Your search keyword '"Pahlavan S"' showing total 3 results

1. Down-Regulation of a Male-Specific H3K4 Demethylase, KDM5D , Impairs Cardiomyocyte Differentiation.

Author

Meyfour A, Pahlavan S, Ansari H, Baharvand H, and Salekdeh GH

Subjects

Cell Line, Down-Regulation, Gene Knockdown Techniques, Histone Demethylases genetics, Humans, Male, Minor Histocompatibility Antigens genetics, Myocytes, Cardiac physiology, RNA, Small Interfering, Cell Differentiation, Histone Demethylases metabolism, Minor Histocompatibility Antigens metabolism, Myocytes, Cardiac cytology

Abstract

Despite the small number of Y chromosome genes, their adequate expression is required for regulation of transcription, translation, and protein stability in males, not just for sex determination. In addition to the role in male fertility, the Y chromosome has a significant role in the development and sexual dimorphism of healthy and disease phenotypes. We observed that KDM5D along with its X-counterpart, KDM5C , are up-regulated during the cardiac mesoderm stage of development. Down-regulation of KDM5D using siRNA resulted in accumulation of differentiating cells in the S-phase of the cell cycle and impaired progression to cardiomyocytes as reflected by an altered expression pattern of cardiac progenitor specific markers. Furthermore, while control cells started spontaneous beating at a normal physiological range on day 7 of differentiation induction, no spontaneous beating was observed in KDM5D down-regulated cells. Interestingly, the knockdown of KDM5D had no significant effect on the expression level of its X-counterpart, KDM5C . Thus, we suggest that KDM5D , in cooperation with its X homologue as a dose-sensitive gene, may have an important role in cardiomyocyte differentiation. Our study presents further evidence on the contribution of Y chromosome genes to sex-dependent development outside of sex determination.

Published

2019

2. Y Chromosome Missing Protein, TBL1Y, May Play an Important Role in Cardiac Differentiation.

Author

Meyfour A, Ansari H, Pahlavan S, Mirshahvaladi S, Rezaei-Tavirani M, Gourabi H, Baharvand H, and Salekdeh GH

Subjects

Cell Differentiation, Embryonic Stem Cells cytology, Heart growth & development, Humans, Male, Proteins genetics, Proteins metabolism, RNA, Messenger metabolism, Chromosomes, Human, Y genetics, Myocardium cytology, Transducin physiology

Abstract

Despite evidence for sex-specific cardiovascular physiology and pathophysiology, the biological basis for this dimorphism remains to be explored. Apart from hormonal factors, gender-related characteristics may reside in the function of sex chromosomes during cardiac development. In this study, we investigated the differential expression of the male-specific region of the Y chromosome (MSY) genes and their X counterparts during cardiac differentiation of human embryonic stem cells (hESC). We observed alterations in mRNA and protein levels of TBL1Y, PCDH11Y, ZFY, KDM5D, USP9Y, RPS4Y1, DDX3Y, PRY, XKRY, BCORP1, RBMY, HSFY, and UTY, which accompanied changes in intracellular localization. Of them, the abundance of a Y chromosome missing protein, TBL1Y, showed a significant increase during differentiation while the expression level of its X counterpart decreased. Consistently, reducing TBL1Y cellular level using siRNA approach influenced cardiac differentiation by reducing its efficacy as well as increasing the probability of impaired contractions. TBL1Y knockdown may have negatively impacted cardiogenesis by CtBP stabilization. Furthermore, we presented compelling experimental evidence to distinguish TBL1Y from TBL1X, its highly similar X chromosome homologue, and proposed reclassification of TBL1Y as "found missing protein" (PE1). Our results demonstrated that MSY proteins may play an important role in cardiac development.

Published

2017

3. Chromosome-Centric Human Proteome Project Allies with Developmental Biology: A Case Study of the Role of Y Chromosome Genes in Organ Development.

Author

Meyfour A, Pooyan P, Pahlavan S, Rezaei-Tavirani M, Gourabi H, Baharvand H, and Salekdeh GH

Subjects

Humans, Proteome genetics, Chromosomes, Human, Y physiology, Developmental Biology, Organogenesis genetics

Abstract

One of the main goals of Chromosome-Centric Human Proteome Project is to identify protein evidence for missing proteins (MPs). Here, we present a case study of the role of Y chromosome genes in organ development and how to overcome the challenges facing MPs identification by employing human pluripotent stem cell differentiation into cells of different organs yielding unprecedented biological insight into adult silenced proteins. Y chromosome is a male-specific sex chromosome which escapes meiotic recombination. From an evolutionary perspective, Y chromosome has preserved 3% of ancestral genes compared to 98% preservation of the X chromosome based on Ohno's law. Male specific region of Y chromosome (MSY) contains genes that contribute to central dogma and govern the expression of various targets throughout the genome. One of the most well-known functions of MSY genes is to decide the male-specific characteristics including sex, testis formation, and spermatogenesis, which are majorly formed by ampliconic gene families. Beyond its role in sex-specific gonad development, MSY genes in coexpression with their X counterparts, as single copy and broadly expressed genes, inhibit haplolethality and play a key role in embryogenesis. The role of X-Y related gene mutations in the development of hereditary syndromes suggests an essential contribution of sex chromosome genes to development. MSY genes, solely and independent of their X counterparts and/or in association with sex hormones, have a considerable impact on organ development. In this Review, we present major recent findings on the contribution of MSY genes to gonad formation, spermatogenesis, and the brain, heart, and kidney development and discuss how Y chromosome proteome project may exploit developmental biology to find missing proteins.

Published

2017