, we report two probands from unrelated families presenting with severe and intermediate variations of the clinical course. A homozygous variant in the HPDL gene was detected in each proband; however, there was no known parental consanguinity. We also highlight reductions in citrate synthase and mitochondrial complex I activity detected in both probands in different tissues, reflecting the previously proposed mitochondrial nature of disease pathogenesis associated with HPDL mutations. Further, we speculate on the functional consequences of the detected variants, although the function and substrate of the HPDL enzyme are currently unknown., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer AL declared a past collaboration with one of the authors ML/ to the handling editor., (Copyright © 2022 Micule, Lace, Wright, Chrestian, Strautmanis, Diriks, Stavusis, Kidere, Kleina, Zdanovica, Laflamme, Rioux, Setty, Pajusalu, Droit, Lek, Rivest and Inashkina.)

Published

2022

31. Formin-mediated bridging of cell wall, plasma membrane, and cytoskeleton in symbiotic infections of Medicago truncatula.

Author

Liang P, Schmitz C, Lace B, Ditengou FA, Su C, Schulze E, Knerr J, Grosse R, Keller J, Libourel C, Delaux PM, and Ott T

Subjects

Actins, Cell Membrane, Cell Wall, Formins, Microtubules, Plant Proteins genetics, Plant Roots, Symbiosis, Medicago truncatula genetics, Rhizobium

Abstract

Legumes have maintained the ability to associate with rhizobia to sustain the nitrogen-fixing root nodule symbiosis (RNS). In Medicago truncatula, the Nod factor (NF)-dependent intracellular root colonization by Sinorhizobium meliloti initiates from young, growing root hairs. They form rhizobial traps by physically curling around the symbiont. 1 , 2 Although alterations in root hair morphology like branching and swelling have been observed in other plants in response to drug treatments 3 or genetic perturbations, 4-6 full root hair curling represents a rather specific invention in legumes. The entrapment of the symbiont completes with its full enclosure in a structure called the "infection chamber" (IC), 1 , 2 , 7 , 8 from which a tube-like membrane channel, the "infection thread" (IT), initiates. 1 , 2 , 9 All steps of rhizobium-induced root hair alterations are aided by a tip-localized cytosolic calcium gradient, 10 , 11 global actin re-arrangements, and dense subapical fine actin bundles that are required for the delivery of Golgi-derived vesicles to the root hair tip. 7 , 12-14 Altered actin dynamics during early responses to NFs or rhizobia have mostly been shown in mutants that are affected in the actin-related SCAR/WAVE complex. 15-18 Here, we identified a polarly localized SYMBIOTIC FORMIN 1 (SYFO1) to be required for NF-dependent alterations in membrane organization and symbiotic root hair responses. We demonstrate that SYFO1 mediates a continuum between the plasma membrane and the cell wall that is required for the onset of rhizobial infections., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2021

32. A Homozygous Deep Intronic Mutation Alters the Splicing of Nebulin Gene in a Patient With Nemaline Myopathy.

Author

Laflamme N, Lace B, Thonta Setty S, Rioux N, Labrie Y, Droit A, Chrestian N, and Rivest S

Abstract

Nemaline myopathy is a rare disorder affecting the muscle sarcomere. Mutations in nebulin gene ( NEB ) are known to be responsible for about 50% of nemaline myopathy cases. Nebulin is a giant protein which is formed integrally with the sarcomeric thin filament. This complex gene is under extensive alternative splicing giving rise to multiple isoforms. In this study, we report a 6-year-old boy presenting with general muscular weaknesses. Identification of rod-shaped structures in the patient' biopsy raised doubt about the presence of a nemaline myopathy. Next-generation sequencing was used to identify a causative mutation for the patient syndrome. A homozygous deep intronic substitution was found in the intron 144 of the NEB . The variant was predicted by in silico tools to create a new donor splice site. Molecular analysis has shown that the mutation could alter splicing events of the nebulin gene leading to a significant decrease of isoforms level. This change in the expression level of nebulin could give rise to functional consequences in the sarcomere. These results are consistent with the phenotypes observed in the patient. Such a discovery of variants in this gene will allow a better understanding of the involvement of nebulin in neuromuscular diseases and help find new treatments for the nemaline myopathy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Laflamme, Lace, Thonta Setty, Rioux, Labrie, Droit, Chrestian and Rivest.)

Published

2021

33. EIF2AK2 Missense Variants Associated with Early Onset Generalized Dystonia.

Author

Kuipers DJS, Mandemakers W, Lu CS, Olgiati S, Breedveld GJ, Fevga C, Tadic V, Carecchio M, Osterman B, Sagi-Dain L, Wu-Chou YH, Chen CC, Chang HC, Wu SL, Yeh TH, Weng YH, Elia AE, Panteghini C, Marotta N, Pauly MG, Kühn AA, Volkmann J, Lace B, Meijer IA, Kandaswamy K, Quadri M, Garavaglia B, Lohmann K, Bauer P, Mencacci NE, Lubbe SJ, Klein C, Bertoli-Avella AM, and Bonifati V

