Your search keyword '"Sepideh Mehvari"' showing total 8 results

1. P292: Contribution of rare variants in the development of familial premature coronary artery disease in a cohort of cardiac patients

Author

Sepideh Mehvari, Nahid Karimian Fathi, Maryam Asadnezhad, Sanaz Arzhangi, Saeed Sadeghian, Mohammadali Boroumand, Fatemeh Shokohizadeh, Elham Rostami, Rahnama Boroumand, Reza Malekzadeh, Yasser Riazalhosseini, Mohammadreza Akbari, Mark Lathrop, Hossein Najmabadi, Kaveh Hosseini, and Kimia Kahrizi

Subjects

Genetics, QH426-470, Medicine

Published

2024

2. Whole genome sequencing identifies a duplicated region encompassing Xq13.2q13.3 in a large Iranian family with intellectual disability

Author

Sepideh Mehvari, Farzaneh Larti, Hao Hu, Zohreh Fattahi, Maryam Beheshtian, Seyedeh Sedigheh Abedini, Sanaz Arzhangi, Hans‐Hilger Ropers, Vera M. Kalscheuer, Daniel Auld, Kimia Kahrizi, Yasser Riazalhosseini, and Hossein Najmabadi

Subjects

intellectual disability, whole genome sequencing, Xq duplication, Xq13.2q13.3, Genetics, QH426-470

Abstract

Abstract Background The X chromosome has historically been one of the most thoroughly investigated chromosomes regarding intellectual disability (ID), whose etiology is attributed to many factors including copy number variations (CNVs). Duplications of the long arm of the X chromosome have been reported in patients with ID, short stature, facial anomalies, and in many cases hypoplastic genitalia and/or behavioral abnormalities. Methods Here, we report on a large Iranian family with X‐linked ID caused by a duplication on the X chromosome identified by whole genome sequencing in combination with linkage analysis. Results Seven affected males in different branches of the family presented with ID, short stature, seizures, facial anomalies, behavioral abnormalities (aggressiveness, self‐injury, anxiety, impaired social interactions, and shyness), speech impairment, and micropenis. The duplication of the region Xq13.2q13.3, which is ~1.8 Mb in size, includes seven protein‐coding OMIM genes. Three of these genes, namely SLC16A2, RLIM, and NEXMIF, if impaired, can lead to syndromes presenting with ID. Of note, this duplicated region was located within a linkage interval with a LOD score >3. Conclusion Our report indicates that CNVs should be considered in multi‐affected families where no candidate gene defect has been identified in sequencing data analysis.

Published

2020

3. Whole genome sequencing identifies a duplicated region encompassing Xq13.2q13.3 in a large Iranian family with intellectual disability

Author

Hans-Hilger Ropers, Sepideh Mehvari, Zohreh Fattahi, Maryam Beheshtian, Daniel Auld, Hossein Najmabadi, Yasser Riazalhosseini, Kimia Kahrizi, Farzaneh Larti, Vera M. Kalscheuer, Sanaz Arzhangi, Seyedeh Sedigheh Abedini, and Hao Hu

Subjects

0301 basic medicine, Male, Monocarboxylic Acid Transporters, Candidate gene, lcsh:QH426-470, Ubiquitin-Protein Ligases, Nerve Tissue Proteins, 030105 genetics & heredity, Biology, Short stature, Clinical Reports, 03 medical and health sciences, Genetic linkage, Intellectual disability, Gene duplication, Chromosome Duplication, Genetics, medicine, Humans, Copy-number variation, Genetic Testing, Molecular Biology, Genetics (clinical), X chromosome, Whole genome sequencing, Chromosomes, Human, X, whole genome sequencing, Clinical Report, Symporters, Xq13.2q13.3, Genetic Diseases, X-Linked, Xq duplication, medicine.disease, Pedigree, lcsh:Genetics, 030104 developmental biology, intellectual disability, medicine.symptom

