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1.
Hum Mol Genet ; 31(18): 3083-3094, 2022 09 10.
Artículo en Inglés | MEDLINE | ID: mdl-35512351

RESUMEN

BACKGROUND: TASP1 encodes an endopeptidase activating histone methyltransferases of the KMT2 family. Homozygous loss-of-function variants in TASP1 have recently been associated with Suleiman-El-Hattab syndrome. We report six individuals with Suleiman-El-Hattab syndrome and provide functional characterization of this novel histone modification disorder in a multi-omics approach. METHODS: Chromosomal microarray/exome sequencing in all individuals. Western blotting from fibroblasts in two individuals. RNA sequencing and proteomics from fibroblasts in one individual. Methylome analysis from blood in two individuals. Knock-out of tasp1 orthologue in zebrafish and phenotyping. RESULTS: All individuals had biallelic TASP1 loss-of-function variants and a phenotype including developmental delay, multiple congenital anomalies (including cardiovascular and posterior fossa malformations), a distinct facial appearance and happy demeanor. Western blot revealed absence of TASP1. RNA sequencing/proteomics showed HOX gene downregulation (HOXA4, HOXA7, HOXA1 and HOXB2) and dysregulation of transcription factor TFIIA. A distinct methylation profile intermediate between control and Kabuki syndrome (KMT2D) profiles could be produced. Zebrafish tasp1 knock-out revealed smaller head size and abnormal cranial cartilage formation in tasp1 crispants. CONCLUSION: This work further delineates Suleiman-El-Hattab syndrome, a recognizable neurodevelopmental syndrome. Possible downstream mechanisms of TASP1 deficiency include perturbed HOX gene expression and dysregulated TFIIA complex. Methylation pattern suggests that Suleiman-El-Hattab syndrome can be categorized into the group of histone modification disorders including Wiedemann-Steiner and Kabuki syndrome.


Asunto(s)
Código de Histonas , Pez Cebra , Anomalías Múltiples , Animales , Endopeptidasas/genética , Cara/anomalías , Enfermedades Hematológicas , Histona Metiltransferasas/genética , Fenotipo , Factor de Transcripción TFIIA/genética , Enfermedades Vestibulares , Pez Cebra/genética
2.
Hum Mol Genet ; 29(13): 2218-2239, 2020 08 03.
Artículo en Inglés | MEDLINE | ID: mdl-32504085

RESUMEN

The RNA exosome is an essential ribonuclease complex required for processing and/or degradation of both coding and non-coding RNAs. We identified five patients with biallelic variants in EXOSC5, which encodes a structural subunit of the RNA exosome. The clinical features of these patients include failure to thrive, short stature, feeding difficulties, developmental delays that affect motor skills, hypotonia and esotropia. Brain MRI revealed cerebellar hypoplasia and ventriculomegaly. While we ascertained five patients, three patients with distinct variants of EXOSC5 were studied in detail. The first patient had a deletion involving exons 5-6 of EXOSC5 and a missense variant, p.Thr114Ile, that were inherited in trans, the second patient was homozygous for p.Leu206His and the third patient had paternal isodisomy for chromosome 19 and was homozygous for p.Met148Thr. The additional two patients ascertained are siblings who had an early frameshift mutation in EXOSC5 and the p.Thr114Ile missense variant that were inherited in trans. We employed three complementary approaches to explore the requirement for EXOSC5 in brain development and assess consequences of pathogenic EXOSC5 variants. Loss of function for exosc5 in zebrafish results in shortened and curved tails/bodies, reduced eye/head size and edema. We modeled pathogenic EXOSC5 variants in both budding yeast and mammalian cells. Some of these variants cause defects in RNA exosome function as well as altered interactions with other RNA exosome subunits. These findings expand the number of genes encoding RNA exosome subunits linked to human disease while also suggesting that disease mechanism varies depending on the specific pathogenic variant.


Asunto(s)
Antígenos de Neoplasias/genética , Cerebelo/anomalías , Discapacidades del Desarrollo/genética , Enanismo/genética , Complejo Multienzimático de Ribonucleasas del Exosoma/genética , Malformaciones del Sistema Nervioso/genética , Proteínas de Unión al ARN/genética , Animales , Cerebelo/patología , Discapacidades del Desarrollo/patología , Enanismo/patología , Mutación del Sistema de Lectura/genética , Homocigoto , Humanos , Mutación Missense/genética , Malformaciones del Sistema Nervioso/patología , Linaje , Pez Cebra/genética , Pez Cebra/crecimiento & desarrollo
3.
Genet Med ; 24(9): 1952-1966, 2022 09.
Artículo en Inglés | MEDLINE | ID: mdl-35916866