Subjects

Adolescent, Adult, Age of Onset, Asian People, Brain diagnostic imaging, Child, Child, Preschool, Dystonic Disorders metabolism, Dystonic Disorders physiopathology, Female, Genome-Wide Association Study, Humans, Infant, Magnetic Resonance Imaging, Male, Middle Aged, Mutation, Missense, Pedigree, White People, Exome Sequencing, Young Adult, eIF-2 Kinase metabolism, Dystonic Disorders genetics, Fibroblasts metabolism, eIF-2 Kinase genetics

Abstract

Objective: The study was undertaken to identify a monogenic cause of early onset, generalized dystonia., Methods: Methods consisted of genome-wide linkage analysis, exome and Sanger sequencing, clinical neurological examination, brain magnetic resonance imaging, and protein expression studies in skin fibroblasts from patients., Results: We identified a heterozygous variant, c.388G>A, p.Gly130Arg, in the eukaryotic translation initiation factor 2 alpha kinase 2 (EIF2AK2) gene, segregating with early onset isolated generalized dystonia in 5 patients of a Taiwanese family. EIF2AK2 sequencing in 191 unrelated patients with unexplained dystonia yielded 2 unrelated Caucasian patients with an identical heterozygous c.388G>A, p.Gly130Arg variant, occurring de novo in one case, another patient carrying a different heterozygous variant, c.413G>C, p.Gly138Ala, and one last patient, born from consanguineous parents, carrying a third, homozygous variant c.95A>C, p.Asn32Thr. These 3 missense variants are absent from gnomAD, and are located in functional domains of the encoded protein. In 3 patients, additional neurological manifestations were present, including intellectual disability and spasticity. EIF2AK2 encodes a kinase (protein kinase R [PKR]) that phosphorylates eukaryotic translation initiation factor 2 alpha (eIF2α), which orchestrates the cellular stress response. Our expression studies showed abnormally enhanced activation of the cellular stress response, monitored by PKR-mediated phosphorylation of eIF2α, in fibroblasts from patients with EIF2AK2 variants. Intriguingly, PKR can also be regulated by PRKRA (protein interferon-inducible double-stranded RNA-dependent protein kinase activator A), the product of another gene causing monogenic dystonia., Interpretation: We identified EIF2AK2 variants implicated in early onset generalized dystonia, which can be dominantly or recessively inherited, or occur de novo. Our findings provide direct evidence for a key role of a dysfunctional eIF2α pathway in the pathogenesis of dystonia. ANN NEUROL 2021;89:485-497., (© 2020 The Authors. Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2021

34. A founder mutation in the PLPBP gene in families from Saguenay-Lac-St-Jean region affected by a pyridoxine-dependent epilepsy.

Author

Pal M, Lace B, Labrie Y, Laflamme N, Rioux N, Setty ST, Dugas MA, Gosselin L, Droit A, Chrestian N, and Rivest S

Abstract

Pyridoxine-dependent epilepsy (PDE) is a relatively rare subgroup of epileptic disorders. They generally present in infancy as an early onset epileptic encephalopathy or seizures, refractory to standard treatments, with rapid and variable responses to vitamin B6 treatment. Whole exome sequencing of three unrelated families identified homozygous pathogenic mutation c.370&#95;373del, p.Asp124fs in PLPBP gene in five persons. Haplotype analysis showed a single shared profile for the affected persons and their parents, leading to a hypothesis about founder effect of the mutation in Saguenay-Lac-St-Jean region of French Canadians. All affected probands also shared one single mitochondrial haplotype T2b3 and two rare variations in the mitochondrial genome m.801A>G and m.5166A>G suggesting that a single individual female introduced PLPBP mutation c.370&#95;373del, p.Asp124fs in Quebec. The mutation p.Asp124fs causes a severe disease phenotype with delayed myelination and cortical/subcortical brain atrophy. The most noteworthy radiological finding in this Quebec founder mutation is the presence of the temporal cysts that can be used as a marker of the disease. Also, both patients, who are alive, had a history of prenatal supplements taken by their mothers as antiemetic medication with high doses of pyridoxine. In the context of suspected PDE in patients with neonatal refractory seizures, treatment with pyridoxine and/or Pyridoxal-5-phophate has to be started immediately and continued until the results of genetic analysis received. Even with early appropriate treatment, neurological outcome of our patient is still poor., Competing Interests: The authors declare no potential conflict of interest., (© 2021 The Authors. JIMD Reports published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2021

35. A second cohort of CHD3 patients expands the molecular mechanisms known to cause Snijders Blok-Campeau syndrome.

Author

Drivas TG, Li D, Nair D, Alaimo JT, Alders M, Altmüller J, Barakat TS, Bebin EM, Bertsch NL, Blackburn PR, Blesson A, Bouman AM, Brockmann K, Brunelle P, Burmeister M, Cooper GM, Denecke J, Dieux-Coëslier A, Dubbs H, Ferrer A, Gal D, Bartik LE, Gunderson LB, Hasadsri L, Jain M, Karimov C, Keena B, Klee EW, Kloth K, Lace B, Macchiaiolo M, Marcadier JL, Milunsky JM, Napier MP, Ortiz-Gonzalez XR, Pichurin PN, Pinner J, Powis Z, Prasad C, Radio FC, Rasmussen KJ, Renaud DL, Rush ET, Saunders C, Selcen D, Seman AR, Shinde DN, Smith ED, Smol T, Snijders Blok L, Stoler JM, Tang S, Tartaglia M, Thompson ML, van de Kamp JM, Wang J, Weise D, Weiss K, Woitschach R, Wollnik B, Yan H, Zackai EH, Zampino G, Campeau P, and Bhoj E