Abstract

Background The X chromosome has historically been one of the most thoroughly investigated chromosomes regarding intellectual disability (ID), whose etiology is attributed to many factors including copy number variations (CNVs). Duplications of the long arm of the X chromosome have been reported in patients with ID, short stature, facial anomalies, and in many cases hypoplastic genitalia and/or behavioral abnormalities. Methods Here, we report on a large Iranian family with X‐linked ID caused by a duplication on the X chromosome identified by whole genome sequencing in combination with linkage analysis. Results Seven affected males in different branches of the family presented with ID, short stature, seizures, facial anomalies, behavioral abnormalities (aggressiveness, self‐injury, anxiety, impaired social interactions, and shyness), speech impairment, and micropenis. The duplication of the region Xq13.2q13.3, which is ~1.8 Mb in size, includes seven protein‐coding OMIM genes. Three of these genes, namely SLC16A2, RLIM, and NEXMIF, if impaired, can lead to syndromes presenting with ID. Of note, this duplicated region was located within a linkage interval with a LOD score >3. Conclusion Our report indicates that CNVs should be considered in multi‐affected families where no candidate gene defect has been identified in sequencing data analysis., We report a duplication on the X chromosome encompassing Xq13.2q13.3 in a large Iranian family with X‐linked intellectual disability. There are seven affected males in ones and twos within two generations of the pedigree who presented with a similar phenotype, including ID, short stature, seizures, facial anomalies, behavioral abnormalities, speech impairment, and micropenis.

Published

2020

4. Author response for 'Comprehensive genotype-phenotype correlation in AP-4 deficiency syndrome; Adding data from a large cohort of Iranian patients'

Author

Seyedeh Sedigheh Abedini, Vera M. Kalscheuer, Sanaz Arzhangi, Hossein Najmabadi, Zohreh Fattahi, Maryam Beheshtian, Reza Najafipour, Hao Hu, K. Kahrizi, Mahsa Fadaee, Hans-Hilger Ropers, Payman Jamali, Sepideh Mehvari, Tara Akhtarkhavari, and Marzieh Mohseni

Subjects

Oncology, Correlation, medicine.medical_specialty, Deficiency syndrome, business.industry, Internal medicine, medicine, business, Genotype phenotype, Large cohort

Published

2020

5. Comprehensive genotype-phenotype correlation in AP-4 deficiency syndrome; Adding data from a large cohort of Iranian patients

Author

Seyedeh Sedigheh Abedini, Zohreh Fattahi, Kimia Kahrizi, Maryam Beheshtian, Hossein Najmabadi, Marzieh Mohseni, Sepideh Mehvari, Payman Jamali, Tara Akhtarkhavari, Hans-Hilger Ropers, Vera M. Kalscheuer, Hao Hu, Sanaz Arzhangi, Mahsa Fadaee, and Reza Najafipour

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Microcephaly, Adolescent, Adaptor Protein Complex 4, Consanguinity, 030105 genetics & heredity, Iran, Quadriplegia, Corpus Callosum, Cohort Studies, 03 medical and health sciences, Internal medicine, Intellectual Disability, Intellectual disability, Genetics, medicine, Humans, Spasticity, Global developmental delay, Child, Spastic tetraplegia, Genetics (clinical), Genetic Association Studies, business.industry, Brain, medicine.disease, Phenotype, Pedigree, 030104 developmental biology, Child, Preschool, Mutation, Female, medicine.symptom, business, Ventriculomegaly