RESUMEN

PURPOSE: ZMYND8 encodes a multidomain protein that serves as a central interactive hub for coordinating critical roles in transcription regulation, chromatin remodeling, regulation of super-enhancers, DNA damage response and tumor suppression. We delineate a novel neurocognitive disorder caused by variants in the ZMYND8 gene. METHODS: An international collaboration, exome sequencing, molecular modeling, yeast two-hybrid assays, analysis of available transcriptomic data and a knockdown Drosophila model were used to characterize the ZMYND8 variants. RESULTS: ZMYND8 variants were identified in 11 unrelated individuals; 10 occurred de novo and one suspected de novo; 2 were truncating, 9 were missense, of which one was recurrent. The disorder is characterized by intellectual disability with variable cardiovascular, ophthalmologic and minor skeletal anomalies. Missense variants in the PWWP domain of ZMYND8 abolish the interaction with Drebrin and missense variants in the MYND domain disrupt the interaction with GATAD2A. ZMYND8 is broadly expressed across cell types in all brain regions and shows highest expression in the early stages of brain development. Neuronal knockdown of the DrosophilaZMYND8 ortholog results in decreased habituation learning, consistent with a role in cognitive function. CONCLUSION: We present genomic and functional evidence for disruption of ZMYND8 as a novel etiology of syndromic intellectual disability.


Asunto(s)
Discapacidad Intelectual , Trastornos del Neurodesarrollo , Encéfalo/metabolismo , Regulación de la Expresión Génica , Humanos , Discapacidad Intelectual/genética , Trastornos del Neurodesarrollo/genética , Trastornos del Neurodesarrollo/metabolismo , Dominios Proteicos , Secuenciación del Exoma
4.
Clin Genet ; 98(5): 499-506, 2020 11.
Artículo en Inglés | MEDLINE | ID: mdl-32799327

RESUMEN

Next-generation sequencing strategies have resulted in mutation detection rates of 21% to 61% in small cohorts of patients with microphthalmia, anophthalmia and coloboma (MAC), but despite progress in identifying novel causative genes, many patients remain without a genetic diagnosis. We studied a cohort of 19 patients with MAC who were ascertained from a population with high rates of consanguinity. Using single nucleotide polymorphism (SNP) arrays and whole exome sequencing (WES), we identified one pathogenic variant in TENM3 in a patient with cataracts in addition to MAC. We also detected novel variants of unknown significance in genes that have previously been associated with MAC, including KIF26B, MICU1 and CDON, and identified variants in candidate genes for MAC from the Wnt signaling pathway, comprising LRP6, WNT2B and IQGAP1, but our findings do not prove causality. Plausible variants were not found for many of the cases, indicating that our current understanding of the pathogenesis of MAC, a highly heterogeneous group of ocular defects, remains incomplete.


Asunto(s)
Anoftalmos/genética , Moléculas de Adhesión Celular/genética , Coloboma/genética , Proteínas de la Membrana/genética , Microftalmía/genética , Proteínas del Tejido Nervioso/genética , Proteínas Supresoras de Tumor/genética , Anoftalmos/patología , Proteínas de Unión al Calcio/genética , Proteínas de Transporte de Catión/genética , Coloboma/patología , Consanguinidad , Exoma/genética , Femenino , Secuenciación de Nucleótidos de Alto Rendimiento , Humanos , Cinesinas/genética , Masculino , Microftalmía/patología , Proteínas de Transporte de Membrana Mitocondrial/genética , Mutación/genética , Polimorfismo de Nucleótido Simple/genética , Secuenciación del Exoma
5.
EMBO Mol Med ; 14(5): e14904, 2022 05 09.
Artículo en Inglés | MEDLINE | ID: mdl-35362222

RESUMEN

In this report, we discovered a new entity named cataract, alopecia, oral mucosal disorder, and psoriasis-like (CAOP) syndrome in two unrelated and ethnically diverse patients. Furthermore, patient 1 failed to respond to regular treatment. We found that CAOP syndrome was caused by an autosomal recessive defect in the mitochondrial membrane-bound transcription factor peptidase/site-1 protease (MBTPS1, S1P). Mitochondrial abnormalities were observed in patient 1 with CAOP syndrome. Furthermore, we found that S1P is a novel mitochondrial protein that forms a trimeric complex with ETFA/ETFB. S1P enhances ETFA/ETFB flavination and maintains its stability. Patient S1P variants destabilize ETFA/ETFB, impair mitochondrial respiration, decrease fatty acid ß-oxidation activity, and shift mitochondrial oxidative phosphorylation (OXPHOS) to glycolysis. Mitochondrial dysfunction and inflammatory lesions in patient 1 were significantly ameliorated by riboflavin supplementation, which restored the stability of ETFA/ETFB. Our study discovered that mutations in MBTPS1 resulted in a new entity of CAOP syndrome and elucidated the mechanism of the mutations in the new disease.