Subjects

Adolescent, Adult, Catalytic Domain, Child, Child, Preschool, Craniofacial Abnormalities pathology, DNA Helicases chemistry, Developmental Disabilities pathology, Female, Humans, Infant, Intellectual Disability pathology, Male, Mi-2 Nucleosome Remodeling and Deacetylase Complex chemistry, Mutation, Phenotype, Syndrome, Craniofacial Abnormalities genetics, DNA Helicases genetics, Developmental Disabilities genetics, Intellectual Disability genetics, Mi-2 Nucleosome Remodeling and Deacetylase Complex genetics

Abstract

There has been one previous report of a cohort of patients with variants in Chromodomain Helicase DNA-binding 3 (CHD3), now recognized as Snijders Blok-Campeau syndrome. However, with only three previously-reported patients with variants outside the ATPase/helicase domain, it was unclear if variants outside of this domain caused a clinically similar phenotype. We have analyzed 24 new patients with CHD3 variants, including nine outside the ATPase/helicase domain. All patients were detected with unbiased molecular genetic methods. There is not a significant difference in the clinical or facial features of patients with variants in or outside this domain. These additional patients further expand the clinical and molecular data associated with CHD3 variants. Importantly we conclude that there is not a significant difference in the phenotypic features of patients with various molecular disruptions, including whole gene deletions and duplications, and missense variants outside the ATPase/helicase domain. This data will aid both clinical geneticists and molecular geneticists in the diagnosis of this emerging syndrome.

Published

2020

36. Collagen VI-related limb-girdle syndrome caused by frequent mutation in COL6A3 gene with conflicting reports of pathogenicity.

Author

Stavusis J, Micule I, Wright NT, Straub V, Topf A, Panadés-de Oliveira L, Domínguez-González C, Inashkina I, Kidere D, Chrestian N, and Lace B

Subjects

Adult, Female, Humans, Male, Middle Aged, Muscular Dystrophies diagnostic imaging, Muscular Dystrophies genetics, Muscular Dystrophies pathology, Muscular Dystrophies physiopathology, Pedigree, Exome Sequencing, Collagen Type VI genetics, Contracture diagnostic imaging, Contracture genetics, Contracture pathology, Contracture physiopathology, Muscular Dystrophies congenital, Sclerosis diagnostic imaging, Sclerosis genetics, Sclerosis pathology, Sclerosis physiopathology

Abstract

Recently the scientific community has started to view Bethlem myopathy 1 and Ullrich congenital muscular dystrophy as two extremes of a collagen VI-related myopathy spectrum rather than two separate entities, as both are caused by mutations in one of the collagen VI genes. Here we report three individuals in two families who are homozygous for a COL6A3 mutation (c.7447A> G; p.Lys2483Glu), and compare their clinical features with seven previously published cases. Individuals carrying homozygous or compound heterozygous c.7447A> G, (p.Lys2483Glu) mutation exhibit mild phenotype without loss of ambulation, similar to the cases described previously as Collagen VI-related limb-girdle syndrome. The phenotype could arise due to an aberrant assembly of Von Willebrand factor A domains. Based on these data, we propose that c.7447A> G, (p.Lys2483Glu) is a common pathogenic mutation., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

37. The Medicago truncatula DREPP Protein Triggers Microtubule Fragmentation in Membrane Nanodomains during Symbiotic Infections.

Author

Su C, Klein ML, Hernández-Reyes C, Batzenschlager M, Ditengou FA, Lace B, Keller J, Delaux PM, and Ott T

Subjects

Mutation genetics, Plant Root Nodulation physiology, Protein Binding, Rhizobium physiology, Medicago truncatula metabolism, Membrane Microdomains metabolism, Microtubules metabolism, Plant Proteins metabolism, Symbiosis

Abstract

The initiation of intracellular host cell colonization by symbiotic rhizobia in Medicago truncatula requires repolarization of root hairs, including the rearrangement of cytoskeletal filaments. The molecular players governing microtubule (MT) reorganization during rhizobial infections remain to be discovered. Here, we identified M. truncatula DEVELOPMENTALLY REGULATED PLASMA MEMBRANE POLYPEPTIDE (DREPP), a member of the MT binding DREPP/PCaP protein family, and investigated its functions during rhizobial infections. We show that rhizobial colonization of drepp mutant roots as well as transgenic roots overexpressing DREPP is impaired. DREPP relocalizes into symbiosis-specific membrane nanodomains in a stimulus-dependent manner. This subcellular segregation coincides with DREPP-dependent MT fragmentation and a partial loss of the ability to reorganize the MT cytoskeleton in response to rhizobia, which might rely on an interaction between DREPP and the MT-organizing protein SPIRAL2. Taken together, our results reveal that establishment of symbiotic associations in M. truncatula requires DREPP in order to regulate MT reorganization during initial root hair responses to rhizobia., (© 2020 ASPB. All rights reserved.)

