Your search keyword '"Poke G"' showing total 70 results

1. Heterozygous ANKRD17 loss-of-function variants cause a syndrome with intellectual disability, speech delay, and dysmorphism

Author

Chopra, M., McEntagart, M., Clayton-Smith, J., Platzer, K., Shukla, A., Girisha, K.M., Kaur, A., Kaur, P., Pfundt, R., Veenstra-Knol, H., Mancini, G.M.S., Cappuccio, G., Brunetti-Pierri, N., Kortum, F., Hempel, M., Denecke, J., Lehman, A., Kleefstra, T., Stuurman, K.E., Wilke, M., Thompson, M.L., Bebin, E.M., Bijlsma, E.K., Hoffer, M.J.V., Peeters-Scholte, C., Slavotinek, A., Weiss, W.A., Yip, T., Hodoglugil, U., Whittle, A., Monda, J., Neira, J., Yang, S., Kirby, A., Pinz, H., Lechner, R., Sleutels, F., Helbig, I., McKeown, S., Helbig, K., Willaert, R., Juusola, J., Semotok, J., Hadonou, M., Short, J., Yachelevich, N., Lala, S., Fernandez-Jaen, A., Pelayo, J.P., Klockner, C., Kamphausen, S.B., Abou Jamra, R., Arelin, M., Innes, A.M., Niskakoski, A., Amin, S., Williams, M., Evans, J., Smithson, S., Smedley, D., Burca, A., Kini, U., Delatycki, M.B., Gallacher, L., Yeung, A., Pais, L., Field, M., Martin, E., Charles, P., Courtin, T., Keren, B., Iascone, M., Cereda, A., Poke, G., Abadie, V., Chalouhi, C., Parthasarathy, P., Halliday, B.J., Robertson, S.P., Lyonnet, S., Amiel, J., Gordon, C.T., CAUSES Study, Genomics England Res Consortium, Clinical Genetics, Chopra, Maya, Mcentagart, Meriel, Clayton-Smith, Jill, Platzer, Konrad, Shukla, Anju, Girisha, Katta M, Kaur, Anupriya, Kaur, Parneet, Pfundt, Rolph, Veenstra-Knol, Hermine, Mancini, Grazia M S, Cappuccio, Gerarda, Brunetti-Pierri, Nicola, Kortüm, Fanny, Hempel, Maja, Denecke, Jona, Lehman, Anna, Kleefstra, Tjitske, Stuurman, Kyra E, Wilke, Martina, Thompson, Michelle L, Bebin, E Martina, Bijlsma, Emilia K, Hoffer, Mariette J V, Peeters-Scholte, Cacha, Slavotinek, Anne, Weiss, William A, Yip, Tiffany, Hodoglugil, Ugur, Whittle, Amy, Dimonda, Janette, Neira, Juanita, Yang, Sandra, Kirby, Amelia, Pinz, Hailey, Lechner, Rosan, Sleutels, Frank, Helbig, Ingo, Mckeown, Sarah, Helbig, Katherine, Willaert, Rebecca, Juusola, Jane, Semotok, Jennifer, Hadonou, Medard, Short, John, Yachelevich, Naomi, Lala, Sajel, Fernández-Jaen, Alberto, Pelayo, Janvier Porta, Klöckner, Chiara, Kamphausen, Susanne B, Abou Jamra, Rami, Arelin, Maria, Innes, A Micheil, Niskakoski, Anni, Amin, Sam, Williams, Maggie, Evans, Julie, Smithson, Sarah, Smedley, Damian, de Burca, Anna, Kini, Usha, Delatycki, Martin B, Gallacher, Lyndon, Yeung, Alison, Pais, Lynn, Field, Michael, Martin, Ellenore, Charles, Perrine, Courtin, Thoma, Keren, Bori, Iascone, Maria, Cereda, Anna, Poke, Gemma, Abadie, Véronique, Chalouhi, Christel, Parthasarathy, Padmini, Halliday, Benjamin J, Robertson, Stephen P, Lyonnet, Stanisla, Amiel, Jeanne, and Gordon, Christopher T

Subjects

Male, speech delay, Haploinsufficiency, Craniofacial Abnormalities, 0302 clinical medicine, Neurodevelopmental disorder, Loss of Function Mutation, Intellectual disability, Missense mutation, Ankyrin, Child, Genetics (clinical), Genetics, chemistry.chemical_classification, 0303 health sciences, RNA-Binding Proteins, Syndrome, Pedigree, ANKYRIN REPEAT, Phenotype, Child, Preschool, Speech delay, Female, medicine.symptom, Signal Transduction, Adult, Heterozygote, Adolescent, MASK, ANKRD17, dysmorphism, Biology, 03 medical and health sciences, Young Adult, All institutes and research themes of the Radboud University Medical Center, SDG 3 - Good Health and Well-being, Intellectual Disability, Report, medicine, Humans, Language Development Disorders, Yorkie, Loss function, 030304 developmental biology, HIPPO PATHWAY, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], MUTATIONS, Infant, medicine.disease, GENE, neurodevelopmental syndrome, chemistry, Ankyrin repeat, 030217 neurology & neurosurgery

Abstract

ANKRD17 is an ankyrin repeat-containing protein thought to play a role in cell cycle progression, whose ortholog in Drosophila functions in the Hippo pathway as a co-factor of Yorkie. Here, we delineate a neurodevelopmental disorder caused by de novo heterozygous ANKRD17 variants. The mutational spectrum of this cohort of 34 individuals from 32 families is highly suggestive of haploinsufficiency as the underlying mechanism of disease, with 21 truncating or essential splice site variants, 9 missense variants, 1 in-frame insertion-deletion, and 1 microdeletion (1.16 Mb). Consequently, our data indicate that loss of ANKRD17 is likely the main cause of phenotypes previously associated with large multi-gene chromosomal aberrations of the 4q13.3 region. Protein modeling suggests that most of the missense variants disrupt the stability of the ankyrin repeats through alteration of core structural residues. The major phenotypic characteristic of our cohort is a variable degree of developmental delay/intellectual disability, particularly affecting speech, while additional features include growth failure, feeding difficulties, non-specific MRI abnormalities, epilepsy and/or abnormal EEG, predisposition to recurrent infections (mostly bacterial), ophthalmological abnormalities, gait/balance disturbance, and joint hypermobility. Moreover, many individuals shared similar dysmorphic facial features. Analysis of single-cell RNA-seq data from the developing human telencephalon indicated ANKRD17 expression at multiple stages of neurogenesis, adding further evidence to the assertion that damaging ANKRD17 variants cause a neurodevelopmental disorder.

Published

2021

2. Expanding the genotypic and phenotypic spectrum of severe serine biosynthesis disorders

Author

Abdelfattah, F, Kariminejad, A, Kahlert, A, Morrison, PJ, Gumus, E, Mathews, KD, Darbro, BW, Amor, DJ, Walsh, M, Sznajer, Y, Weiss, L, Weidensee, S, Chitayat, D, Shannon, P, Bermejo-Sanchez, E, Riano-Galan, I, Hayes, I, Poke, G, Rooryck, C, Pennamen, P, Khung-Savatovsky, S, Toutain, A, Vuillaume, M-L, Ghaderi-Sohi, S, Kariminejad, MH, Weinert, S, Sticht, H, Zenker, M, Schanze, D, Abdelfattah, F, Kariminejad, A, Kahlert, A, Morrison, PJ, Gumus, E, Mathews, KD, Darbro, BW, Amor, DJ, Walsh, M, Sznajer, Y, Weiss, L, Weidensee, S, Chitayat, D, Shannon, P, Bermejo-Sanchez, E, Riano-Galan, I, Hayes, I, Poke, G, Rooryck, C, Pennamen, P, Khung-Savatovsky, S, Toutain, A, Vuillaume, M-L, Ghaderi-Sohi, S, Kariminejad, MH, Weinert, S, Sticht, H, Zenker, M, and Schanze, D

Abstract

Serine biosynthesis disorders comprise a spectrum of very rare autosomal recessive inborn errors of metabolism with wide phenotypic variability. Neu-Laxova syndrome represents the most severe expression and is characterized by multiple congenital anomalies and pre- or perinatal lethality. Here, we present the mutation spectrum and a detailed phenotypic analysis in 15 unrelated families with severe types of serine biosynthesis disorders. We identified likely disease-causing variants in the PHGDH and PSAT1 genes, several of which have not been reported previously. Phenotype analysis and a comprehensive review of the literature corroborates the evidence that serine biosynthesis disorders represent a continuum with varying degrees of phenotypic expression and suggest that even gradual differences at the severe end of the spectrum may be correlated with particular genotypes. We postulate that the individual residual enzyme activity of mutant proteins is the major determinant of the phenotypic variability, but further functional studies are needed to explore effects at the enzyme protein level.

Published

2020

3. Family communication following a diagnosis of myotonic dystrophy: To tell or not to tell?

Author

Taylor S, Rodrigues M, Poke G, Wake S, and McEwen A

Subjects

Genetics & Heredity, 1103 Clinical Sciences

Abstract

Family communication about genetic information enables informed medical and reproductive decision-making. The literature suggests that a significant proportion of genetically at-risk family members remain uninformed about genetic risk information as a result of non-disclosure. This study explored the experiences of New Zealand families communicating about a diagnosis of type 1 myotonic dystrophy (DM1). Eligible individuals were identified and recruited from the New Zealand (NZ) MD Prev study, a nationwide study which aimed to determine the prevalence, impact, and costs of genetic muscle disorders across the lifespan. Twelve qualitative semi-structured interviews were conducted with 17 participants. The findings demonstrate diversity among and within families, with several distinct family narratives described. Most participants reported a motivation to tell relatives about their diagnosis to promote autonomy. Women were pivotal throughout communication processes and this was often tied to the concept of maternal responsibility and a desire to promote relatives' reproductive autonomy. The diagnosis of DM1 and the subsequent family communication decisions altered relationships for many, with both positive and negative impacts described. The findings demonstrate that individuals require time to explore the impact of a diagnosis of DM1 on self, family and intimate partner relationships to anticipate unique communication challenges. Genetic counselors can use these findings to inform their approach to counseling families with DM1. Longitudinal genetic counseling may be beneficial as a way to provide individuals with life stage specific support as they communicate with their relatives about a diagnosis of DM1.