Asunto(s)
Catarata , Psoriasis , Alopecia/genética , Catarata/genética , Flavoproteínas Transportadoras de Electrones/genética , Flavoproteínas Transportadoras de Electrones/metabolismo , Humanos , Riboflavina/metabolismo
6.
PLoS One ; 14(4): e0212121, 2019.
Artículo en Inglés | MEDLINE | ID: mdl-31017898

RESUMEN

Nonsense suppression therapy (NST) utilizes compounds such as PTC124 (Ataluren) to induce translational read-through of stop variants by promoting the insertion of near cognate, aminoacyl tRNAs that yield functional proteins. We used NST with PTC124 to determine if we could successfully rescue nonsense variants in human Bone Morphogenetic Protein 4 (BMP4) in vitro and in a zebrafish bmp4 allele with a stop variant in vivo. We transfected 293T/17 cells with wildtype or mutant human BMP4 cDNA containing p.Arg198* and p.Glu213* and exposed cells to 0-20 µM PTC124. Treatment with 20 µM PTC124 produced a small, non-significant increase in BMP4 when targeting the p.Arg198* allele, but not the p.Glu213* allele, as measured with an In-cell ELISA assay. We then examined the ability of PTC124 to rescue the ventral tail fin defects associated with homozygosity for the p.Glu209* allele of bmp4 (bmp4st72/st72) in Danio rerio. We in-crossed bmp4st72/+ heterozygous fish and found a statistically significant increase in homozygous larvae without tail fin and ventroposterior defects, consistent with phenotypic rescue, after treatment of dechorionated larvae with 0.5 µM PTC124. We conclude that treatment with PTC124 can rescue bmp4 nonsense variants, but that the degree of rescue may depend on sequence specific factors and the amount of RNA transcript available for rescue. Our work also confirms that zebrafish show promise as a useful animal model for assessing the efficacy of PTC124 treatment on nonsense variants.


Asunto(s)
Proteína Morfogenética Ósea 4/genética , Codón sin Sentido/efectos de los fármacos , Oxadiazoles/farmacología , Proteínas de Pez Cebra/genética , Pez Cebra/genética , Alelos , Animales , Terapia Genética , Células HEK293 , Humanos , Supresión Genética/efectos de los fármacos , Transfección
7.
Eur J Hum Genet ; 27(4): 582-593, 2019 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-30622326

RESUMEN

The Integrator complex subunit 1 (INTS1) is a component of the integrator complex that comprises 14 subunits and associates with RPB1 to catalyze endonucleolytic cleavage of nascent snRNAs and assist RNA polymerase II in promoter-proximal pause-release on protein-coding genes. We present five patients, including two sib pairs, with biallelic sequence variants in INTS1. The patients manifested absent or severely limited speech, an abnormal gait, hypotonia and cataracts. Exome sequencing revealed biallelic variants in INTS1 in all patients. One sib pair demonstrated a missense variant, p.(Arg77Cys), and a frameshift variant, p.(Arg1800Profs*20), another sib pair had a homozygous missense variant, p.(Pro1874Leu), and the fifth patient had a frameshift variant, p.(Leu1764Cysfs*16) and a missense variant, p.(Leu2164Pro). We also report additional clinical data on three previously described individuals with a homozygous, loss of function variant, p.(Ser1784*) in INTS1 that shared cognitive delays, cataracts and dysmorphic features with these patients. Several of the variants affected the protein C-terminus and preliminary modeling showed that the p.(Pro1874Leu) and p.(Leu2164Pro) variants may interfere with INTS1 helix folding. In view of the cataracts observed, we performed in-situ hybridization and demonstrated expression of ints1 in the zebrafish eye. We used Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)/Cas9 to make larvae with biallelic insertion/deletion (indel) variants in ints1. The mutant larvae developed typically through gastrulation, but sections of the eye showed abnormal lens development. The distinctive phenotype associated with biallelic variants in INTS1 points to dysfunction of the integrator complex as a mechanism for intellectual disability, eye defects and craniofacial anomalies.


Asunto(s)
Catarata/genética , Anomalías Craneofaciales/genética , Discapacidades del Desarrollo/genética , Proteína Wnt1/genética , Adolescente , Adulto , Animales , Catarata/fisiopatología , Niño , Preescolar , Anomalías Craneofaciales/fisiopatología , Discapacidades del Desarrollo/fisiopatología , Femenino , Mutación del Sistema de Lectura/genética , Gastrulación/genética , Humanos , Lactante , Cristalino/crecimiento & desarrollo , Cristalino/patología , Masculino , Mutación Missense/genética , Linaje , Pliegue de Proteína , Secuenciación del Exoma , Proteína Wnt1/química , Adulto Joven , Pez Cebra/genética
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