Published

2020

38. Whole-exome sequencing identifies homozygous mutation in TTI2 in a child with primary microcephaly: a case report.

Author

Picher-Martel V, Labrie Y, Rivest S, Lace B, and Chrestian N

Subjects

Canada, Child, Preschool, Genetic Testing, Homozygote, Humans, Infant, Male, Mutation, Microcephaly genetics, Nervous System Malformations genetics, Exome Sequencing

Abstract

Background: Primary microcephaly is defined as reduced occipital-frontal circumference noticeable before 36 weeks of gestation. Large amount of insults might lead to microcephaly including infections, hypoxia and genetic mutations. More than 16 genes are described in autosomal recessive primary microcephaly. However, the cause of microcephaly remains unclear in many cases after extensive investigations and genetic screening., Case Presentation: Here, we described the case of a boy with primary microcephaly who presented to a neurology clinic with short stature, global development delay, dyskinetic movement, strabismus and dysmorphic features. We performed microcephaly investigations and genetic panels. Then, we performed whole-exome sequencing to identify any genetic cause. Microcephaly investigations and genetic panels were negative, but we found a new D317V homozygous mutation in TELOE-2 interacting protein 2 (TTI2) gene by whole-exome sequencing. TTI2 is implicated in DNA damage response and mutation in that gene was previously described in mental retardation, autosomal recessive 39., Conclusions: We described the first French Canadian case with primary microcephaly and global developmental delay secondary to a new D317V homozygous mutation in TTI2 gene. Our report also highlights the importance of TTI2 protein in brain development.

Published

2020

39. HSD10 mitochondrial disease: p.Leu122Val variant, mild clinical phenotype, and founder effect in French-Canadian patients from Quebec.

Author

Waters PJ, Lace B, Buhas D, Gravel S, Cyr D, Boucher RM, Bernard G, Lévesque S, and Maranda B

Subjects

Adult, Age of Onset, Child, Child, Preschool, Female, Genetic Diseases, X-Linked genetics, Hemizygote, Humans, Infant, Male, Middle Aged, Pedigree, Quebec, Young Adult, 3-Hydroxyacyl CoA Dehydrogenases genetics, Amino Acid Substitution, Founder Effect, Mitochondrial Diseases genetics, Mutation, Missense

Abstract

Background: HSD10 mitochondrial disease (HSD10MD), originally described as a deficiency of 2-methyl-3-hydroxybutyryl-CoA dehydrogenase (MHBD), is a rare X-linked disorder of a moonlighting protein encoded by the HSD17B10. The diagnosis is usually first suspected on finding elevated isoleucine degradation metabolites in urine, reflecting decreased MHBD activity. However, it is now known that clinical disease pathogenesis reflects other independent functions of the HSD10 protein; particularly its essential role in mitochondrial transcript processing and tRNA maturation. The classical phenotype of HSD10MD in affected males is an infantile-onset progressive neurodegenerative disorder associated with severe mitochondrial dysfunction., Patients, Methods, and Results: In four unrelated families, we identified index patients with MHBD deficiency, which implied a diagnosis of HSD10MD. Each index patient was independently investigated because of neurological or developmental concerns. All had persistent elevations of urinary 2-methyl-3-hydroxybutyric acid and tiglylglycine. Analysis of HSD17B10 identified a single missense variant, c.364C>G, p.Leu122Val, in each case. This rare variant (1/183336 alleles in gnomAD) was previously reported in one Dutch patient and was described as pathogenic. The geographic origins of our families and results of haplotype analysis together provide evidence of a founder effect for this variant in Quebec. Notably, we identified an asymptomatic hemizygous adult male in one family, while a second independent genetic disorder contributed substantially to the clinical phenotypes observed in probands from two other families., Conclusion: The phenotype associated with p.Leu122Val in HSD17B10 currently appears to be attenuated and nonprogressive. This report widens the spectrum of phenotypic severity of HSD10MD and contributes to genotype-phenotype correlation. At present, we consider p.Leu122Val a "variant of uncertain significance." Nonetheless, careful follow-up of our patients remains advisable, to assess long-term clinical course and ensure appropriate management. It will also be important to identify other potential patients in our population and to characterize their phenotype., (© 2019 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals, Inc.)

Published

2019

40. Mutations in PIGB Cause an Inherited GPI Biosynthesis Defect with an Axonal Neuropathy and Metabolic Abnormality in Severe Cases.

