Your search keyword '"Pathogenic variant"' showing total 7 results

1. A pathogenic variant in the transforming growth factor beta I (TGFBI) in four Iranian extended families segregating granular corneal dystrophy type II: A literature review.

Author

Mohammadi, Aliasgar, Shadmehri, Azam Ahmadi, Taghavi, Mahnaz, Yaghoobi, Gholamhossein, Pourreza, Mohammad Reza, and Tabatabaiefar, Mohammad Amin

Subjects

*CORNEAL dystrophies, *TRANSFORMING growth factors-beta, *EXTENDED families, *LITERATURE reviews

Abstract

Objective(s): Granular and lattice corneal dystrophies (GCDs & LCDs) are autosomal dominant inherited disorders of the cornea. Due to genetic heterogeneity and large genes, unraveling the mutation is challenging. Materials and Methods: Patients underwent comprehensive clinical examination, and targeted nextgeneration sequencing (NGS) was used for mutation detection. Co-segregation and in silico analysis was accomplished. Results: Patients suffered from GCD. NGS disclosed a known pathogenic variant, c.371G>A (p.R124H), in exon 4 of TGFBI. The variant co-segregated with the phenotype in the family. Homozygous patients manifested with more severe phenotypes. Variable expressivity was observed among heterozygous patients. Conclusion: The results, in accordance with previous studies, indicate that the c.371G>A in TGFBI is associated with GCD. Some phenotypic variations are related to factors such as modifier genes, reduced penetrance and environmental effects. [ABSTRACT FROM AUTHOR]

Published

2020

2. A novel pathogenic variant in the LRTOMT gene causes autosomal recessive non-syndromic hearing loss in an Iranian family.

Author

Sarmadi, Akram, Nasrniya, Samane, Soleimani Farsani, Maryam, Narrei, Sina, Nouri, Zahra, Sepehrnejad, Mahsa, Nilforoush, Mohammad Hussein, Abtahi, Hamidreza, and Tabatabaiefar, Mohammad Amin

Subjects

*RECESSIVE genes, *HEARING disorders, *MEDICAL genetics, *ETIOLOGY of diseases, *PATHOLOGY, *GENETIC disorders

Abstract

Background: Hearing loss (HL) is the most common sensorineural disorder with high phenotypic and genotypic heterogeneity, which negatively affects life quality. Autosomal recessive non-syndromic hearing loss (ARNSHL) constitutes a major share of HL cases. In the present study, Whole exome sequencing (WES) was applied to investigate the underlying etiology of HL in an Iranian patient with ARNSHL. Methods: A proband from an Iranian consanguineous family was examined via WES, following GJB2 sequencing. WES was utilized to find possible genetic etiology of the disease. Various Bioinformatics tools were used to assess the pathogenicity of the variants. Co-segregation analysis of the candidate variant was carried out. Interpretation of variants was performed according to the American College of Medical Genetics and Genomics (ACMG) guidelines. Results: WES results showed a novel frameshift (16 bp deletion) variant (p.Ala170Alafs*20) in the LRTOMT gene. This variant, which resides in exon 6, was found to be co-segregating in the family. It fulfils the criteria set by the ACMG guidelines of being pathogenic. Conclusion: Here, we report successful application of WES to identify the molecular pathogenesis of ARNSHL, which is a genetically heterogeneous disorder, in a patient with ARNSHL. [ABSTRACT FROM AUTHOR]

Published

2020

3. Sjögren-Larsson syndrome. Pathogenic variant analysis of ALDH3A2 gene in six Iranian families.

Author

Ahmadi, S., Davoudi-Dehaghani, E., Bagherian, H., Jamali, P., Shirzad, T., Ramezan, F., Jamali, M., Vahidnezhad, H., and Zeinali, S.

