Your search keyword '"Rashvand Z"' showing total 3 results

1. Identification of a Novel Variant in CC2D1A Gene Linked to Autosomal Recessive Intellectual Disability 3 in an Iranian Family and Investigating the Structure and Pleiotropic Effects of this Gene.

Author

Rashvand Z, Najmabadi H, Kahrizi K, Mozhdehipanah H, Moradi M, Estaki Z, Taherkhani K, Nikzat N, Najafipour R, and Omrani MD

Abstract

Objectives: Intellectual disability (ID) represents a significant health challenge due to its diverse and intricate nature. A multitude of genes play a role in brain development and function, with defects in these genes potentially leading to ID. Considering that many of these genes have yet to be identified, and those identified have only been found in a small number of patients, no complete description of the phenotype created by these genes is available. CC2D1A is one of the genes whose loss-of-function mutation leads to a rare form of non-syndromic ID-3(OMIM*610055), and four pathogenic variants have been reported in this gene so far., Materials & Methods: n the current study, two affected females were included with an initial diagnosis of ID who were from an Iranian family with consanguineous marriage. Whole-exome sequencing was used to identify the probable genetic defects. The Genotypic and phenotypic characteristics of the patients were compared with a mutation in the CC2D1A gene, and then the structure of the gene and its reported variants were investigated., Results: The patients carried a novel homozygous splicing variant (NM_017721, c.1641+1G>A) in intron 14, which is pathogenic according to the ACMG guideline. Loss-of-function mutations in CC2D1A have severe phenotypic consequences such as ID, autism spectrum disorder (ASD), and seizures. However, missense mutations lead to ASD with or without ID, and in some patients, they cause ciliopathy., Conclusion: This study reports the fifth novel, probably pathogenic variant in the CC2D1A gene. Comparing the clinical and molecular genetic features of the patients with loss-of-function mutation helped to describe the phenotype caused by this gene more precisely. Investigating the  CC2D1A  gene's mutations and structure revealed that it performs multiple functions. The DM14 domain appears more pivotal in triggering severe clinical symptoms, including ID, than the C2 domain., Competing Interests: The authors have no conflicts of interest to declare., (© 2023 The Authors.)

Published

2024

2. Overexpression of PIN1 in patients with severe COVID-19.

Author

Lotfi H, Vafanezad F, Ansari S, Rashvand Z, Sadeghi H, Moghbelinejad S, Khoei SG, and Gheibi N

Abstract

This study aimed to investigate the significant expression of Peptidyl prolyl cis-trans isomerase (PIN1) as a key regulator of COVID-19 cycle. A quantitative real-time polymerase chain reaction (qRT-PCR) measured the expression levels of PIN1 in the serum of mild and severe patients and evaluated its association with clinical parameters. ROC curve analysis was performed to evaluate the expression of PIN1 for the diagnosis of COVID-19 between mild and severe patients. Expression of the PIN1 gene in severe patients (0.89±0.43) was higher than in mild patients (-2.28±0.34), and this difference was statistically significant between the two groups regardless of other factors (P‑value<0.0001). ROC curve analysis showed that high PIN1 levels in the discrimination of severe from mild patients could be useful. PIN1 expression levels were significantly associated with shortness of breath and cough. PIN1 can be considered an effective factor in the intensification of the symptoms of COVID-19., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Saeideh Gholamzadeh Khoei reports financial support was provided by Qazvin University of Medical Sciences. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

3. A novel variant of C12orf4 linked to autosomal recessive intellectual disability type 66 with phenotype expansion.

Author

Rashvand Z, Kahrizi K, Najmabadi H, Najafipour R, and Omrani MD

Subjects

Genes, Recessive, Humans, Iran, Mutation, Pedigree, Phenotype, Intellectual Disability genetics, Intellectual Disability pathology, Intracellular Signaling Peptides and Proteins genetics

Abstract

Background: Intellectual disability (ID) is a hallmark of many rare disorders that are highly heterogeneous and complex. A large number of specific genes are involved in development of this heterogeneity, and each of these genes is only found in a small number of patients. This weakens the definition of the predominant genotype and the phenotypic characteristics associated with that gene. Autosomal recessive ID type 66 (OMIM #618221) is one of these very rare diseases created by defects in the C12orf4 gene., Methods: The present study included two patients from an Iranian family with initial diagnosis of non-syndromic ID, aiming to identify the possible genetic cause(s), and whole-exome sequencing (WES) was performed for the proband. The obtained variant was confirmed by Sanger sequencing and co-segregated in the family., Results: The patients carried a novel pathogenic splicing variant called c.1441-1G>A in exon 12 of the C12orf4 gene (NM&#95;001304811). They predominantly manifested ID, behavioral problems, speech impairment and dysmorphic facial features, some of which had not been reported in previous studies., Conclusions: A novel pathogenic splicing variant was identified named c.1441-1G>A in the C12orf4 gene. To date, only seven families have been reported with defects in this gene. Previous studies have not highlighted the exact clinical manifestations of these patients; thus, the present study could contribute to a better delineation of the genotype-phenotype correlation and interpretation of very rare variants of the gene., (© 2021 John Wiley & Sons, Ltd.)

Published

2022