Author

Murakami Y, Nguyen TTM, Baratang N, Raju PK, Knaus A, Ellard S, Jones G, Lace B, Rousseau J, Ajeawung NF, Kamei A, Minase G, Akasaka M, Araya N, Koshimizu E, van den Ende J, Erger F, Altmüller J, Krumina Z, Strautmanis J, Inashkina I, Stavusis J, El-Gharbawy A, Sebastian J, Puri RD, Kulshrestha S, Verma IC, Maier EM, Haack TB, Israni A, Baptista J, Gunning A, Rosenfeld JA, Liu P, Joosten M, Rocha ME, Hashem MO, Aldhalaan HM, Alkuraya FS, Miyatake S, Matsumoto N, Krawitz PM, Rossignol E, Kinoshita T, and Campeau PM

Subjects

Adult, Child, Child, Preschool, Craniofacial Abnormalities pathology, Female, Glycosylphosphatidylinositols genetics, Hand Deformities, Congenital pathology, Hearing Loss, Sensorineural pathology, Humans, Infant, Infant, Newborn, Intellectual Disability pathology, Male, Metabolic Diseases pathology, Nails, Malformed pathology, Pedigree, Peripheral Nervous System Diseases pathology, Seizures genetics, Severity of Illness Index, Young Adult, Craniofacial Abnormalities etiology, Glycosylphosphatidylinositols biosynthesis, Glycosylphosphatidylinositols deficiency, Hand Deformities, Congenital etiology, Hearing Loss, Sensorineural etiology, Intellectual Disability etiology, Mannosyltransferases genetics, Metabolic Diseases etiology, Mutation, Nails, Malformed etiology, Peripheral Nervous System Diseases etiology, Seizures pathology

Abstract

Proteins anchored to the cell surface via glycosylphosphatidylinositol (GPI) play various key roles in the human body, particularly in development and neurogenesis. As such, many developmental disorders are caused by mutations in genes involved in the GPI biosynthesis and remodeling pathway. We describe ten unrelated families with bi-allelic mutations in PIGB, a gene that encodes phosphatidylinositol glycan class B, which transfers the third mannose to the GPI. Ten different PIGB variants were found in these individuals. Flow cytometric analysis of blood cells and fibroblasts from the affected individuals showed decreased cell surface presence of GPI-anchored proteins. Most of the affected individuals have global developmental and/or intellectual delay, all had seizures, two had polymicrogyria, and four had a peripheral neuropathy. Eight children passed away before four years old. Two of them had a clinical diagnosis of DOORS syndrome (deafness, onychodystrophy, osteodystrophy, mental retardation, and seizures), a condition that includes sensorineural deafness, shortened terminal phalanges with small finger and toenails, intellectual disability, and seizures; this condition overlaps with the severe phenotypes associated with inherited GPI deficiency. Most individuals tested showed elevated alkaline phosphatase, which is a characteristic of the inherited GPI deficiency but not DOORS syndrome. It is notable that two severely affected individuals showed 2-oxoglutaric aciduria, which can be seen in DOORS syndrome, suggesting that severe cases of inherited GPI deficiency and DOORS syndrome might share some molecular pathway disruptions., (Copyright © 2019 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2019

41. Novel mutations in MYBPC1 are associated with myogenic tremor and mild myopathy.

Author

Stavusis J, Lace B, Schäfer J, Geist J, Inashkina I, Kidere D, Pajusalu S, Wright NT, Saak A, Weinhold M, Haubenberger D, Jackson S, Kontrogianni-Konstantopoulos A, and Bönnemann CG

Subjects

Adult, Carrier Proteins chemistry, Female, Humans, Male, Middle Aged, Pedigree, Protein Structure, Secondary, Protein Structure, Tertiary, Carrier Proteins genetics, Muscular Diseases diagnosis, Muscular Diseases genetics, Mutation, Missense genetics, Tremor diagnosis, Tremor genetics

Abstract

Objective: To define a distinct, dominantly inherited, mild skeletal myopathy associated with prominent and consistent tremor in two unrelated, three-generation families., Methods: Clinical evaluations as well as exome and panel sequencing analyses were performed in affected and nonaffected members of two families to identify genetic variants segregating with the phenotype. Histological assessment of a muscle biopsy specimen was performed in 1 patient, and quantitative tremor analysis was carried out in 2 patients. Molecular modeling studies and biochemical assays were performed for both mutations., Results: Two novel missense mutations in MYBPC1 (p.E248K in family 1 and p.Y247H in family 2) were identified and shown to segregate perfectly with the myopathy/tremor phenotype in the respective families. MYBPC1 encodes slow myosin binding protein-C (sMyBP-C), a modular sarcomeric protein playing structural and regulatory roles through its dynamic interaction with actin and myosin filaments. The Y247H and E248K mutations are located in the NH 2 -terminal M-motif of sMyBP-C. Both mutations result in markedly increased binding of the NH 2 terminus to myosin, possibly interfering with normal cross-bridge cycling as the first muscle-based step in tremor genesis. The clinical tremor features observed in all mutation carriers, together with the tremor physiology studies performed in family 2, suggest amplification by an additional central loop modulating the clinical tremor phenomenology., Interpretation: Here, we link two novel missense mutations in MYBPC1 with a dominant, mild skeletal myopathy invariably associated with a distinctive tremor. The molecular, genetic, and clinical studies are consistent with a unique sarcomeric origin of the tremor, which we classify as "myogenic tremor." ANN NEUROL 2019., (© 2019 American Neurological Association.)