Published

2019

4. The epileptology of GNB5 encephalopathy

Author

Poke, G, King, C, Muir, A, de Valles-Ibanez, G, Germano, M, Moura de Souza, CF, Fung, J, Chung, B, Fung, CW, Mignot, C, Ilea, A, Keren, B, Vermersch, A-I, Davis, S, Stanley, T, Moharir, M, Kannu, P, Shao, Z, Malerba, N, Merla, G, Mefford, HC, Scheffer, IE, Sadleir, LG, Poke, G, King, C, Muir, A, de Valles-Ibanez, G, Germano, M, Moura de Souza, CF, Fung, J, Chung, B, Fung, CW, Mignot, C, Ilea, A, Keren, B, Vermersch, A-I, Davis, S, Stanley, T, Moharir, M, Kannu, P, Shao, Z, Malerba, N, Merla, G, Mefford, HC, Scheffer, IE, and Sadleir, LG

Abstract

Pathogenic variants in GNB5 cause an autosomal recessive neurodevelopmental disorder with neonatal sinus bradycardia. Seizures or epilepsy occurred in 10 of 22 previously reported cases, including 6 children from one family. We delineate the epileptology of GNB5 encephalopathy. Our nine patients, including five new patients, were from seven families. Epileptic spasms were the most frequent seizure type, occurring in eight of nine patients, and began at a median age of 3 months (2 months to 3 years). Focal seizures preceded spasms in three children, with onset at 7 days, 11 days, and 4 months. One child presented with convulsive status epilepticus at 6 months. Three children had burst suppression on electroencephalography (EEG), three had hypsarrhythmia, and one evolved from burst suppression to hypsarrhythmia. Background slowing was present in all after age 3 years. Magnetic resonance imaging (MRI) showed cerebral atrophy in one child and cerebellar atrophy in another. All nine had abnormal development prior to seizure onset and ultimately had profound impairment without regression. Hypotonia was present in all, with contractures developing in two older patients. All individuals had biallelic pathogenic variants in GNB5, predicted by in silico tools to result in protein truncation and loss-of-function. GNB5 developmental and epileptic encephalopathy is characterized by epileptic spasms, focal seizures, and profound impairment.

Published

2019

5. 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

6. REGISTRIES AND CARE OF NEUROMUSCULAR DISORDERS

Author

Rodrigues, M., primary, Roxburgh, R., additional, O'Grady, G., additional, Poke, G., additional, and Theadom, A., additional

Published

2018

7. Potency of Dimethyl Dicarbonate on the Microbial Inhibition Growth Kinetics, and Quality of Passion Fruit (Passiflora edulis) Juice during Refrigerated Storage

Author

Khursheed Ahmad Shiekh, Akaranaj Noieaid, Poke Gadpoca, Supassorn Sermwiwatwong, Saeid Jafari, Isaya Kijpatanasilp, Randy W. Worobo, and Kitipong Assatarakul

Subjects

dimethyl dicarbonate, microbial inhibition kinetics, pasteurization, passion fruit juice, quality, Chemical technology, TP1-1185

Abstract

This study aimed to investigate the effectiveness of dimethyl dicarbonate (DMDC) at various concentrations (0–250 ppm) in inhibiting the growth of Escherichia coli TISTR 117 and spoilage microbes in passion fruit juice (PFJ) and its impact on the physicochemical and antioxidant quality of the juice during refrigerated storage. The highest log reduction in the total viable count, yeast/molds and E. coli was attained in PFJ samples with 250 ppm of DMDC (p ≤ 0.05) added. Microbial growth inhibition by DMDC followed the first-order kinetic model with a coefficient of determination (R2) and inhibition constants (k) ranging from 0.98 to 0.99 and 0.022 to 0.042, respectively. DMDC at 0–250 ppm showed an insignificant effect on pH, °Brix, color (L*, a*, b*), ascorbic acid, total phenolic compound (TPC), total flavonoid content, and antioxidant activity (DPPH, FRAP) (p > 0.05). Control (untreated PFJ), DMDC-250 ppm, and pasteurized (15 s at 72 °C) samples were subjected to 27 days of cold storage at 4 °C. A decreasing trend in pH, total soluble solid, ascorbic acid content, DPPH and FRAP values were observed in all the samples during refrigerated storage. However, the DMDC-250 ppm sample showed a better prospect in physicochemical quality changes compared to the pasteurized and untreated control PFJ samples. ΔE values showed marked changes in the control sample than the DMDC-250 ppm and pasteurized samples at 27 days of storage. Additionally, the total viable count and yeast/mold count were augmented during storage, and an estimated shelf-life of the control, DMDC-250 ppm, and pasteurized samples was approximately 3, 24 and 18 days, respectively. In conclusion, DMDC at 250 ppm could ensure microbial safety without affecting the quality attributes of PFJ during 24 days of storage at 4 °C.

Published

2024

8. Genetic heterogeneity in Cornelia de Lange syndrome (CdLS) and CdLS-like phenotypes with observed and predicted levels of mosaicism

Author

Ansari, M, Poke, G, Ferry, Q, Williamson, K, Aldridge, R, Meynert, A, Bengani, H, Chan, C, Kayserili, H, Avci, Ş, Hennekam, R, Lampe, A, Redeker, E, Homfray, T, Ross, A, Smeland, M, Mansour, S, Parker, M, Cook, J, Splitt, M, Fisher, R, Fryer, A, Magee, A, Wilkie, A, and Barnicoat, A

Abstract

BACKGROUND: Cornelia de Lange syndrome (CdLS) is a multisystem disorder with distinctive facial appearance, intellectual disability and growth failure as prominent features. Most individuals with typical CdLS have de novo heterozygous loss-of-function mutations in NIPBL with mosaic individuals representing a significant proportion. Mutations in other cohesin components, SMC1A, SMC3, HDAC8 and RAD21 cause less typical CdLS. METHODS: We screened 163 affected individuals for coding region mutations in the known genes, 90 for genomic rearrangements, 19 for deep intronic variants in NIPBL and 5 had whole-exome sequencing. RESULTS: Pathogenic mutations [including mosaic changes] were identified in: NIPBL 46 [3] (28.2%); SMC1A 5 [1] (3.1%); SMC3 5 [1] (3.1%); HDAC8 6 [0] (3.6%) and RAD21 1 [0] (0.6%). One individual had a de novo 1.3 Mb deletion of 1p36.3. Another had a 520 kb duplication of 12q13.13 encompassing ESPL1, encoding separase, an enzyme that cleaves the cohesin ring. Three de novo mutations were identified in ANKRD11 demonstrating a phenotypic overlap with KBG syndrome. To estimate the number of undetected mosaic cases we used recursive partitioning to identify discriminating features in the NIPBL-positive subgroup. Filtering of the mutation-negative group on these features classified at least 18% as 'NIPBL-like'. A computer composition of the average face of this NIPBL-like subgroup was also more typical in appearance than that of all others in the mutation-negative group supporting the existence of undetected mosaic cases. CONCLUSIONS: Future diagnostic testing in 'mutation-negative' CdLS thus merits deeper sequencing of multiple DNA samples derived from different tissues.

Published

2016

9. Pattern and impact of pain in a national survey of genetic muscle disease

Author

Patel, Shilpan G, primary, Roxburgh, Richard, additional, Rodrigues, M, additional, Walker, K, additional, O’grady, G, additional, Poke, G, additional, Love, D, additional, Parmar, P, additional, Hammond-Tooke, G, additional, Te Ao, B, additional, and Theadom, Alice, additional

Published

2017

10. STAC3 p.Trp284Ser associated with congenital myopathy with distinctive dysmorphic features and malignant hyperthermia

Author

Zaharieva, I., primary, Sarkozy, A., additional, Manzur, A., additional, Munot, P., additional, O’Grady, G., additional, Rendu, J., additional, Amthor, H., additional, Servais, L., additional, Malfatti, E., additional, Dixon, J., additional, Poke, G., additional, Donkervoort, S., additional, Foley, A.R., additional, Neto, O.L.A., additional, Davis, M.R., additional, Urtizberea, J.A., additional, Bastaki, L., additional, Romero, N.B., additional, Oates, E.C., additional, Holmes, C., additional, Williams, G., additional, Sframeli, M., additional, Yum, S., additional, Medne, L., additional, Roy, S.Q., additional, Fauré, J., additional, Feng, L., additional, Morgan, J.E., additional, Bönnemann, C.G., additional, Phadke, R., additional, Sewry, C.A., additional, Treves, S., additional, and Muntoni, F., additional

Published

2017

11. Genetic heterogeneity in Cornelia de Lange syndrome (CdLS) and CdLS-like phenotypes with observed and predicted levels of mosaicism

Author

Ansari, M, Poke, G, Ferry, Q, Williamson, K, Aldridge, R, Meynert, AM, Bengani, H, Chan, CY, Kayserili, H, Avci, S, Hennekam, RC, Lampe, AK, Redeker, E, Homfray, T, Ross, A, Falkenberg Smeland, M, Mansour, S, Parker, MJ, Cook, JA, Splitt, M, Fisher, RB, Fryer, A, Magee, AC, Wilkie, A, Barnicoat, A, Brady, AF, Cooper, NS, Mercer, C, Deshpande, C, Bennett, CP, Pilz, DT, Ruddy, D, Cilliers, D, Johnson, DS, Josifova, D, Rosser, E, Thompson, EM, Wakeling, E, Kinning, E, Stewart, F, Flinter, F, Girisha, KM, Cox, H, Firth, HV, Kingston, H, Wee, JS, Hurst, JA, Clayton-Smith, J, Tolmie, J, Vogt, J, Tatton-Brown, K, Chandler, K, Prescott, K, Wilson, L, Behnam, M, McEntagart, M, Davidson, R, Lynch, SA, Sisodiya, S, Mehta, SG, McKee, SA, Mohammed, S, Holden, S, Park, SM, Holder, SE, Harrison, V, McConnell, V, Lam, WK, Green, AJ, Donnai, D, Bitner-Glindzicz, M, Donnelly, DE, Nellåker, C, Taylor, MS, FitzPatrick, DR, ANS - Amsterdam Neuroscience, APH - Amsterdam Public Health, Human Genetics, ACS - Amsterdam Cardiovascular Sciences, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, and Other Research