Abstract

Mutations in adaptor protein complex‐4 (AP‐4) genes have first been identified in 2009, causing a phenotype termed as AP‐4 deficiency syndrome. Since then several patients with overlapping phenotypes, comprised of intellectual disability (ID) and spastic tetraplegia have been reported. To delineate the genotype‐phenotype correlation of the AP‐4 deficiency syndrome, we add the data from 30 affected individuals from 12 out of 640 Iranian families with ID in whom we detected disease‐causing variants in AP‐4 complex subunits, using next‐generation sequencing. Furthermore, by comparing genotype‐phenotype findings of those affected individuals with previously reported patients, we further refine the genotype‐phenotype correlation in this syndrome. The most frequent reported clinical findings in the 101 cases consist of ID and/or global developmental delay (97%), speech disorders (92.1%), inability to walk (90.1%), spasticity (77.2%), and microcephaly (75.2%). Spastic tetraplegia has been reported in 72.3% of the investigated patients. The major brain imaging findings are abnormal corpus callosum morphology (63.4%) followed by ventriculomegaly (44.5%). Our result might suggest the AP‐4 deficiency syndrome as a major differential diagnostic for unknown hereditary neurodegenerative disorders.

Published

2020

6. Effect of inbreeding on intellectual disability revisited by trio sequencing

Author

Payman Jamali, Zhila Ghaderi, Hans-Hilger Ropers, Haleh Habibi, Fatemeh Pourfatemi, Farahnaz Sabbagh Kermani, Zohreh Mehrjoo, Kimia Kahrizi, Farnaz Sadeghinia, Hao Hu, Vera M. Kalscheuer, Bettina Lipkowitz, Reza Najafipour, Sanaz Arzhangi, Maryam Rahimi, Pooneh Nikuei, Atefeh Khoshaeen, Marzieh Mohseni, Masoumeh Hosseini, Hossein Najmabadi, Vanessa Suckow, Milad Falahat Chian, Faezeh Mojahedi, Sepideh Mehvari, Zohreh Fattahi, Maryam Beheshtian, Roshanak Jazayeri, Mohammad-Reza Khodaie-Ardakani, S. Hassan Tonekaboni, Tara Akhtarkhavari, and Thomas F. Wienker

Subjects

Male, 0301 basic medicine, Genes, Recessive, Iran, 030105 genetics & heredity, Biology, Carrier testing, Consanguinity, Middle East, 03 medical and health sciences, Intellectual Disability, Exome Sequencing, Intellectual disability, Genetics, medicine, Humans, Exome, Family, Inbreeding, Genetics (clinical), De novo mutations, Exome sequencing, High rate, Homozygote, Disease gene identification, medicine.disease, Pedigree, 030104 developmental biology, Parental consanguinity, Mutation, Female

Abstract

In outbred Western populations, most individuals with intellectual disability (ID) are sporadic cases, dominant de novo mutations (DNM) are frequent, and autosomal recessive ID (ARID) is very rare. Due to the high rate of parental consanguinity which raises the risk for ARID and other recessive disorders, the prevalence of ID is significantly higher in Near- and Middle-East countries. Indeed, homozygosity mapping and sequencing in consanguineous families have already identified a plethora of ARID genes, but due to the design of these studies, DNMs could not be systematically assessed, and the proportion of cases that are potentially preventable by avoiding consanguineous marriages or through carrier testing is hitherto unknown. This prompted us to perform whole exome sequencing in 100 sporadic ID patients from Iran and their healthy consanguineous parents. In 61 patients, we identified apparently causative changes in known ID genes. Of these, 44 were homozygous recessive and 17 dominant de novo mutations. Assuming that the DNM rate is stable, these results suggest that parental consanguinity raises the ID risk about 3.6-fold, and about 4.1-4.25-fold for children of first-cousin unions. These results do not rhyme with recent opinions that consanguinity-related health risks are generally small and have been 'overstated' in the past. This article is protected by copyright. All rights reserved.