Published

2019

42. Complete mtDNA sequencing reveals mutations m.9185T>C and m.13513G>A in three patients with Leigh syndrome.

Author

Pelnena D, Burnyte B, Jankevics E, Lace B, Dagyte E, Grigalioniene K, Utkus A, Krumina Z, Rozentale J, Adomaitiene I, Stavusis J, Pliss L, and Inashkina I

Subjects

Child, Preschool, Female, Humans, Infant, Leigh Disease pathology, Male, DNA, Mitochondrial genetics, Leigh Disease genetics, Mutation

Abstract

The most common mitochondrial disorder in children is Leigh syndrome, which is a progressive and genetically heterogeneous neurodegenerative disorder caused by mutations in nuclear genes or mitochondrial DNA (mtDNA). In the present study, a novel and robust method of complete mtDNA sequencing, which allows amplification of the whole mitochondrial genome, was tested. Complete mtDNA sequencing was performed in a cohort of patients with suspected mitochondrial mutations. Patients from Latvia and Lithuania (n = 92 and n = 57, respectively) referred by clinical geneticists were included. The de novo point mutations m.9185T>C and m.13513G>A, respectively, were detected in two patients with lactic acidosis and neurodegenerative lesions. In one patient with neurodegenerative lesions, the mutation m.9185T>C was identified. These mutations are associated with Leigh syndrome. The present data suggest that full-length mtDNA sequencing is recommended as a supplement to nuclear gene testing and enzymatic assays to enhance mitochondrial disease diagnostics.

Published

2018

43. Structure-activity relationships of strigolactones via a novel, quantitative in planta bioassay.

Author

Sanchez E, Artuso E, Lombardi C, Visentin I, Lace B, Saeed W, Lolli ML, Kobauri P, Ali Z, Spyrakis F, Cubas P, Cardinale F, and Prandi C

Subjects

Biological Assay methods, Plant Growth Regulators chemistry, Plant Growth Regulators metabolism, Structure-Activity Relationship, Lactones chemistry, Lactones metabolism, Orobanche chemistry, Orobanche metabolism

Abstract

Strigolactones (SLs) are plant hormones with various functions in development, responses to stress, and interactions with (micro)organisms in the rhizosphere, including with seeds of parasitic plants. Their perception for hormonal functions requires an α,β-hydrolase belonging to the D14 clade in higher plants; perception of host-produced SLs by parasitic seeds relies on similar but phylogenetically distinct proteins (D14-like). D14 and D14-like proteins are peculiar receptors, because they cleave SLs before undergoing a conformational change that elicits downstream events. Structure-activity relationship data show that the butenolide D-ring is crucial for bioactivity. We applied a bioisosteric approach to the structure of SLs by synthetizing analogues and mimics of natural SLs in which the D-ring was changed from a butenolide to a lactam and then evaluating their bioactivity. This was done by using a novel bioassay based on Arabidopsis transgenic lines expressing AtD14 fused to firefly luciferase, in parallel with the quantification of germination-inducing activity on parasitic seeds. The results obtained showed that the in planta bioassay is robust and quantitative, and thus can be confidently added to the SL-survey toolbox. The results also showed that modification of the butenolide ring into a lactam one significantly hampers the biological activity exhibited by SLs possessing a canonical lactonic D-ring.

Published

2018

44. Commonalities and Differences in Controlling Multipartite Intracellular Infections of Legume Roots by Symbiotic Microbes.

Author

Lace B and Ott T

Subjects

Cell Polarity, Cell Wall metabolism, Fabaceae cytology, Plant Roots cytology, Fabaceae microbiology, Plant Roots microbiology, Rhizobium physiology, Symbiosis

Abstract

Legumes have the almost unique ability to establish symbiotic associations with rhizobia and arbuscular mycorrhizal fungi. Forward and reverse genetics have identified a large number of genes that are required for either or both interactions. However, and in sharp contrast to natural soils, these interactions have been almost exclusively investigated under laboratory conditions by using separate inoculation systems, whereas both symbionts are simultaneously present in the field. Considering our recent understanding of the individual symbioses, the community is now promisingly positioned to co-inoculate plants with two or more microbes in order to understand mechanistically how legumes efficiently balance, regulate and potentially separate these symbioses and other endophytic microbes within the same root. Here, we discuss a number of key control layers that should be considered when assessing tri- or multipartite beneficial interactions and that may contribute to colonization patterns in legume roots.

Published

2018

45. Human Mitochondrial HMG-CoA Synthase Deficiency: Role of Enzyme Dimerization Surface and Characterization of Three New Patients.

Author

Puisac B, Marcos-Alcalde I, Hernández-Marcos M, Tobajas Morlana P, Levtova A, Schwahn BC, DeLaet C, Lace B, Gómez-Puertas P, and Pié J

Subjects

Amino Acid Substitution, Child, Preschool, Female, Humans, Infant, Male, Hydroxymethylglutaryl-CoA Synthase deficiency, Metabolism, Inborn Errors enzymology, Metabolism, Inborn Errors genetics, Metabolism, Inborn Errors pathology, Mitochondrial Proteins deficiency, Mutation, Missense, Protein Multimerization