Subjects

Genetic Heterogeneity, Copy-number, Phenotype, Mosaicism, De Lange Syndrome, Face, Mutation, Genotype-Phenotype Correlations, Humans, Molecular genetics, Clinical genetics, Genetic Association Studies

Abstract

BACKGROUND: Cornelia de Lange syndrome (CdLS) is a multisystem disorder with distinctive facial appearance, intellectual disability and growth failure as prominent features. Most individuals with typical CdLS have de novo heterozygous loss-of-function mutations in NIPBL with mosaic individuals representing a significant proportion. Mutations in other cohesin components, SMC1A, SMC3, HDAC8 and RAD21 cause less typical CdLS.METHODS: We screened 163 affected individuals for coding region mutations in the known genes, 90 for genomic rearrangements, 19 for deep intronic variants in NIPBL and 5 had whole-exome sequencing.RESULTS: Pathogenic mutations [including mosaic changes] were identified in: NIPBL 46 [3] (28.2%); SMC1A 5 [1] (3.1%); SMC3 5 [1] (3.1%); HDAC8 6 [0] (3.6%) and RAD21 1 [0] (0.6%). One individual had a de novo 1.3 Mb deletion of 1p36.3. Another had a 520 kb duplication of 12q13.13 encompassing ESPL1, encoding separase, an enzyme that cleaves the cohesin ring. Three de novo mutations were identified in ANKRD11 demonstrating a phenotypic overlap with KBG syndrome. To estimate the number of undetected mosaic cases we used recursive partitioning to identify discriminating features in the NIPBL-positive subgroup. Filtering of the mutation-negative group on these features classified at least 18% as ‘NIPBL-like’. A computer composition of the average face of this NIPBL-like subgroup was also more typical in appearance than that of all others in the mutation-negative group supporting the existence of undetected mosaic cases.CONCLUSIONS: Future diagnostic testing in ‘mutation-negative’ CdLS thus merits deeper sequencing of multiple DNA samples derived from different tissues.

Published

2014

12. Recurrent de novo BICD2 mutation associated with severe arthrogryposis and polymicrogyria: Expanding the phenotype

Author

Ravenscroft, G., primary, Di Donato, N., additional, Davis, M., additional, Craven, P., additional, Poke, G., additional, Neas, K., additional, Neuhann, T., additional, Dobyns, W., additional, and Laing, N., additional

Published

2016

13. Unmet needs of people living with myotonic dystrophy: Data from a national, population-based study

Author

Theadom, A., primary, Mitchell, K., additional, Roxburgh, R., additional, Rodrigues, M., additional, Taylor, T., additional, Baker, R., additional, Jones, K., additional, Stewart, J., additional, Poke, G., additional, Hammond-Tooke, G., additional, O'Grady, G., additional, Love, D., additional, Ranta, A., additional, Ao, B. Te, additional, Parmar, P., additional, Vandal, A., additional, Krishnamurthi, R., additional, Brown, P., additional, and Feigin, V., additional

Published

2016

14. Prevalence of genetic muscle disorders (MD-Prev): A national, population-based study

Author

Theadom, A., primary, Roxburgh, R., additional, Rodrigues, M., additional, O'Grady, G., additional, Taylor, T., additional, Baker, R., additional, Poke, G., additional, Love, D., additional, Hammond-Tooke, G., additional, Ranta, A., additional, Jones, K., additional, Stewart, J., additional, Te Ao, B., additional, Parmar, P., additional, Vandal, A., additional, Krishnamurthi, R., additional, Brown, P., additional, and Feigin, V., additional

Published

2016

15. Molecular diagnosis of genetic muscle disorders in New Zealand

Author

Rodrigues, M., primary, Poke, G., additional, Roxburgh, R., additional, Flintoff, K., additional, Love, D., additional, Parkes, E., additional, Bawden, S., additional, Oates, S., additional, and Theadom, A., additional

Published

2016

16. OD08 - STAC3 p.Trp284Ser associated with congenital myopathy with distinctive dysmorphic features and malignant hyperthermia

Author

Zaharieva, I., Sarkozy, A., Manzur, A., Munot, P., O’Grady, G., Rendu, J., Amthor, H., Servais, L., Malfatti, E., Dixon, J., Poke, G., Donkervoort, S., Foley, A.R., Neto, O.L.A., Davis, M.R., Urtizberea, J.A., Bastaki, L., Romero, N.B., Oates, E.C., Holmes, C., Williams, G., Sframeli, M., Yum, S., Medne, L., Roy, S.Q., Fauré, J., Feng, L., Morgan, J.E., Bönnemann, C.G., Phadke, R., Sewry, C.A., Treves, S., and Muntoni, F.

Published

2017

17. P.410 - Molecular diagnosis of genetic muscle disorders in New Zealand

Author

Rodrigues, M., Poke, G., Roxburgh, R., Flintoff, K., Love, D., Parkes, E., Bawden, S., Oates, S., and Theadom, A.

Published

2016

18. P.407 - Prevalence of genetic muscle disorders (MD-Prev): A national, population-based study

Author

Theadom, A., Roxburgh, R., Rodrigues, M., O'Grady, G., Taylor, T., Baker, R., Poke, G., Love, D., Hammond-Tooke, G., Ranta, A., Jones, K., Stewart, J., Te Ao, B., Parmar, P., Vandal, A., Krishnamurthi, R., Brown, P., and Feigin, V.

Published

2016

19. P.366 - Unmet needs of people living with myotonic dystrophy: Data from a national, population-based study

Author

Theadom, A., Mitchell, K., Roxburgh, R., Rodrigues, M., Taylor, T., Baker, R., Jones, K., Stewart, J., Poke, G., Hammond-Tooke, G., O'Grady, G., Love, D., Ranta, A., Ao, B. Te, Parmar, P., Vandal, A., Krishnamurthi, R., Brown, P., and Feigin, V.

Published

2016

20. P.57 - Recurrent de novo BICD2 mutation associated with severe arthrogryposis and polymicrogyria: Expanding the phenotype

Author

Ravenscroft, G., Di Donato, N., Davis, M., Craven, P., Poke, G., Neas, K., Neuhann, T., Dobyns, W., and Laing, N.

Published

2016

21. Segmental Maternal UPD6 with Prenatal Growth Restriction

Author

Poke, G., primary, Doody, M., additional, Prado, J., additional, and Gattas, M., additional

Published

2012

22. Segmental Maternal UPD6 with Prenatal Growth Restriction.

Author

Poke, G., Doody, M., Prado, J., and Gattas, M.

Published

2013

23. Perry syndrome: A case of atypical parkinsonism with confirmed DCTN1 mutation

Author

Mcmanus, E. J., Poke, G., Matthew CL Phillips, and Asztely, F.

24. The expanding phenotypic spectrum of verheij syndrome.

Author

Fennell A.P., Kumble S., McKeown C., Poke G., Stark Z., Stutterd C.A., Tan T.Y., Yeung A., Wilkins E.J., Hunter M.F., Fennell A.P., Kumble S., McKeown C., Poke G., Stark Z., Stutterd C.A., Tan T.Y., Yeung A., Wilkins E.J., and Hunter M.F.

Abstract

Verheij syndrome is a rare craniofacial spliceosomopathy presenting with craniofacial dysmorphism, multiple congenital anomalies and variable neurodevelopmental delay. It is caused by SNVs in PUF60 or interstitial deletions of the chromosome 8q24.3 region. PUF60 encodes a splicing factor which forms part of the spliceosome. To date, 27 patients with Verheij syndrome due to disease-causing PUF60 SNVs have been detailed substantively in peer-reviewed publications. Although the depth of their phenotyping has varied greatly, they exhibit marked phenotypic heterogeneity. We report five additional unrelated patients, including the first described patients of Khmer and Indian ethnicities and the eldest patient to date, with five heterozygous PUF60 variants identified through exome sequencing, four previously unreported. These included three frameshift (p.(Pro385Leufs*12), p.(Gly268Alafs*18) and p.(Met287Ilefs*5)), one missense (p.(Arg146Cys)) and one inframe deletion variant (p.(Ala150-Phe152del)). All patients underwent deep phenotyping identifying variable dysmorphism, growth delay, neurodevelopmental delay, and multiple congenital anomalies, including several unique features. Our adult patient is the only individual reported not to have had either neurodevelopmental delay or intellectual disability. In combining these detailed phenotypic data with the previously reported patients we further refine the known frequencies of features associated with Verheij syndrome. These include neurodevelopmental delay/Intellectual disability (97%), short stature (60%), limb anomalies (66%), axial skeletal anomalies (57%), cardiac anomalies (61%), brain malformation (57%), hearing loss (48%), colobomata (32%) and other ocular anomalies (61%). This case series, incorporating two patients from previously unreported ethnic backgrounds, further delineates the mutational spectrum and unpredictable pleiotropy of PUF60 pathogenic variants.

25. The epileptology of GNB5 encephalopathy

Author

Giuseppe Merla, Alison M. Muir, Boris Keren, Natascia Malerba, Chontelle King, Ingrid E. Scheffer, Peter Kannu, Brian H.Y. Chung, Gemma Poke, Mahendranath Moharir, Michele Germano, Carolina Fischinger Moura de Souza, Jasmine L.F. Fung, Guillem de Valles-Ibáñez, Heather C Mefford, Thorsten Stanley, Lynette G. Sadleir, Zhuo Shao, Anne Isabelle Vermersch, Cyril Mignot, Adina Ilea, Cheuk Wing Fung, Suzanne Davis, Poke, G., King, C., Muir, A., de Valles Ibáñez, G., Germano, M., de Souza, C., Fung, J., Chung, B., Fung, Cw, Mignot, C., Ilea, A., Keren, B., Davis, S., Stanley, T., Moharir, M., Kannu, P., Shao, Z., Malerba, N., Merla, G, Mefford, Hc, Scheffer, Ie, and Sadleir, Lg.

