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1.
Mol Biol Rep ; 51(1): 233, 2024 Jan 28.
Artigo em Inglês | MEDLINE | ID: mdl-38282049

RESUMO

Dravet syndrome is a severe form of epilepsy characterised by recurrent seizures and cognitive impairment. It is mainly caused by variant in the SCN1A gene in 90% of cases, which codes for the α subunit of the voltage-gated sodium channel. In this study, we present one suspected case of Dravet syndrome in Moroccan child that underwent exome analysis and were confirmed by Sanger sequencing. The variant was identified in the SCN1A gene, and is a new variant that has never been described in the literature. The variant was found de nova in our case, indicating that it was not inherited from the parents. The variant, SCN1A c.965-2A>G p.(?), is located at the splice site and results in an unknown modification of the protein. This variant is considered pathogenic on the basis of previous studies. These results contribute to our knowledge of the SCN1A gene mutations associated with Dravet syndrome and underline the importance of genetic analysis in the diagnosis and confirmation of this disorder. Further studies are needed to better understand the functional consequences of this variant and its implications for therapeutic strategies in Dravet syndrome.


Assuntos
Epilepsias Mioclônicas , Epilepsia , Criança , Humanos , Epilepsias Mioclônicas/genética , Epilepsias Mioclônicas/diagnóstico , Canal de Sódio Disparado por Voltagem NAV1.1/genética , Epilepsia/genética , Mutação/genética , Análise de Sequência , Convulsões
2.
Mol Biol Rep ; 50(11): 9121-9128, 2023 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-37747683

RESUMO

BACKGROUND: Schuurs-Hoeijmakers syndrome, an autosomal dominant neurodevelopmental genetic disorder, is a rare cause of intellectual disability (ID) affecting approximately 1 to 3% of all over the world. Only 87 cases have been recorded to date, and oddly enough, the majority of them share the same mutation (c.607 C > T; p.R203W). CASE PRESENTATION: This study presents the first reported case in Morocco of a 12-year-old female patient with PACS1 syndrome, identified during a cohort study of 24 patients with intellectual disability. The syndrome is caused by a de novo mutation of the PACS1 gene, located on chromosome 11, resulting in a single amino acid modification on the PACS1 protein. The abnormal protein disrupts cellular transport processes, leading to intellectual developmental delay, facial dysmorphia, and congenital anomalies. METHODS AND RESULTS: Exome sequencing was employed to identify the genetic mutation, and Sanger sequencing validated the presence of the recurrent mutation c.607 C > T (p.Arg203Trp) in the PACS1 gene. The mutation was found to be heterozygous and de novo, suggesting that it was not inherited from the patient's parents. Classification based on the American College of Medical Genetics and Genomics (ACMG) criteria confirmed its pathogenicity, with supporting evidence from bioinformatics analysis. The rarity of this variant in population databases further supports its pathogenic nature. CONCLUSION: This study expands our understanding of Schuurs-Hoeijmakers syndrome, a disorder with limited reported cases globally. The genetic heterogeneity of the disorder is highlighted, with the recurrent mutation being the most common pathogenic variant. Functional studies indicate the crucial role of PACS1 in craniofacial development and neurodevelopmental processes, with potential implications for autism spectrum disorders (ASD). Comprehensive genetic analyses are essential for accurate diagnosis and understanding the underlying causes of intellectual disabilities. Further research is warranted to unravel the mechanisms and potential therapeutic targets associated with PACS1-related neurodevelopmental disorders.


Assuntos
Deficiência Intelectual , Feminino , Humanos , Criança , Deficiência Intelectual/genética , Deficiência Intelectual/diagnóstico , Heterozigoto , Estudos de Coortes , Mutação/genética , Síndrome , Proteínas de Transporte Vesicular/genética
3.
Cureus ; 15(8): e43376, 2023 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-37700958