Subjects

*FAMILIES, *GENES, *SYNDROMES, *DIAGNOSIS methods, *PARENTS

Abstract

Sjögren-Larsson syndrome (SLS) is a rare autosomal recessive disorder. The actual study is aimed at performing pathogenic variant analysis of ALDH3A2 gene in Iranian patients with SLS. The study was performed on six SLS families in Iran. All the patients had consanguineous parents. A medical history was obtained from the families and clinical examination was carried out on the patients. Sanger sequencing was used to analyse all exons of ALDH3A2 gene and their boundary regions. Co-segregation analysis of the identified variants with the disease was performed in each family. A novel variant c.1253delC and three reported pathogenic variants c.798+5G>A, c.943C>T and c.683G>A were found in these families. A pathogenic variant was detected in half of the families. The identification of common pathogenic variants in the ALDH3A2 gene in Iran can be helpful to design a proper diagnostic test for SLS in this country. More studies are needed to characterize variants responsible for this disease in Iran. [ABSTRACT FROM AUTHOR]

Published

2019

4. Dilated cardiomyopathy caused by a pathogenic nucleotide variant in RBM20 in an Iranian family.

Author

Malakootian M, Bagheri Moghaddam M, Kalayinia S, Farrashi M, Maleki M, Sadeghipour P, and Amin A

Subjects

Adult, Heterozygote, Humans, Iran, Male, Nucleotides, Pedigree, Exome Sequencing, Cardiomyopathy, Dilated genetics

Abstract

Introduction: Dilated cardiomyopathy (DCM) is characterized by the dilation and impaired contraction of 1 or both ventricles and can be caused by a variety of disorders. Up to 50% of idiopathic DCM cases have heritable familial diseases, and the clinical screening of family members is recommended. Identifying a genetic cause that can explain the DCM risk in the family can help with better screening planning and clinical decision-making. Whole-exome sequencing (WES) has aided significantly in the detection of causative genes in many genetically heterogeneous diseases. In the present study, we applied WES to identify the causative genetic variant in a family with heritable DCM., Methods: WES was applied to identify genetic variants on a 26-year-old man as the proband of a family with DCM. Subsequently, Sanger sequencing was performed to confirm the variant in the patient and all the available affected and unaffected family members. The pathogenicity of the variant was evaluated through co-segregation analysis in the family and employment of in silico predictive software., Results: WES demonstrated the missense pathogenic heterozygous nucleotide variant, c.1907G > A, (p.Arg636His, rs267607004, NM_0011343), in exon 9 of the RBM20 gene in the proband. The variant was co-segregated in all the affected family members in a heterozygous form and the unaffected family members. The in silico analysis confirmed the variant as pathogenic., Conclusion: Pathogenic RBM20 nucleotide variants are associated with arrhythmogenic DCM. We believe that our report is the first to show an RBM20 variant in Iranian descent associated with DCM., (© 2022. The Author(s).)

Published

2022

5. Whole exome sequencing identifies novel compound heterozygous pathogenic variants in the MYO15A gene leading to autosomal recessive non-syndromic hearing loss.

Author

Sarmadi A, Nasrniya S, Narrei S, Nouri Z, Abtahi H, and Tabatabaiefar MA

Subjects

Adult, Child, Exome genetics, Female, Genes, Recessive genetics, Genomics methods, Hearing Loss genetics, Humans, Iran, Male, Mutation genetics, Myosins metabolism, Pedigree, Exome Sequencing methods, Deafness genetics, Myosins genetics

Abstract

Autosomal recessive non-syndromic hearing loss (ARNSHL) is a highly heterogeneous disease, for which more than 70 genes have been identified. MYO15A mutations have been reported to cause congenital severe-to-profound HL. In this study, we applied the whole exome sequencing (WES) to find the cause of HL in an Iranian family. A proband from an Iranian non-consanguineous family with hearing impaired parents, was examined via WES, after excluding GJB2 mutations as the most common ARNSHL gene via Sanger sequencing. Co-segregation analysis of the candidate variant was done in the family members. Interpretation of variants was according to the American College of Medical Genetics and Genomics (ACMG) guidelines. WES results showed novel compound heterozygous variants (p.Arg1507Ter and p.Val2815Valfs*10) in the MYO15A gene. These two variants, residing in highly conserved regions, were found to be co-segregating in the family and fulfill the criteria of being categorized as pathogenic, according to the ACMG guidelines. Here, we report successful application of WES to identify the molecular pathogenesis of ARNSHL in a patient with ARNSHL, as an example of an extremely heterogeneous disease. In agreement with previous studies, MYO15A is regarded to be important in causing HL in Iran.