Abstract

Mitochondrial 3-hydroxy-3-methylglutaryl-CoA synthase deficiency (mitochondrial HMG-CoA synthase deficiency or mHS deficiency, OMIM #605911) is an inborn error of metabolism that affects ketone body synthesis. Acute episodes include vomiting, lethargy, hepatomegaly, hypoglycemia and dicarboxylic aciduria. The diagnosis is difficult due to the relatively unspecific clinical and biochemical presentation, and fewer than 30 patients have been described. This work describes three new patients with mHS deficiency and two missense mutations c.334C>T (p.R112W) and c.430G>T (p.V144L) previously not reported. We developed a new method to express and measure the activity of the enzyme and in this work the study is extended to ten new missense variants including those of our patients. Enzymatic assays showed that three of the mutant proteins retained some but seven completely lacked activity. The identification of a patient homozygous for a mutation that retains 70% of enzyme activity opens the door to a new interpretation of the disease by demonstrating that a modest impairment of enzyme function can actually produce symptoms. This is also the first study employing molecular dynamics modelling of the enzyme mutations. We show that the correct maintenance of the dimerization surface is crucial for retaining the structure of the active center and therefore the activity of the enzyme., Competing Interests: The authors declare no conflict of interest.

Published

2018

46. Duplication events downstream of IRX1 cause North Carolina macular dystrophy at the MCDR3 locus.

Author

Cipriani V, Silva RS, Arno G, Pontikos N, Kalhoro A, Valeina S, Inashkina I, Audere M, Rutka K, Puech B, Michaelides M, van Heyningen V, Lace B, Webster AR, and Moore AT

Subjects

ADAMTS Proteins metabolism, Adult, Base Sequence, Chromosome Duplication, Chromosomes, Human, Pair 5 chemistry, Chromosomes, Human, Pair 6 chemistry, Corneal Dystrophies, Hereditary diagnostic imaging, Corneal Dystrophies, Hereditary pathology, Eye Proteins metabolism, Family, Female, Fetus, Gene Expression, Haplotypes, Homeodomain Proteins metabolism, Humans, Male, Retina metabolism, Retina pathology, Sequence Analysis, DNA, Tomography, Optical Coherence, Transcription Factors metabolism, ADAMTS Proteins genetics, Corneal Dystrophies, Hereditary genetics, Eye Proteins genetics, Genetic Loci, Homeodomain Proteins genetics, Transcription Factors genetics

Abstract

Autosomal dominant North Carolina macular dystrophy (NCMD) is believed to represent a failure of macular development. The disorder has been linked to two loci, MCDR1 (chromosome 6q16) and MCDR3 (chromosome 5p15-p13). Recently, non-coding variants upstream of PRDM13 (MCDR1) and a duplication including IRX1 (MCDR3) have been identified. However, the underlying disease-causing mechanism remains uncertain. Through a combination of sequencing studies on eighteen NCMD families, we report two novel overlapping duplications at the MCDR3 locus, in a gene desert downstream of IRX1 and upstream of ADAMTS16. One duplication of 43 kb was identified in nine families (with evidence for a shared ancestral haplotype), and another one of 45 kb was found in a single family. Three families carry the previously reported V2 variant (MCDR1), while five remain unsolved. The MCDR3 locus is thus refined to a shared region of 39 kb that contains DNAse hypersensitive sites active at a restricted time window during retinal development. Publicly available data confirmed expression of IRX1 and ADAMTS16 in human fetal retina, with IRX1 preferentially expressed in fetal macula. These findings represent a major advance in our understanding of the molecular genetics of NCMD and provide insights into the genetic pathways involved in human macular development.

Published

2017

47. Heck functionalization of an asymmetric aza-BODIPY core: synthesis of far-red infrared probes for bioimaging applications.

Author

Parisotto S, Lace B, Artuso E, Lombardi C, Deagostino A, Scudu R, Garino C, Medana C, and Prandi C

Subjects

Arabidopsis chemistry, Aza Compounds chemistry, Boron Compounds chemistry, Fluorescent Dyes chemical synthesis, Fluorescent Dyes chemistry, Molecular Structure, Photochemical Processes, Plant Roots chemistry, Spectroscopy, Near-Infrared, Tissue Distribution, Aza Compounds pharmacokinetics, Boron Compounds pharmacokinetics, Fluorescent Dyes pharmacokinetics

Abstract

As part of our ongoing work on the synthesis of a new class of plant hormones named Strigolactones (SLs) and their analogues, we became interested in tracing bioactive molecules with red emitting BODIPY fluorophores in order to unravel signaling and distribution of SLs in plants. In this paper we report on an unprecedented Heck functionalization of azadipyrromethenes (aza-DIPY) which allows for the introduction of suitable functional groups to convert aza-BODIPY in bioconjugate complexes useful for untangling biological processes.