Subjects

0301 basic medicine, Male, Pediatrics, medicine.medical_specialty, Adolescent, Encephalopathy, 03 medical and health sciences, Epilepsy, Young Adult, 0302 clinical medicine, medicine, Humans, Child, Cerebral atrophy, Brain Diseases, business.industry, GTP-Binding Protein beta Subunits, medicine.disease, Hypotonia, Hypsarrhythmia, Pedigree, Epileptic spasms, Burst suppression, 030104 developmental biology, Neurology, Child, Preschool, Cerebellar atrophy, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Pathogenic variants in GNB5 cause an autosomal recessive neurodevelopmental disorder with neonatal sinus bradycardia. Seizures or epilepsy occurred in 10 of 22 previously reported cases, including 6 children from one family. We delineate the epileptology of GNB5 encephalopathy. Our nine patients, including five new patients, were from seven families. Epileptic spasms were the most frequent seizure type, occurring in eight of nine patients, and began at a median age of 3 months (2 months to 3 years). Focal seizures preceded spasms in three children, with onset at 7 days, 11 days, and 4 months. One child presented with convulsive status epilepticus at 6 months. Three children had burst suppression on electroencephalography (EEG), three had hypsarrhythmia, and one evolved from burst suppression to hypsarrhythmia. Background slowing was present in all after age 3 years. Magnetic resonance imaging (MRI) showed cerebral atrophy in one child and cerebellar atrophy in another. All nine had abnormal development prior to seizure onset and ultimately had profound impairment without regression. Hypotonia was present in all, with contractures developing in two older patients. All individuals had biallelic pathogenic variants in GNB5, predicted by in silico tools to result in protein truncation and loss-of-function. GNB5 developmental and epileptic encephalopathy is characterized by epileptic spasms, focal seizures, and profound impairment. Wiley Periodicals, Inc. © 2019 International League Against Epilepsy

Published

2019

26. Generation of the induced human pluripotent stem cell lines CSSi009-A from a patient with a GNB5 pathogenic variant, and CSSi010-A from a CRISPR/Cas9 engineered GNB5 knock-out human cell line

Author

Raffaella Milanesi, Bartolomeo Augello, Lynette G. Sadleir, Giuseppe Merla, Patrizia Benzoni, Natascia Malerba, Gabriella Maria Squeo, Andrea Barbuti, Federica Giannetti, Gemma Poke, Anna Irma Croce, Malerba, N., Benzoni, P., Squeo, Gm, Milanesi, R., Giannetti, F., Sadleir, Lg, Poke, G., Augello, B., Croce, Ai, Barbuti, A., and Merla, G

Subjects

Male, 0301 basic medicine, Cellular differentiation, Induced Pluripotent Stem Cells, Germ layer, Biology, Cell Line, Frameshift mutation, Gene Knockout Techniques, 03 medical and health sciences, 0302 clinical medicine, Genome editing, medicine, Humans, CRISPR, Child, Frameshift Mutation, Induced pluripotent stem cell, lcsh:QH301-705.5, Cells, Cultured, Gene Editing, Cas9, GTP-Binding Protein beta Subunits, Genetic Diseases, Inborn, Cell Differentiation, Cell Biology, General Medicine, Fibroblasts, Middle Aged, Hypotonia, 030104 developmental biology, lcsh:Biology (General), Cancer research, Female, CRISPR-Cas Systems, medicine.symptom, Genetic Engineering, 030217 neurology & neurosurgery, Developmental Biology

Abstract

GNB5 loss-of-function pathogenic variants cause IDDCA, a rare autosomal recessive human genetic disease characterized by infantile onset of intellectual disability, sinus bradycardia, hypotonia, visual abnormalities, and epilepsy. We generated human induced pluripotent stem cells (hiPSCs) from skin fibroblasts of a patient with the homozygous c.136delG frameshift variant, and a GNB5 knock-out (KO) line by CRISPR/Cas9 editing. hiPSCs express common pluripotency markers and differentiate into the three germ layers. These lines represent a powerful cellular model to study the molecular basis of GNB5-related disorders as well as offer an in vitro model for drug screening.

Published

2019

27. MSL2 variants lead to a neurodevelopmental syndrome with lack of coordination, epilepsy, specific dysmorphisms, and a distinct episignature.

Author

Karayol R, Borroto MC, Haghshenas S, Namasivayam A, Reilly J, Levy MA, Relator R, Kerkhof J, McConkey H, Shvedunova M, Petersen AK, Magnussen K, Zweier C, Vasileiou G, Reis A, Savatt JM, Mulligan MR, Bicknell LS, Poke G, Abu-El-Haija A, Duis J, Hannig V, Srivastava S, Barkoudah E, Hauser NS, van den Born M, Hamiel U, Henig N, Baris Feldman H, McKee S, Krapels IPC, Lei Y, Todorova A, Yordanova R, Atemin S, Rogac M, McConnell V, Chassevent A, Barañano KW, Shashi V, Sullivan JA, Peron A, Iascone M, Canevini MP, Friedman J, Reyes IA, Kierstein J, Shen JJ, Ahmed FN, Mao X, Almoguera B, Blanco-Kelly F, Platzer K, Treu AB, Quilichini J, Bourgois A, Chatron N, Januel L, Rougeot C, Carere DA, Monaghan KG, Rousseau J, Myers KA, Sadikovic B, Akhtar A, and Campeau PM

Subjects

Adolescent, Child, Child, Preschool, Female, Humans, Male, Developmental Disabilities genetics, DNA Methylation genetics, Epigenesis, Genetic, Histones metabolism, Histones genetics, Induced Pluripotent Stem Cells metabolism, Intellectual Disability genetics, Phenotype, Epilepsy genetics, Neurodevelopmental Disorders genetics, Ubiquitin-Protein Ligases metabolism

Abstract

Epigenetic dysregulation has emerged as an important etiological mechanism of neurodevelopmental disorders (NDDs). Pathogenic variation in epigenetic regulators can impair deposition of histone post-translational modifications leading to aberrant spatiotemporal gene expression during neurodevelopment. The male-specific lethal (MSL) complex is a prominent multi-subunit epigenetic regulator of gene expression and is responsible for histone 4 lysine 16 acetylation (H4K16ac). Using exome sequencing, here we identify a cohort of 25 individuals with heterozygous de novo variants in MSL complex member MSL2. MSL2 variants were associated with NDD phenotypes including global developmental delay, intellectual disability, hypotonia, and motor issues such as coordination problems, feeding difficulties, and gait disturbance. Dysmorphisms and behavioral and/or psychiatric conditions, including autism spectrum disorder, and to a lesser extent, seizures, connective tissue disease signs, sleep disturbance, vision problems, and other organ anomalies, were observed in affected individuals. As a molecular biomarker, a sensitive and specific DNA methylation episignature has been established. Induced pluripotent stem cells (iPSCs) derived from three members of our cohort exhibited reduced MSL2 levels. Remarkably, while NDD-associated variants in two other members of the MSL complex (MOF and MSL3) result in reduced H4K16ac, global H4K16ac levels are unchanged in iPSCs with MSL2 variants. Regardless, MSL2 variants altered the expression of MSL2 targets in iPSCs and upon their differentiation to early germ layers. Our study defines an MSL2-related disorder as an NDD with distinguishable clinical features, a specific blood DNA episignature, and a distinct, MSL2-specific molecular etiology compared to other MSL complex-related disorders., Competing Interests: Declaration of interests B.S. is a shareholder in EpiSign Inc, involved in commercial uses of EpiSign(TM) technology D.A.C. and K.G.M. are employees of GeneDx, LLC., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

28. Clinical and molecular cytogenetic studies of five new patients with 20q11q12 deletion and review of the literature: Proposition of two critical regions.

Author

Bensaid S, Bendahmane M, Loddo S, Poke G, Januel L, Nicolle R, Malan V, Chatron N, Ottombrino S, Dentici ML, Novelli A, Digilio MC, and Sanlaville D

Subjects

Child, Child, Preschool, Female, Humans, Male, Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, DNA Copy Number Variations genetics, Phenotype, Adolescent, Chromosome Deletion, Chromosomes, Human, Pair 20 genetics

Abstract

Deletions of the long arm of chromosome 20 (20q) are rare, with only 16 reported patients displaying a proximal interstitial 20q deletion. A 1.62 Mb minimal critical region at 20q11.2, encompassing three genes GDF5, EPB41L1, and SAMHD1, is proposed to be responsible for this syndrome. The leading clinical features include growth retardation, intractable feeding difficulties with gastroesophageal reflux, hypotonia and psychomotor developmental delay. Common facial dysmorphisms including triangular face, hypertelorism, and hypoplastic alae nasi were additionally reported. Here, we present the clinical and molecular findings of five new patients with proximal interstitial 20q deletions. We analyzed the phenotype and molecular data of all previously reported patients with 20q11.2q12 microdeletions, along with our five new cases. Copy number variation analysis of patients in our cohort has enabled us to identify the second critical region in the 20q11.2q12 region and redefine the first region that is initially identified. The first critical region spans 359 kb at 20q11.2, containing six MIM genes, including two disease-causing genes, GDF5 and CEP250. The second critical region spans 706 kb at 20q12, encompassing four MIM genes, including two disease-causing genes, MAFB and TOP1. We propose GDF5 to be the primary candidate gene generating the phenotype of patients with 20q11.2 deletions. Moreover, we hypothesize TOP1 as a potential candidate gene for the second critical region at 20q12. Of note, we cannot exclude the possibility of a synergistic role of other genes involved in the deletion, including a contiguous gene deletion syndrome or position effect affecting both critical regions. Further studies focusing on patients with proximal 20q deletions are required to support our hypothesis., (© 2024 The Authors. American Journal of Medical Genetics Part A published by Wiley Periodicals LLC.)

