Derivation, Characterization and Differentiation of Human Embryonic Stem Cells: Comparing Serum-containing Versus Serum-free Media and Evidence of Germ Cell Differentiation

Overview

Journal Hum Reprod

Publisher Oxford University Press

Specialty Reproductive Medicine

Date 2006 Oct 31

PMID 17071820

Citations 52

Authors

H-F Chen

H-C Kuo

C-L Chien

C-T Shun

Y-L Yao

P-L Ip

C-Y Chuang

C-C Wang

Y-S Yang

H-N Ho

Affiliations

Soon will be listed here.

Abstract

Background: This study was designed to establish human embryonic stem cell (hESC) lines, to identify the differences when maintained in serum-containing versus serum-free medium and to test their potential of in vitro differentiation.

Methods: Procedures including immunosurgery were performed on 11 donated human blastocysts to establish hESC lines. The cell lines were characterized and maintained using either serum-free or serum-containing media to compare their morphology, Oct-4 expression, apoptosis and growth speed. Differentiation of these lines was evaluated by the morphology and the expression of genes belonging to the three embryonic germ layers and the germ cell lineage.

Results: Three hESC lines were established, and they grew at similar speed in both media (serum-containing or serum-free), but hESC cultured in serum-containing medium yielded significantly higher percentages of morphologically good colonies and cells expressing Oct-4. These cell lines differentiated spontaneously in vitro into cells expressing markers belonging to all three embryonic germ layers and germ cell markers, including c-Kit, STELLA, VASA and growth differentiation factor 9 (GDF9), in directly adherent culture.

Conclusions: Three hESC lines with Taiwanese ancestry have been established, and they retain the in vitro differentiation potential with or without embryoid body (EB) formation. The data support that hESC may be capable of differentiation into germ cells although further confirmation is needed. It is also suggested that strategies such as stepwise adaptation will be needed before implementing a serum-free culture condition for hESC lines that have previously been derived in a medium containing serum.

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