Published

2018

7. Genetics of intellectual disability in consanguineous families

Author

Sarah Azimi, Leila Nouri Vahid, Krystyna Keleman, Pooneh Nikuei, Tara Akhtarkhavari, Thomas F. Wienker, Beate Albrecht, Hossein Khodaei, Mohammad Reza Ebrahimpour, Mohammad Javad Soltani Banavandi, Marzieh Mohseni, Vanessa Suckow, Aria Jankhah, Milad Bastami, Behzad Davarnia, Vera M. Kalscheuer, Farzaneh Larti, Saeide Akbari, Kimia Kahrizi, Jamileh Rezazadeh Varaghchi, Bettina Lipkowitz, Sanaz Arzhangi, Morteza Oladnabi, Monika Cohen, Sabine Otto, Zohreh Fattahi, Luciana Musante, Payman Jamali, Maryam Beheshtian, Masoumeh Hosseini, Maryam Taghdiri, Wei Chen, Seyedeh Sedigheh Abedini, Bernd Timmermann, Hans-Hilger Ropers, Andreas Tzschach, Gholamreza Bahrami, Birgit Zirn, Hossein Najmabadi, Dagmar Wieczorek, Ingrid Bader, Gabriele Gillessen-Kaesbach, Cornelia Oppitz, Elaheh Papari, Hao Hu, Ralf Herwig, Fatemeh Pourfatemi, Jutta Gärtner, Faezeh Mojahedi, Hossein Dehghani, Sepideh Mehvari, and Seyed Hassan Tonekaboni

Subjects

Adult, Male, 0301 basic medicine, Medizin, Genes, Recessive, Consanguinity, Iran, Biology, DNA sequencing, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Intellectual Disability, Exome Sequencing, Intellectual disability, medicine, Humans, Exome, Family, Protein Interaction Maps, Molecular Biology, Gene, De novo mutations, Affected offspring, Whole genome sequencing, Genetics, Whole Genome Sequencing, Homozygote, High-Throughput Nucleotide Sequencing, Middle Aged, medicine.disease, Pedigree, Psychiatry and Mental health, 030104 developmental biology, Mutation, Female, 030217 neurology & neurosurgery

Abstract

Autosomal recessive (AR) gene defects are the leading genetic cause of intellectual disability (ID) in countries with frequent parental consanguinity, which account for about 1/7th of the world population. Yet, compared to autosomal dominant de novo mutations, which are the predominant cause of ID in Western countries, the identification of AR-ID genes has lagged behind. Here, we report on whole exome and whole genome sequencing in 404 consanguineous predominantly Iranian families with two or more affected offspring. In 219 of these, we found likely causative variants, involving 77 known and 77 novel AR-ID (candidate) genes, 21 X-linked genes, as well as 9 genes previously implicated in diseases other than ID. This study, the largest of its kind published to date, illustrates that high-throughput DNA sequencing in consanguineous families is a superior strategy for elucidating the thousands of hitherto unknown gene defects underlying AR-ID, and it sheds light on their prevalence.

Published

2019

8. Author response for 'Effect of inbreeding on intellectual disability revisited by Trio sequencing'

Author

Mohammad-Reza Khodaie-Ardakani, Farahnaz Sabbagh Kermani, K. Kahrizi, Roshanak Jazayeri, Pooneh Nikuei, Payman Jamali, Masoumeh Hosseini, Faezeh Mojahedi, Tara Akhtarkhavari, Zhila Ghaderi, Sepideh Mehvari, Atefeh Khoshaeen, Zohreh Fattahi, Marzieh Mohseni, Maryam Beheshtian, Zohreh Mehrjoo, Haleh Habibi, Vera M. Kalscheuer, Hao Hu, Bettina Lipkowitz, Hossein Najmabadi, Sanaz Arzhangi, Fatemeh Pourfatemi, Thomas F. Wienker, Vanessa Suckow, Seyed Hassan Tonekaboni, Hans-Hilger Ropers, Farnaz Sadeghinia, Reza Najafipour, Maryam Rahimi, and Milad Falahat Chian

Subjects

Intellectual disability, medicine, Psychology, medicine.disease, Inbreeding, Genealogy

Published

2018