Published

2024

29. Genotype and phenotype correlation of PHACTR1 -related neurological disorders.

Author

Xu Z, Sadleir L, Goel H, Jiao X, Niu Y, Zhou Z, de Valles-Ibáñez G, Poke G, Hildebrand M, Lieffering N, Qin J, and Yang Z

Subjects

Child, Child, Preschool, Female, Humans, Infant, Male, Actins genetics, Genetic Predisposition to Disease, Genotype, Nervous System Diseases genetics, Protein Phosphatase 1 genetics, Exome Sequencing, Genetic Association Studies, Microfilament Proteins genetics, Mutation, Missense genetics, Phenotype, Spasms, Infantile genetics

Abstract

Background: PHACTR1 (phosphatase and actin regulators) plays a key role in cortical migration and synaptic activity by binding and regulating G-actin and PPP1CA. This study aimed to expand the genotype and phenotype of patients with de novo variants in PHACTR1 and analyse the impact of variants on protein-protein interaction., Methods: We identified seven patients with PHACTR1 variants by trio-based whole-exome sequencing. Additional two subjects were ascertained from two centres through GeneMatcher. The genotype-phenotype correlation was determined, and AlphaFold-Multimer was used to predict protein-protein interactions and interfaces., Results: Eight individuals carried missense variants and one had CNV in the PHACTR1 . Infantile epileptic spasms syndrome (IESS) was the unifying phenotype in eight patients with missense variants of PHACTR1 . They could present with other types of seizures and often exhibit drug-resistant epilepsy with a poor prognosis. One patient with CNV displayed a developmental encephalopathy phenotype. Using AlphaFold-Multimer, our findings indicate that PHACTR1 and G-actin-binding sequences overlap with PPP1CA at the RPEL3 domain, which suggests possible competition between PPP1CA and G-actin for binding to PHACTR1 through a similar polymerisation interface. In addition, patients carrying missense variants located at the PHACTR1-PPP1CA or PHACTR1-G-actin interfaces consistently exhibit the IESS phenotype. These missense variants are mostly concentrated in the overlapping sequence (RPEL3 domain)., Conclusions: Patients with variants in PHACTR1 can have a phenotype of developmental encephalopathy in addition to IESS. Moreover, our study confirmed that the variants affect the binding of PHACTR1 to G-actin or PPP1CA, resulting in neurological disorders in patients., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

30. Clustered de novo start-loss variants in GLUL result in a developmental and epileptic encephalopathy via stabilization of glutamine synthetase.

Author

Jones AG, Aquilino M, Tinker RJ, Duncan L, Jenkins Z, Carvill GL, DeWard SJ, Grange DK, Hajianpour MJ, Halliday BJ, Holder-Espinasse M, Horvath J, Maitz S, Nigro V, Morleo M, Paul V, Spencer C, Esterhuizen AI, Polster T, Spano A, Gómez-Lozano I, Kumar A, Poke G, Phillips JA 3rd, Underhill HR, Gimenez G, Namba T, and Robertson SP

Subjects

Animals, Humans, Mice, Brain metabolism, Glutamates metabolism, Epilepsy, Generalized genetics, Glutamate-Ammonia Ligase genetics, Glutamate-Ammonia Ligase metabolism, Glutamine genetics, Glutamine metabolism

Abstract

Glutamine synthetase (GS), encoded by GLUL, catalyzes the conversion of glutamate to glutamine. GS is pivotal for the generation of the neurotransmitters glutamate and gamma-aminobutyric acid and is the primary mechanism of ammonia detoxification in the brain. GS levels are regulated post-translationally by an N-terminal degron that enables the ubiquitin-mediated degradation of GS in a glutamine-induced manner. GS deficiency in humans is known to lead to neurological defects and death in infancy, yet how dysregulation of the degron-mediated control of GS levels might affect neurodevelopment is unknown. We ascertained nine individuals with severe developmental delay, seizures, and white matter abnormalities but normal plasma and cerebrospinal fluid biochemistry with de novo variants in GLUL. Seven out of nine were start-loss variants and two out of nine disrupted 5' UTR splicing resulting in splice exclusion of the initiation codon. Using transfection-based expression systems and mass spectrometry, these variants were shown to lead to translation initiation of GS from methionine 18, downstream of the N-terminal degron motif, resulting in a protein that is stable and enzymatically competent but insensitive to negative feedback by glutamine. Analysis of human single-cell transcriptomes demonstrated that GLUL is widely expressed in neuro- and glial-progenitor cells and mature astrocytes but not in post-mitotic neurons. One individual with a start-loss GLUL variant demonstrated periventricular nodular heterotopia, a neuronal migration disorder, yet overexpression of stabilized GS in mice using in utero electroporation demonstrated no migratory deficits. These findings underline the importance of tight regulation of glutamine metabolism during neurodevelopment in humans., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 American Society of Human Genetics. All rights reserved.)

Published

2024

31. Mitochondrial disease in New Zealand: a nationwide prevalence study.

Author

Missen S, Wilson C, Potter H, Vincent AL, Murphy R, Roxburgh R, Rodrigues M, Poke G, Robertson SP, Thorburn DR, and Glamuzina E

Subjects

Humans, Cross-Sectional Studies, New Zealand epidemiology, Prevalence, Delivery of Health Care

Abstract

Background: The complexities of mitochondrial disease make epidemiological studies challenging, yet this information is important in understanding the healthcare burden and addressing service and educational needs. Existing studies are limited to quaternary centres or focus on a single genotype or phenotype and estimate disease prevalence at 12.5 per 100 000. New Zealand's (NZ) size and partially integrated national healthcare system make it amenable to a nationwide prevalence study., Aim: To estimate the prevalence of molecularly confirmed and suspected mitochondrial disease on 31 December 2015 in NZ., Methods: Cases were identified from subspecialists and laboratory databases and through interrogation of the Ministry of Health National Minimum Dataset with a focus on presentations between 2000 and 2015. Patient records were reviewed, and those with a diagnosis of 'mitochondrial disease' who were alive and residing in NZ on the prevalence date were included. These were divided into molecularly confirmed and clinically suspected cases. Official NZ estimated resident population data were used to calculate prevalence., Results: Seven hundred twenty-three unique national health index numbers were identified. Five hundred five were excluded. The minimum combined prevalence for mitochondrial disease was 4.7 per 100 000 (95% confidence interval (CI): 4.1-5.4). The minimum prevalence for molecularly confirmed and suspected disease was 2.9 (95% CI 2.4-3.4) and 1.8 (95% CI 1.4-2.2) cases per 100 000 respectively., Conclusions: Within the limitations of this study, comparison to similar prevalence studies performed by specialist referral centres suggests mitochondrial disease is underdiagnosed in NZ. This highlights a need for improved education and referral pathways for mitochondrial disease in NZ., (© 2023 The Authors. Internal Medicine Journal published by John Wiley & Sons Australia, Ltd on behalf of Royal Australasian College of Physicians.)

Published

2024

32. Epidemiology of Developmental and Epileptic Encephalopathy and of Intellectual Disability and Epilepsy in Children.

Author

Poke G, Stanley J, Scheffer IE, and Sadleir LG

Subjects

Child, Humans, Child, Preschool, Male, Infant, Newborn, Adolescent, Female, Electroencephalography, Seizures, Intellectual Disability epidemiology, Lennox Gastaut Syndrome epidemiology, Epilepsies, Myoclonic diagnosis

Abstract

Background and Objectives: We aimed to determine the population-based cumulative incidence and prevalence of developmental and epileptic encephalopathies (DEEs) and intellectual disability and epilepsy (ID+E) in children. We analyzed the cumulative incidence of specific epilepsy syndromes., Methods: Children younger than 16 years with a DEE or ID+E were ascertained using EEG records from 2000 to 2016 in the Wellington region of New Zealand. Epilepsy syndromes were diagnosed on medical record and EEG review. Point prevalence and cumulative incidence for children with epilepsy and developmental impairment, DEE and ID+E were calculated. Cumulative incidence for each epilepsy syndrome was calculated., Results: The cohort comprised 235 children (58% male) with developmental impairment and epilepsy, including 152 (65%) with DEE and 83 (35%) with ID+E. The median age of seizure onset was 15.4 months (range day 1-15 years). The median follow-up from seizure onset was 7.9 years (range 0-18.2 years). Point prevalence for the broad group of children with epilepsy and developmental impairment was 175/100,000 children (95% CI 149-203; DEE 112 and ID+E 63/100,000 children). Cumulative incidence for DEE was 169/100,000 children (95% CI 144-199) and that for ID+E was 125/100,000 children (95% CI 95.4-165). Cumulative incidence per 100,000 children was as follows: infantile epileptic spasms syndrome 58.2 (95% CI 45.0-75.3), epilepsy with myoclonic-atonic seizures 16.4 (95% CI 9.69-27.7), Lennox-Gastaut syndrome 13.2 (95% CI 4.1-41.9), and Dravet syndrome 5.1 (95% CI 2.1-12.2). Fifty/152 (33%) of children with DEE and 70/83 (84%) with ID+E could not be diagnosed with a known epilepsy syndrome., Discussion: Epilepsy and developmental impairment before the age of 16 years occurs in 1 in 340 children, with 1 in 590 having a DEE and 1 in 800 having ID+E. These individuals require significant health and community resources; therefore, these data will inform complex health service and education planning. Epidemiologic studies have focused on early childhood-onset DEEs. These do not fully reflect the burden of these disorders because 27% of DEEs and 70% of ID+E begin later, with seizure onset after the age of 3 years. Understanding the cumulative incidence of specific syndromes together with the broad group of DEEs is essential for the planning of therapeutic trials. Given trials focus on specific syndromes, there is a risk that effective therapies will not be developed for one-third of children with DEE., (© 2022 American Academy of Neurology.)