Published

2017

48. Shaping Small Bioactive Molecules to Untangle Their Biological Function: A Focus on Fluorescent Plant Hormones.

Author

Lace B and Prandi C

Subjects

Fluorescent Dyes, Plant Growth Regulators genetics, Signal Transduction genetics, Signal Transduction physiology, Lactones metabolism, Optical Imaging methods, Plant Growth Regulators metabolism

Abstract

Modern biology overlaps with chemistry in explaining the structure and function of all cellular processes at the molecular level. Plant hormone research is perfectly located at the interface between these two disciplines, taking advantage of synthetic and computational chemistry as a tool to decipher the complex biological mechanisms regulating the action of plant hormones. These small signaling molecules regulate a wide range of developmental processes, adapting plant growth to ever changing environmental conditions. The synthesis of small bioactive molecules mimicking the activity of endogenous hormones allows us to unveil many molecular features of their functioning, giving rise to a new field, plant chemical biology. In this framework, fluorescence labeling of plant hormones is emerging as a successful strategy to track the fate of these challenging molecules inside living organisms. Thanks to the increasing availability of new fluorescent probes as well as advanced and innovative imaging technologies, we are now in a position to investigate many of the dynamic mechanisms through which plant hormones exert their action. Such a deep and detailed comprehension is mandatory for the development of new green technologies for practical applications. In this review, we summarize the results obtained so far concerning the fluorescent labeling of plant hormones, highlighting the basic steps leading to the design and synthesis of these compelling molecular tools and their applications., (Copyright © 2016 The Author. Published by Elsevier Inc. All rights reserved.)

Published

2016

49. Analysis of possible genetic risk factors contributing to development of childhood acute lymphoblastic leukaemia in the Latvian population.

Author

Kreile M, Piekuse L, Rots D, Dobele Z, Kovalova Z, and Lace B

Abstract

Introduction: Childhood acute lymphoblastic leukaemia (ALL) is a complex disease caused by a combination of genetic susceptibility and environmental exposure. Previous genome-wide association studies have reported several single nucleotide polymorphisms (SNPs) associated with the incidence of ALL. Several variations in genes encoding enzymes involved in carcinogenesis are suggested as being associated with an increased risk of ALL development., Material and Methods: We enrolled 77 paediatric ALL patients and 122 healthy controls, and in addition parental DNA was also available for 45 probands. SNPs rs10821936 (ARID5B), rs4132601 (IKZF1), rs2239633 (CEBPE), rs3731217 (CDKN2A) and rs1800566 (NQO1) and the presence of GSTT1 and GSTM1 null variants were detected. For statistical analysis the hybrid method of two designs 'Haplin' was used as well as linkage disequilibrium for family-based association studies., Results: We identified the SNP rs10821936 in the ARID5B gene as being statistically significantly associated with childhood ALL, especially if the C allele is in a homozygous state, relative risk (RR) 4.65, 95% CI: 2.03-10.6, p = 0.0006. Statistically significant differences were not found in other SNPs. We found risk combinations including all five variations, the strongest association being found in a combination where all five genetic variants are in a homozygous state, CCTTTTTTCC, p = 0.032., Conclusions: The identified SNP rs10821936 could serve as a potential risk marker for childhood ALL development. Further studies in an independent population are needed for verification.

Published

2016

50. Robust genotyping tool for autosomal recessive type of limb-girdle muscular dystrophies.

Author

Inashkina I, Jankevics E, Stavusis J, Vasiljeva I, Viksne K, Micule I, Strautmanis J, Naudina MS, Cimbalistiene L, Kucinskas V, Krumina A, Utkus A, Burnyte B, Matuleviciene A, and Lace B

Subjects

Adolescent, Adult, Child, Child, Preschool, Cohort Studies, Female, Humans, Infant, Latvia epidemiology, Lithuania epidemiology, Male, Middle Aged, Muscular Dystrophies, Limb-Girdle epidemiology, Young Adult, Calpain genetics, Genotype, Muscle Proteins genetics, Muscular Dystrophies, Limb-Girdle diagnosis, Muscular Dystrophies, Limb-Girdle genetics, Mutation genetics

Abstract

Background: Limb-girdle muscular dystrophies are characterized by predominant involvement of the shoulder and pelvic girdle and trunk muscle groups. Currently, there are 31 genes implicated in the different forms of limb-girdle muscular dystrophies, which exhibit similar phenotypes and clinical overlap; therefore, advanced molecular techniques are required to achieve differential diagnosis., Methods: We investigated 26 patients from Latvia and 34 patients from Lithuania with clinical symptoms of limb-girdle muscular dystrophies, along with 565 healthy unrelated controls from general and ethnic populations using our developed test kit based on the Illumina VeraCode GoldenGate genotyping platform, Ion AmpliSeq Inherited Disease Panel and direct sequencing of mutations in calpain 3 (CAPN3), anoctamin 5 (ANO5) and fukutin related protein (FKRP) genes., Results: Analysis revealed a homozygous CAPN3 c.550delA mutation in eight patients and three heterozygous variants in controls: dysferlin (DYSF) c.5028delG, CAPN3 c.2288A > G, and FKRP c.135C > T. Additionally, three mutations within FKRP gene were found: homozygous c.826C > A, and two compound - c.826C > A/c.404&#95;405insT and c.826C > A/c.204&#95;206delCTC mutations, and one mutation within CLCN1 gene - c.2680C > T p.Arg894Ter. ANO5 c.191dupA was not present., Conclusions: Genetic diagnosis was possible in 12 of 60 patients (20%). The allele frequency of CAPN3 gene mutation c.550delA in Latvia is 0.0016 and in Lithuania - 0.0029. The allele frequencies of CAPN3 gene mutation c.2288A > G and DYSF gene mutation c.4872delG are 0.003.

Published

2016