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In Vitro Differentiated Functional Cardiomyocytes from Parthenogenetic Mouse Embryonic Stem Cells  

Shin Hyun-Ah (Maria Infertility Hospital Medical Institute/Maria Biotech)
Kim Eun-Young (Maria Infertility Hospital Medical Institute/Maria Biotech)
Lee Keum-Sil (Maria Infertility Hospital Medical Institute/Maria Biotech)
Cho Hwang-Yun (Maria Infertility Hospital Medical Institute/Maria Biotech)
Lee Won-Don (Maria Infertility Hospital)
Park Se-Pill (Maria Infertility Hospital Medical Institute/Maria Biotech)
Lim Jin-Ho (Maria Infertility Hospital)
Publication Information
Reproductive and Developmental Biology / v.30, no.1, 2006 , pp. 47-52 More about this Journal
Abstract
This study was conducted to examine whether the parthenogenetic mouse embryonic stem (P-mES) cells can differentiate into functional cardiomyocytes in vitro similar to (mES) cells. p-mES04 and IVF-derived mES03 cells were cultured by suspension culture for 4 days. The formed embryoid bodies (EBs) were treated with 0.75% dimethyl-sulfoxide (DMSO) for further 4 days (4-/4+), and then plated onto gelatin coated culture dish. The appearance of contracting cardiomyocytes from the P-mES04 and mES03 cells was examined for 30 days. The highest cumulative frequency was detected at days 13 (69.83%) and 22 (61.3%), respectively. By immunocytochemistry, beating P-mES04 cells were positively stained with muscle specific anti-sarcomeric a-actinin Ab and cardiac specific anti-cardiac troponin I Ab similar to contracted mES03 cells. When the expression of cardiac muscle-specific genes was analyzed by RT-PCR, beating P-mES04 cells were expressed cardiac specific L-type calcium channel, a1C, cardiac myosin heavy chain a, cardiac muscle heavy polypeptide $7{\beta}$, GATA binding protein 4 and atrial natriuretic factor, but not expressed skeletal muscle specific L-type calcium channel, a1S, which was similar to male adult heart cells and mES03-derived beating cardiomyocytes. The result demonstrates that the P-mES cells can be used as an alternative for the study on the characteristic analysis of in vitro cardiomyocyte differentiation from the ES cells.
Keywords
Parthenogentic mouse embryonic stem cell; Cardiomyocyte; Gene expression;
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