Published

2023

33. The diverse pleiotropic effects of spliceosomal protein PUF60: A case series of Verheij syndrome.

Author

Fennell AP, Baxter AE, Berkovic SF, Ellaway CJ, Forwood C, Hildebrand MS, Kumble S, McKeown C, Mowat D, Poke G, Rajagopalan S, Regan BM, Scheffer IE, Stark Z, Stutterd CA, Tan TY, Wilkins EJ, Yeung A, and Hunter MF

Subjects

Humans, Phenotype, Spliceosomes genetics, Spliceosomes pathology, Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Intellectual Disability diagnosis, Intellectual Disability genetics, Microcephaly diagnosis, Microcephaly genetics, Repressor Proteins genetics, RNA Splicing Factors genetics

Abstract

Verheij syndrome (VRJS) is a rare craniofacial spliceosomopathy presenting with craniofacial dysmorphism, multiple congenital anomalies and variable neurodevelopmental delay. It is caused by single nucleotide variants (SNVs) in PUF60 or interstitial deletions of the 8q24.3 region. PUF60 encodes a splicing factor which forms part of the spliceosome. To date, 36 patients with a sole diagnosis of VRJS due to disease-causing PUF60 SNVs have been reported in peer-reviewed publications. Although the depth of their phenotyping has varied greatly, they exhibit marked phenotypic heterogeneity. We report 10 additional unrelated patients, including the first described patients of Khmer, Indian, and Vietnamese ethnicities, and the eldest patient to date, with 10 heterozygous PUF60 variants identified through exome sequencing, 8 previously unreported. All patients underwent deep phenotyping identifying variable dysmorphism, growth delay, neurodevelopmental delay, and multiple congenital anomalies, including several unique features. The eldest patient is the only reported individual with a germline variant and neither neurodevelopmental delay nor intellectual disability. In combining these detailed phenotypic data with that of previously reported patients (n = 46), we further refine the known frequencies of features associated with VRJS. These include neurodevelopmental delay/intellectual disability (98%), axial skeletal anomalies (74%), appendicular skeletal anomalies (73%), oral anomalies (68%), short stature (66%), cardiac anomalies (63%), brain malformations (48%), hearing loss (46%), microcephaly (41%), colobomata (38%), and other ocular anomalies (65%). This case series, incorporating three patients from previously unreported ethnic backgrounds, further delineates the broad pleiotropy and mutational spectrum of PUF60 pathogenic variants., (© 2022 Wiley Periodicals LLC.)

Published

2022

34. Impact and predictors of quality of life in adults diagnosed with a genetic muscle disorder: a nationwide population-based study.

Author

Theadom A, Rodrigues M, Ranta A, Poke G, Love D, Jones K, Ao BT, Hammond-Tooke G, Parmar P, O'Grady G, and Roxburgh R

Subjects

Adult, Anxiety psychology, Anxiety Disorders, Depression psychology, Humans, Surveys and Questionnaires, Muscular Diseases, Quality of Life psychology

Abstract

Objectives: To determine the impact of genetic muscle disorders and identify the sociodemographic, illness, and symptom factors influencing quality of life., Methods: Adults (aged 16-90 years) with a confirmed clinical or molecular diagnosis of a genetic muscle disorder identified as part of a nationwide prevalence study were invited to complete an assessment of the impact of their condition. Quality of life was measured using the World Health Organization Quality of Life questionnaire. Impact was measured via the prevalence of symptoms and comparisons of quality of life against New Zealand norms. Multivariate regression models were used to identify the most significant predictors of quality of life domains., Results: 490/596 participants completed the assessment (82.2% consent rate). Quality of life was lower than the general population on physical (t = 9.37 p < 0.0001, d = 0.54) social (t = 2.27 p = 0.02, d = 0.13) and environmental domains (t = 2.28 p = 0.02, d = 0.13), although effect sizes were small. No difference was found on the psychological domain (t = - 1.17 p = 0.24, d = 0.07). Multivariate regression models (predicting 42%-64% of the variance) revealed personal factors (younger age, being in employment and in a relationship), symptoms (lower pain, fatigue, and sleep difficulties), physical health (no need for ventilation support, fewer activity limitations and no comorbidities), and psychosocial factors (lower depression, anxiety, behavioural dyscontrol and higher self-efficacy, satisfaction with health care and social support) contributed to improved quality of life., Conclusions: A range of factors influence the quality of life in adults diagnosed with a genetic muscle disorder and some may serve as targets for multi-faceted intervention., (© 2021. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

35. Epidemiological, clinical, pathological and genetic characteristics of epidermolysis bullosa in New Zealand.

Author

Gear R, Poke G, Neas K, Finnigan J, Cassidy S, Forsyth D, Blishen M, and Purvis D

Subjects

Adolescent, Adult, Age Distribution, Aged, Aged, 80 and over, Biopsy statistics & numerical data, Child, Child, Preschool, Female, Genetic Testing statistics & numerical data, Humans, Infant, Infant, Newborn, Male, Middle Aged, New Zealand epidemiology, Prevalence, Racial Groups statistics & numerical data, Sex Distribution, Young Adult, Epidermolysis Bullosa epidemiology

Abstract

Objective: To establish the epidemiological, clinical, pathological and genetic characteristics of epidermolysis bullosa (EB) in New Zealand (NZ)., Methods: Participants were recruited through the Dystrophic Epidermolysis Bullosa Research Association of New Zealand (DEBRA NZ). Dedicated EB nurse medical records, Genetic Health Service NZ (GHSNZ) records and, where available, public hospital records were manually reviewed for relevant clinical data., Results: Ninety-two participants took part in the study (56% participation rate). Forty-nine (53%) participants had EB simplex (EBS), 40 (43%) had dystrophic EB (DEB), and 3 (3%) had junctional EB (JEB). Point prevalence for EB of all types was 19.5 per million, and 10.4, 8.6 and 0.9 per million for EBS, DEB and JEB, respectively. Thirty-four participants had intermediate or severe EB. There were 29 paediatric cases and almost even numbers of males and females. Compared to NZ European and Māori, prevalence rates were lower for Pacific and Asian people and higher in the Middle Eastern/Latin American/African population. Eight out of 14 skin biopsy results were informative, and 14 of 15 genetic test results were informative., Conclusion: New Zealand has similar prevalence rates of EB compared with other national cohorts. This is likely to be an underestimate due to methodological limitations. Recent advancements in genomic testing have resulted in an improved diagnostic rate in our population. Further research into ethnic differences in prevalence, and exploring the characteristics of lethal forms of EB, is warranted. A dynamic registry may be helpful for the EB community in NZ., (© 2021 The Australasian College of Dermatologists.)

Published

2022

36. Expanding the genotypic and phenotypic spectrum of severe serine biosynthesis disorders.

Author

Abdelfattah F, Kariminejad A, Kahlert AK, Morrison PJ, Gumus E, Mathews KD, Darbro BW, Amor DJ, Walsh M, Sznajer Y, Weiß L, Weidensee S, Chitayat D, Shannon P, Bermejo-Sánchez E, Riaño-Galán I, Hayes I, Poke G, Rooryck C, Pennamen P, Khung-Savatovsky S, Toutain A, Vuillaume ML, Ghaderi-Sohi S, Kariminejad MH, Weinert S, Sticht H, Zenker M, and Schanze D

Subjects

Female, Fetus, Humans, Infant, Newborn, Male, Mutation, Serine biosynthesis, Abnormalities, Multiple genetics, Brain Diseases genetics, Fetal Growth Retardation genetics, Genetic Association Studies, Ichthyosis genetics, Limb Deformities, Congenital genetics, Microcephaly genetics, Phosphoglycerate Dehydrogenase genetics, Transaminases genetics

Abstract

Serine biosynthesis disorders comprise a spectrum of very rare autosomal recessive inborn errors of metabolism with wide phenotypic variability. Neu-Laxova syndrome represents the most severe expression and is characterized by multiple congenital anomalies and pre- or perinatal lethality. Here, we present the mutation spectrum and a detailed phenotypic analysis in 15 unrelated families with severe types of serine biosynthesis disorders. We identified likely disease-causing variants in the PHGDH and PSAT1 genes, several of which have not been reported previously. Phenotype analysis and a comprehensive review of the literature corroborates the evidence that serine biosynthesis disorders represent a continuum with varying degrees of phenotypic expression and suggest that even gradual differences at the severe end of the spectrum may be correlated with particular genotypes. We postulate that the individual residual enzyme activity of mutant proteins is the major determinant of the phenotypic variability, but further functional studies are needed to explore effects at the enzyme protein level., (© 2020 The Authors. Human Mutation published by Wiley Periodicals LLC.)

Published

2020

37. Perry syndrome: a case of atypical parkinsonism with confirmed DCTN1 mutation.

Author

McManus EJ, Poke G, Phillips MC, and Asztely F

Subjects

Depression diagnosis, Depression genetics, Depression physiopathology, Female, Humans, Middle Aged, Pedigree, Dynactin Complex genetics, Hypoventilation diagnosis, Hypoventilation genetics, Hypoventilation physiopathology, Mutation genetics, Parkinsonian Disorders diagnosis, Parkinsonian Disorders genetics, Parkinsonian Disorders physiopathology

Abstract

Perry syndrome is a rare neurological condition characterised clinically by depression, sleep disturbance, central hypoventilation and parkinsonism. Perry syndrome is a TAR DNA-binding protein 43 (TDP-43) proteinopathy associated with mutated dynactin-1 protein, inherited in an autosomal dominant manner. Several pathogenic mutations in exon 2 in the dynactin 1 gene have been identified; p. F521, p. G67d, p. G71R, p. G71E, p. G71A, p. T72p, p. Q74p and p. Y78C. We present the second known case Perry syndrome with confirmed DCTN1 mutation (p. Y78C) in New Zealand, who initially was thought to have a depressive illness. Perry syndrome should be considered in the differential diagnosis of young parkinsonism, especially if there is family history of sleep disorders, weight loss and/or marked depression., Competing Interests: Gemma Poke received funding from the Health Research Council of New Zealand for research into epileptic encephalopathies.