RESUMO

This case report focuses on a 33-year-old male patient with a history of infertility, characterized by severe micro-oligo-asthenospermia. Subsequent analysis revealed the presence of multi-headed and multi-flagellated spermatozoa, indicating a potential case of macrocephalic spermatozoa syndrome linked to a mutation in the AURKC gene. Genetic testing confirmed the presence of a pathogenic mutation, c.144delC, in a homozygous state in the AURKC gene. The AURKC gene is known to play a vital role in meiosis during sperm production, and its mutation can lead to abnormalities in sperm morphology and function, resulting in conditions like macrozoospermia and male infertility. Additionally, the patient was diagnosed with a grade III varicocele on the left testicle, which further contributed to his infertility. Varicoceles are associated with decreased sperm production and quality, making them one of the common reversible causes of male infertility. This case highlights the significance of comprehensive diagnostic approaches, including spermogram, ultrasonography, and genetic testing, in managing male infertility cases. It also emphasizes the intricate interplay between genetic mutations and physical conditions in the manifestation of male infertility. Further research is warranted to elucidate the mechanisms underlying AURKC-related sperm abnormalities and to develop effective therapeutic interventions. Moreover, a deeper understanding of such genetic factors may aid in the development of genetic counseling strategies for couples experiencing infertility.

4.
Cureus ; 15(9): e45765, 2023 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-37872917

RESUMO

Acute myeloid leukemia (AML) is a heterogeneous and aggressive form of blood cancer characterized by the uncontrolled proliferation of myeloid precursor cells in the bone marrow. It affects individuals of all ages, with incidence increasing notably in those over 65 years old. Despite advancements in treatment, overall survival rates remain unsatisfactory, underscoring the need for a deeper understanding of the disease. Among the various genetic alterations implicated in AML pathogenesis, mutations in the FLT3 (Fms-like tyrosine kinase 3) gene have emerged as significant contributors to leukemogenesis. The FLT3 ​​​​​gene encodes a type III receptor tyrosine kinase crucial in regulating normal hematopoiesis. Approximately one-third of AML patients carry FLT3 mutations, making it one of the most frequently mutated genes in the disease. FLT3 mutations can be classified into internal tandem duplications (ITDs) and point mutations in the tyrosine kinase domain (TKD). FLT3 mutations are associated with adverse clinical features and are independent prognostic factors for poor overall survival and decreased remission rates in AML patients. Understanding the molecular mechanisms underlying FLT3 mutations in AML is critical for improving risk stratification, prognosis assessment, and the development of targeted therapies. By reviewing the current literature, this study aims to elucidate the functional consequences of FLT3 mutations in AML pathogenesis, explore the interaction of FLT3 signaling with other oncogenic pathways, and assess the prognostic significance of FLT3 mutations in clinical practice, providing information that can guide future research directions and facilitate the development of more effective therapeutic strategies.

5.
Cureus ; 15(10): e46456, 2023 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-37927744

RESUMO

Autosomal dominant intellectual development disorder-6 (MRD6) arises from a grin2b gene mutation, inducing neurodevelopmental issues. The effects of MRD6 encompass cognitive disabilities, seizures, muscle tone decline, and autism-like traits. Its severity ranges from mild impairment to severe epilepsy. The disorder's rarity is emphasized by roughly 100 reported GRIN2B-related cases, spotlighting the gene's significance in brain development. We present the case of a three-year-old Moroccan boy who was referred to a neuropediatric department for a molecular diagnosis. Initial genetic testing yielded inconclusive results, and subsequent tests for Angelman syndrome and metabolic diseases showed no abnormalities. Given the complexity of the disorder, exome sequencing was employed to identify the underlying genetic cause. Exome sequencing identified a nonsense (STOP) mutation c.3912C>G (p.Tyr1304Ter) in the grin2b gene in the heterozygous state known to be present in MRD6 (Online Mendelian Inheritance in Man (OMIM) 613970). The family segregation study shows that this is a de novo variant, which is confirmed by Sanger sequencing. This variant has not been previously reported in the GnomAD database. Based on current scientific knowledge, the variant is considered pathogenic (PVS1, PS2, PM2, PP3, PP5) according to the criteria of the American College of Medical Genetics and Genomics (ACMG). The mutation in the grin2b gene (p.Tyr1304Ter) was predicted to be deleterious through bioinformatics analysis tools. This study highlights the crucial role of the grin2b gene in normal brain development and communication within the nervous system. It also sheds light on the impact of a novel genetic mutation, identified through exome sequencing, on causing an intellectual developmental disorder in a child patient from Morocco.

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