Published

2020

6. Next-generation sequencing reveals a novel pathological mutation in the TMC1 gene causing autosomal recessive non-syndromic hearing loss in an Iranian kindred.

Author

Sadeghian L, Tabatabaiefar MA, Fattahi N, Pourreza MR, Tahmasebi P, Alavi Z, and Hashemzadeh Chaleshtori M

Subjects

Female, Genetic Association Studies, Genetic Linkage, Hearing Loss, Sensorineural genetics, High-Throughput Nucleotide Sequencing, Humans, Iran, Male, Mutation, Pedigree, Phenotype, Exome Sequencing, Hearing Loss genetics, Membrane Proteins genetics

Abstract

Objectives: Hearing loss (HL) is the most common sensory-neural disorder with excessive clinical and genetic heterogeneity, which negatively affects life quality. Autosomal recessive non-syndromic hearing loss (ARNSHL) is the most common form of the disease with no specific genotype-phenotype correlation in most of the cases. Whole exome sequencing (WES) is a powerful tool to overcome the problem of finding mutations in heterogeneous disorders., Methods: A comprehensive clinical and pedigree examination was performed on a multiplex family from Khuzestan province suffering from hereditary HL. Direct sequencing of GJB2 and genetic linkage analysis of DFNB1A/B was accomplished. WES was utilized to find possible genetic etiology of the disease. Co-segregation analysis of the candidate variant was done. High resolution melting analysis was applied to detect variant status in 50 healthy matched controls., Results: Clinical investigations suggested ARNSHL in the pedigree. The family was negative for DFNB1A/B. WES revealed a novel nonsense mutation, c.256G > T (p.Glu86*), in TMC1 segregating with the phenotype in the pedigree. The variant was absent in the controls., Conclusion: Here, we report successful application of WES to identify the molecular pathogenesis of ARNSHL in a large family. The novel nonsense TMC1 variant meets the criteria of being pathogenic according to the ACMG-AMP variant interpretation guideline., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

7. A Novel Pathologic Variant in OTOF in an Iranian Family Segregating Hereditary Hearing Loss.

Author

Tabatabaiefar MA, Pourreza MR, Tahmasebi P, Saki N, Hashemzadeh Chaleshtori M, Salehi R, and Mohammadi-Asl J

Subjects

Connexin 26, Connexins genetics, Consanguinity, High-Throughput Nucleotide Sequencing, Homozygote, Humans, Iran, Mutation, Missense, Pedigree, Phenotype, Hearing Loss, Sensorineural genetics, Membrane Proteins genetics

Abstract

Objective Hearing loss (HL) is the most common sensory-neural defect and the most heterogeneous trait in humans, with the involvement of >100 genes, which make a molecular diagnosis problematic. Next-generation sequencing (NGS) is a new strategy that can overcome this problem. Study Design Descriptive experimental study. Setting Diagnostic laboratory. Subjects and Methods A comprehensive family history was obtained, and clinical evaluations and pedigree analysis were performed in a family with multiple individuals with HL. As the first tier, GJB2 was sequenced, and genetic linkage analysis of DFNB1A/B was performed to rule out the most common cause of the disease. Targeted NGS was used to unravel the molecular etiology of the disease in the HL-associated genes in the proband. Two homozygous variants remained in OTOF after proper filtration. Cosegregation and in silico analysis were done. Preimplantation genetic diagnosis (PGD) was accomplished via linkage analysis and direct sequencing of the pathogenic variant. Results Clinical evaluations suggested autosomal recessive nonsyndromic HL. Two homozygous variants, c.367G>A (p.Gly123Ser) and c.1392+1G>A, were identified in cis status. c.1392+1G>A met the criteria for being pathogenic according to the variant interpretation guideline of the American College of Medical Genetics and Genomics. PGD was successfully performed to prevent the recurrence of the disease in the related family. Conclusion A novel OTOF mutation causing HL was identified. Here, we report the effectiveness of the combined application of targeted NGS and PGD in diagnosis and prevention of hereditary HL.

Published

2018