Published

2020

38. A diagnostic ceiling for exome sequencing in cerebellar ataxia and related neurological disorders.

Author

Ngo KJ, Rexach JE, Lee H, Petty LE, Perlman S, Valera JM, Deignan JL, Mao Y, Aker M, Posey JE, Jhangiani SN, Coban-Akdemir ZH, Boerwinkle E, Muzny D, Nelson AB, Hassin-Baer S, Poke G, Neas K, Geschwind MD, Grody WW, Gibbs R, Geschwind DH, Lupski JR, Below JE, Nelson SF, and Fogel BL

Subjects

DNA Copy Number Variations, Genetic Association Studies, Genetic Linkage, Genetic Predisposition to Disease, Humans, Microsatellite Repeats, Cerebellar Ataxia diagnosis, Cerebellar Ataxia genetics, Exome, Nervous System Diseases diagnosis, Nervous System Diseases genetics, Exome Sequencing

Abstract

Genetic ataxias are associated with mutations in hundreds of genes with high phenotypic overlap complicating the clinical diagnosis. Whole-exome sequencing (WES) has increased the overall diagnostic rate considerably. However, the upper limit of this method remains ill-defined, hindering efforts to address the remaining diagnostic gap. To further assess the role of rare coding variation in ataxic disorders, we reanalyzed our previously published exome cohort of 76 predominantly adult and sporadic-onset patients, expanded the total number of cases to 260, and introduced analyses for copy number variation and repeat expansion in a representative subset. For new cases (n = 184), our resulting clinically relevant detection rate remained stable at 47% with 24% classified as pathogenic. Reanalysis of the previously sequenced 76 patients modestly improved the pathogenic rate by 7%. For the combined cohort (n = 260), the total observed clinical detection rate was 52% with 25% classified as pathogenic. Published studies of similar neurological phenotypes report comparable rates. This consistency across multiple cohorts suggests that, despite continued technical and analytical advancements, an approximately 50% diagnostic rate marks a relative ceiling for current WES-based methods and a more comprehensive genome-wide assessment is needed to identify the missing causative genetic etiologies for cerebellar ataxia and related neurodegenerative diseases., (© 2019 Wiley Periodicals, Inc.)

Published

2020

39. The epileptology of GNB5 encephalopathy.

Author

Poke G, King C, Muir A, de Valles-Ibáñez G, Germano M, Moura de Souza CF, Fung J, Chung B, Fung CW, Mignot C, Ilea A, Keren B, Vermersch AI, Davis S, Stanley T, Moharir M, Kannu P, Shao Z, Malerba N, Merla G, Mefford HC, Scheffer IE, and Sadleir LG

Subjects

Adolescent, Child, Child, Preschool, Female, Humans, Male, Pedigree, Young Adult, Brain Diseases diagnosis, Brain Diseases genetics, Epilepsy diagnosis, Epilepsy genetics, GTP-Binding Protein beta Subunits genetics

Abstract

Pathogenic variants in GNB5 cause an autosomal recessive neurodevelopmental disorder with neonatal sinus bradycardia. Seizures or epilepsy occurred in 10 of 22 previously reported cases, including 6 children from one family. We delineate the epileptology of GNB5 encephalopathy. Our nine patients, including five new patients, were from seven families. Epileptic spasms were the most frequent seizure type, occurring in eight of nine patients, and began at a median age of 3 months (2 months to 3 years). Focal seizures preceded spasms in three children, with onset at 7 days, 11 days, and 4 months. One child presented with convulsive status epilepticus at 6 months. Three children had burst suppression on electroencephalography (EEG), three had hypsarrhythmia, and one evolved from burst suppression to hypsarrhythmia. Background slowing was present in all after age 3 years. Magnetic resonance imaging (MRI) showed cerebral atrophy in one child and cerebellar atrophy in another. All nine had abnormal development prior to seizure onset and ultimately had profound impairment without regression. Hypotonia was present in all, with contractures developing in two older patients. All individuals had biallelic pathogenic variants in GNB5, predicted by in silico tools to result in protein truncation and loss-of-function. GNB5 developmental and epileptic encephalopathy is characterized by epileptic spasms, focal seizures, and profound impairment., (Wiley Periodicals, Inc. © 2019 International League Against Epilepsy.)

Published

2019

40. Spinocerebellar Ataxia type 29 in a family of Māori descent.

Author

Ngo KJ, Poke G, Neas K, and Fogel BL

Abstract

Background: Mutations in the Inositol 1,4,5-Trisphosphate Receptor Type 1 ( ITPR1) gene cause spinocerebellar ataxia type 29 (SCA29), a rare congenital-onset autosomal dominant non-progressive cerebellar ataxia. The Māori, indigenous to New Zealand, are an understudied population for genetic ataxias., Case Presentation: We investigated the genetic origins of spinocerebellar ataxia in a family of Māori descent consisting of two affected sisters and their unaffected parents. Whole exome sequencing identified a pathogenic variant, p.Thr267Met, in ITPR1 in both sisters, establishing their diagnosis as SCA29., Conclusions: We report the identification of a family of Māori descent with a mutation causing SCA29, extending the worldwide scope of this disease. Although this mutation has occurred de novo in other populations, suggesting a mutational hotspot, the children in this family inherited it from their unaffected mother who was germline mosaic., Competing Interests: Competing interestsThe authors report no competing interests., (© The Author(s). 2019.)

Published

2019

41. Generation of the induced human pluripotent stem cell lines CSSi009-A from a patient with a GNB5 pathogenic variant, and CSSi010-A from a CRISPR/Cas9 engineered GNB5 knock-out human cell line.

Author

Malerba N, Benzoni P, Squeo GM, Milanesi R, Giannetti F, Sadleir LG, Poke G, Augello B, Croce AI, Barbuti A, and Merla G

Subjects

CRISPR-Cas Systems, Cell Differentiation, Cell Line cytology, Cells, Cultured, Child, Female, Fibroblasts cytology, Fibroblasts metabolism, Frameshift Mutation, GTP-Binding Protein beta Subunits metabolism, Gene Editing, Gene Knockout Techniques, Genetic Diseases, Inborn metabolism, Genetic Diseases, Inborn physiopathology, Genetic Engineering, Humans, Induced Pluripotent Stem Cells cytology, Male, Middle Aged, Cell Line metabolism, GTP-Binding Protein beta Subunits genetics, Genetic Diseases, Inborn genetics, Induced Pluripotent Stem Cells metabolism

Abstract

GNB5 loss-of-function pathogenic variants cause IDDCA, a rare autosomal recessive human genetic disease characterized by infantile onset of intellectual disability, sinus bradycardia, hypotonia, visual abnormalities, and epilepsy. We generated human induced pluripotent stem cells (hiPSCs) from skin fibroblasts of a patient with the homozygous c.136delG frameshift variant, and a GNB5 knock-out (KO) line by CRISPR/Cas9 editing. hiPSCs express common pluripotency markers and differentiate into the three germ layers. These lines represent a powerful cellular model to study the molecular basis of GNB5-related disorders as well as offer an in vitro model for drug screening., (Copyright © 2019 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2019

42. Expanding the phenotypic spectrum associated with DPF2: A new case report.

Author

Knapp KM, Poke G, Jenkins D, Truter W, and Bicknell LS

Subjects

Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Alleles, Amino Acid Substitution, DNA-Binding Proteins chemistry, Face abnormalities, Facies, Genome, Hand Deformities, Congenital diagnosis, Hand Deformities, Congenital genetics, Humans, Intellectual Disability diagnosis, Intellectual Disability genetics, Micrognathism diagnosis, Micrognathism genetics, Models, Molecular, Neck abnormalities, Protein Conformation, Structure-Activity Relationship, Transcription Factors chemistry, DNA-Binding Proteins genetics, Genetic Association Studies methods, Genetic Predisposition to Disease, Mutation, Phenotype, Transcription Factors genetics

Abstract

Coffin-Siris syndrome (CSS) is a clinically and genetically heterogeneous developmental disorder, linked to disruption of the BAF chromatin-remodeling complex. Recently, de novo missense and truncating variants have been reported in DPF2 in patients sharing some of the common features of CSS. Here we report a further individual harboring a novel de novo missense DPF2 variant, c.1066T>G, p.Cys356Gly. Structural modeling indicated that the predicted amino acid substitution affects a core residue required for zinc ion coordination and would likely alter the PHD2 domain structure of DPF2. The clinical presentation of Pierre Robin sequence and diaphragmatic hernia did not immediately suggest CSS, with the more common CSS features of hypoplastic toenails and characteristic facial features very subtle. This individual further broadens the phenotypic features of DPF2-related CSS, as well as CSS more generally., (© 2019 Wiley Periodicals, Inc.)

Published

2019

43. A Nationwide, Population-Based Prevalence Study of Genetic Muscle Disorders.

Author

Theadom A, Rodrigues M, Poke G, O'Grady G, Love D, Hammond-Tooke G, Parmar P, Baker R, Feigin V, Jones K, Te Ao B, Ranta A, and Roxburgh R

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Humans, Infant, Male, Middle Aged, Muscular Diseases diagnosis, New Zealand ethnology, Population Surveillance methods, Prevalence, Young Adult, Muscular Diseases ethnology, Muscular Diseases genetics

Abstract

Background: Previous epidemiological studies of genetic muscle disorders have relied on medical records to identify cases and may be at risk of selection biases or have focused on selective population groups., Objectives: This study aimed to determine age-standardised prevalence of genetic muscle disorders through a nationwide, epidemiological study across the lifespan using the capture-recapture method., Methods: Adults and children with a confirmed clinical or molecular diagnosis of a genetic muscle disorder, resident in New Zealand on April 1, 2015 were identified using multiple overlapping sources. Genetic muscle disorders included the muscular dystrophies, congenital myopathies, ion channel myopathies, GNE myopathy, and Pompe disease. Prevalence per 100,000 persons by age, sex, disorder, ethnicity and geographical region with 95% CIs was calculated using Poisson distribution. Direct standardisation was applied to age-standardise prevalence to the world population. Completeness of case ascertainment was determined using capture-recapture modelling., Results: Age standardised minimal point prevalence of all genetic muscle disorders was 22.3 per 100,000 (95% CI 19.5-25.6). Prevalence in Europeans of 24.4 per 100,000, (95% CI 21.1-28.3) was twice that observed in NZ's other 3 main ethnic groups; Māori (12.6 per 100,000, 95% CI 7.8-20.5), Pasifika (11.0 per 100,000, 95% CI 5.4-23.3), and Asian (9.13 per 100,000, 95% CI 5.0-17.8). Crude prevalence of myotonic dystrophy was 3 times higher in Europeans (10.5 per 100,000, 9.4-11.8) than Māori and Pasifika (2.5 per 100,000, 95% CI 1.5-4.2 and 0.7 per 100,000, 95% CI 0.1-2.7 respectively). There were considerable regional variations in prevalence, although there was no significant association with social deprivation. The final capture-recapture model, with the least deviance, estimated the study ascertained 99.2% of diagnosed cases., Conclusions: Ethnic and regional differences in the prevalence of genetic muscle disorders need to be considered in service delivery planning, evaluation, and decision making., (© 2019 The Author(s) Published by S. Karger AG, Basel.)

