10 research outputs found
MicroRNA Profiling during Cardiomyocyte-Specific Differentiation of Murine Embryonic Stem Cells Based on Two Different miRNA Array Platforms
MicroRNA (miRNA) plays a critical role in a wide variety of biological processes. Profiling miRNA expression during differentiation of embryonic stem cells will help to understand the regulation pathway of differentiation, which in turn may elucidate disease mechanisms. The identified miRNAs could then serve as a new group of possible therapeutic targets. In the present paper, miRNA expression profiles were determined during cardiomyocyte-specific differentiation and maturation of murine embryonic stem (ES) cells. For this purpose a homogeneous cardiomyocyte population was generated from a transgenic murine ES cell line. Two high throughput array platforms (Affymetrix and Febit) were used for miRNA profiling in order to compare the effect of the platforms on miRNA profiling as well as to increase the validity of target miRNA identification. Four time points (i.e. day 0, day 12, day 19 and day 26) were chosen for the miRNA profiling study, which corresponded to different stages during cardiomyocyte-specific differentiation and maturation. Fifty platform and pre-processing method-independent miRNAs were identified as being regulated during the differentiation and maturation processes. The identification of these miRNAs is an important step for characterizing and understanding the events involved in cardiomyocyte-specific differentiation of ES cells and may also highlight candidate target molecules for therapeutic purposes
A Review of the Implementation of the Embryonic Stem Cell Test (EST)
The EST has been developed as an in vitro screening test for evaluating the potential embryotoxic effects of substances, to allow their classification into three major classes: non-embryotoxic; weakly embryotoxic; and strongly embryotoxic). It is biologically based on the assumption that chemicals with an embryotoxic potential will block the spontaneous development of embryonic stem
cells into beating cardiac muscle cells within the first 10 days of embryonic development . In 2002, the assay was endorsed by the ECVAM
Scientific Advisory Committee (ESAC) as scientifically validated and ready to be considered for regulatory acceptance and application. the workshop has reviewed the post validated status of the EST so far.JRC.DDG.I.3-In-vitro method