ABSTRACT
AIM:To explore whether YAP protein is important in induced pluripotent stem cell ( iPSC)-induced cardiovascular progenitor cell and/or vascular smooth muscle differentiation .METHODS:Using episomal vector based reprogramming , we generated human iPSCs from donor fibroblasts .We used both this iPSCs and human H 1 embryonic stem cells to differentiate into vascular smooth muscle cells (VSMCs) through cardiovascular progenitor cells (CVPC).Western blotting, qPCR and immunofluorescence microscopy were used to check the expression of YAP and related genes during this differentiation process .RESULTS:The results showed that iPSCs expressed pluripotent stem cell markers, such as Oct4, Nanog, Sox2, TRA-1-60 and SSEA3, and could form teratoma in SCID mice.YAP was highly expressed in pluripotent stem cells , but dramatically decreased when CVPC differentiation started .YAP gradually increased dur-ing CVPC three-day differentiation.The TAZ and YAP binding partner TEAD1, but not TEAD2 and TEAD4, have similar expression pattern in CVPC differentiation .Immunofluorescence result confirmed that YAP was activated and accumulated in nucleus .Interesting-ly, both YAP and phosphorylated YAP expression decreased to very low level after CVPC differentiated into VSMCs in 7 days.TEAD4 and TAZ also decreased, while TEAD1, TEAD2 and TEAD3 expression did not change during VSMC differentiation .CONCLU-SION:YAP and TEAD1 expression increased during CVPC differentiation , while YAP and TEAD4 expression decreased from CVPC to VSMCs differentiation , which suggested YAP might have different function during diverse cell differentiation .
ABSTRACT
AIM: To define the gene expression changes of vascular smooth muscle cells (VSMCs) in response to norepinephrine (NE). METHODS: The expression adrenergic receptors (AR) were determined by radioligand binding assay in A7r5 cells. Gene expression profiles were identified by cDNA microarray after A7r5 cells were treated with NE for 24 h, and mRNA expressions of ? 1A -AR and ? 1B -AR were confirmed by real-time PCR. RESULTS: ? 1-AR and ?-AR existed in A7r5 cells. Seventy-five genes with changed expression in response to NE were screened out. These genes are involved in cell structure, cell/organism defense, metabolism, signal transduction and so on. ? 1A -, ? 1B -AR mRNA expression identified by microarray and realtime quantitive PCR displayed similar patterns. CONCLUSIONS: Gene expression profile in response to NE was analyzed comprehensively with the microarray technique. NE induces many kinds of different function genes in A7r5 cells, which may provide a novel insight into the particular role of NE that modulates multiple aspects of biological function in VSMCs. [