Published

2019

44. Features of multiple self-healing squamous epithelioma and Loeys-Dietz syndrome in a patient with a novel TGFBR1 variant.

Author

Sirisomboonwong KE, Martindale J, Keefe M, Goudie D, and Poke G

Subjects

Alleles, Amino Acid Substitution, DNA Mutational Analysis, Genotype, Humans, Male, Middle Aged, Mutation, Mutation, Missense, Tomography, X-Ray Computed, Carcinoma diagnosis, Carcinoma genetics, Genetic Variation, Keratoacanthoma diagnosis, Keratoacanthoma genetics, Loeys-Dietz Syndrome diagnosis, Loeys-Dietz Syndrome genetics, Receptor, Transforming Growth Factor-beta Type I genetics

Abstract

Multiple self-healing squamous epithelioma (MSSE, Ferguson-Smith disease) and Loeys-Dietz syndrome (LDS) are allelic conditions associated with pathogenic variants in the transforming growth factor beta receptor 1 gene (TGFBR1). We describe a patient with a novel missense variant in this gene: c.664G > A, p.[Gly222Arg], who clinically presents with both syndromes. The patient also has a history of gastric antral vascular ectasia, which has not been reported previously in LDS., (© 2018 Wiley Periodicals, Inc.)

Published

2018

45. STAC3 variants cause a congenital myopathy with distinctive dysmorphic features and malignant hyperthermia susceptibility.

Author

Zaharieva IT, Sarkozy A, Munot P, Manzur A, O'Grady G, Rendu J, Malfatti E, Amthor H, Servais L, Urtizberea JA, Neto OA, Zanoteli E, Donkervoort S, Taylor J, Dixon J, Poke G, Foley AR, Holmes C, Williams G, Holder M, Yum S, Medne L, Quijano-Roy S, Romero NB, Fauré J, Feng L, Bastaki L, Davis MR, Phadke R, Sewry CA, Bönnemann CG, Jungbluth H, Bachmann C, Treves S, and Muntoni F

Subjects

Adaptor Proteins, Signal Transducing chemistry, Adolescent, Calcium metabolism, Child, Child, Preschool, Excitation Contraction Coupling, Female, Genetic Predisposition to Disease, Humans, Infant, Large-Conductance Calcium-Activated Potassium Channel alpha Subunits, Male, Malignant Hyperthermia etiology, Malignant Hyperthermia metabolism, Myotonia Congenita complications, Myotonia Congenita metabolism, Pedigree, Phenotype, Protein Binding, Protein Transport, Sarcoplasmic Reticulum metabolism, Severity of Illness Index, Exome Sequencing, Young Adult, Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Amino Acid Substitution, Malignant Hyperthermia genetics, Myotonia Congenita genetics

Abstract

SH3 and cysteine-rich domain-containing protein 3 (STAC3) is an essential component of the skeletal muscle excitation-contraction coupling (ECC) machinery, though its role and function are not yet completely understood. Here, we report 18 patients carrying a homozygous p.(Trp284Ser) STAC3 variant in addition to a patient compound heterozygous for the p.(Trp284Ser) and a novel splice site change (c.997-1G > T). Clinical severity ranged from prenatal onset with severe features at birth, to a milder and slowly progressive congenital myopathy phenotype. A malignant hyperthermia (MH)-like reaction had occurred in several patients. The functional analysis demonstrated impaired ECC. In particular, KCl-induced membrane depolarization resulted in significantly reduced sarcoplasmic reticulum Ca 2+ release. Co-immunoprecipitation of STAC3 with Ca V 1.1 in patients and control muscle samples showed that the protein interaction between STAC3 and Ca V 1.1 was not significantly affected by the STAC3 variants. This study demonstrates that STAC3 gene analysis should be included in the diagnostic work up of patients of any ethnicity presenting with congenital myopathy, in particular if a history of MH-like episodes is reported. While the precise pathomechanism remains to be elucidated, our functional characterization of STAC3 variants revealed that defective ECC is not a result of Ca V 1.1 sarcolemma mislocalization or impaired STAC3-Ca V 1.1 interaction., (© 2018 Wiley Periodicals, Inc.)

Published

2018

46. 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

47. A Novel CACNA1A Nonsense Variant [c.4054C>T (p.Arg1352 ⁎ )] Causing Episodic Ataxia Type 2.

Author

Lance S, Mossman S, and Poke G

Abstract

Episodic ataxia is a heterogenous group of uncommon neurological disorders characterised by recurrent episodes of vertigo, dysarthria, and ataxia for which a variety of different genetic variations have been implicated. Episodic ataxia type two (EA2) is the most common and also has the largest number of identified causative genetic variants. Treatment with acetazolamide is effective in improving symptoms, so accurate diagnosis is essential. However, a large proportion of patients with EA2 have negative genetic testing. We present a patient with a typical history of EA2 who had a novel variant in the CACNA1A gene not previously described. Report of such variations is important in learning more about the disease and improving diagnostic yield for the patient.

Published

2018

48. 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

49. 19p13 microduplications encompassing NFIX are responsible for intellectual disability, short stature and small head circumference.

Author

Trimouille A, Houcinat N, Vuillaume ML, Fergelot P, Boucher C, Toutain J, Caignec CL, Vincent M, Nizon M, Andrieux J, Vanlerberghe C, Delobel B, Duban B, Mansour S, Baple E, McKeown C, Poke G, Robertshaw K, Fifield E, Fabretto A, Pecile V, Gasparini P, Carrozzi M, Lacombe D, Arveiler B, Rooryck C, and Moutton S

Subjects

Abnormalities, Multiple pathology, Adolescent, Child, Child, Preschool, Female, Humans, Infant, Intellectual Disability pathology, Male, Syndrome, Abnormalities, Multiple genetics, Chromosome Duplication, Chromosomes, Human, Pair 19 genetics, Intellectual Disability genetics, NFI Transcription Factors genetics

Abstract

Syndromes caused by copy number variations are described as reciprocal when they result from deletions or duplications of the same chromosomal region. When comparing the phenotypes of these syndromes, various clinical features could be described as reversed, probably due to the opposite effect of these imbalances on the expression of genes located at this locus. The NFIX gene codes for a transcription factor implicated in neurogenesis and chondrocyte differentiation. Microdeletions and loss of function variants of NFIX are responsible for Sotos syndrome-2 (also described as Malan syndrome), a syndromic form of intellectual disability associated with overgrowth and macrocephaly. Here, we report a cohort of nine patients harboring microduplications encompassing NFIX. These patients exhibit variable intellectual disability, short stature and small head circumference, which can be described as a reversed Sotos syndrome-2 phenotype. Strikingly, such a reversed phenotype has already been described in patients harboring microduplications encompassing NSD1, the gene whose deletions and loss-of-function variants are responsible for classical Sotos syndrome. Even though the type/contre-type concept has been criticized, this model seems to give a plausible explanation for the pathogenicity of 19p13 microduplications, and the common phenotype observed in our cohort.

Published

2018

50. PBX1 haploinsufficiency leads to syndromic congenital anomalies of the kidney and urinary tract (CAKUT) in humans.

Author

Le Tanno P, Breton J, Bidart M, Satre V, Harbuz R, Ray PF, Bosson C, Dieterich K, Jaillard S, Odent S, Poke G, Beddow R, Digilio MC, Novelli A, Bernardini L, Pisanti MA, Mackenroth L, Hackmann K, Vogel I, Christensen R, Fokstuen S, Béna F, Amblard F, Devillard F, Vieville G, Apostolou A, Jouk PS, Guebre-Egziabher F, Sartelet H, and Coutton C

Subjects

Child, Child, Preschool, Female, Fetus metabolism, Genome, Human, Humans, Infant, Kidney abnormalities, Kidney embryology, Kidney metabolism, Kidney pathology, Male, Syndrome, Haploinsufficiency genetics, Pre-B-Cell Leukemia Transcription Factor 1 genetics, Urogenital Abnormalities genetics, Vesico-Ureteral Reflux genetics

Abstract

Background: Congenital anomalies of the kidney and urinary tract (CAKUT) represent a significant healthcare burden since it is the primary cause of chronic kidney in children. CNVs represent a recurrent molecular cause of CAKUT but the culprit gene remains often elusive. Our study aimed to define the gene responsible for CAKUT in patients with an 1q23.3q24.1 microdeletion., Methods: We describe eight patients presenting with CAKUT carrying an 1q23.3q24.1 microdeletion as identified by chromosomal microarray analysis (CMA). Clinical features were collected, especially the renal and urinary tract phenotype, and extrarenal features. We characterised PBX1 expression and localisation in fetal and adult kidneys using quantitative RT-PCR and immunohistochemistry., Results: We defined a 276-kb minimal common region (MCR) that only overlaps with the PBX1 gene. All eight patients presented with syndromic CAKUT. CAKUT were mostly bilateral renal hypoplasia (75%). The most frequent extrarenal symptoms were developmental delay and ear malformations. We demonstrate that PBX1 is strongly expressed in fetal kidneys and brain and expression levels decreased in adult samples. In control fetal kidneys, PBX1 was localised in nuclei of medullary, interstitial and mesenchymal cells, whereas it was present in endothelial cells in adult kidneys., Conclusions: Our results indicate that PBX1 haploinsufficiency leads to syndromic CAKUT as supported by the Pbx1 -null mice model. Correct PBX1 dosage appears to be critical for normal nephrogenesis and seems important for brain development in humans. CMA should be recommended in cases of fetal renal anomalies to improve genetic counselling and pregnancy management., Competing Interests: Competing interests: None declared., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2017. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2017