The binding activity to heparan sulphate is crucial for the mitogenic activity of fibroblast growth factor 4 (FGF4) in developing mammalian embryos. There are two conserved cysteine residues in FGF family proteins, Cys-84 and Cys-151 in mouse FGF4, and these constitute all of the cysteine residues in FGF4. However, the relationships among the heparin binding activity, growth promoting activity, and the two conserved cysteine residues in FGF4 are still unclear. Consequently, we generated in Escherichia coli three kinds of point-mutated mouse FGF4, namely C84S, C151S, and C84S;C151S, by converting the cysteine residues to serine residues. In heparin column chromatography, the heparin binding activities of these mutants were attenuated. In particular, the activity of the double-mutated C84S;C151S was weakened considerably. The growth promoting activities of these mutants correlated well with their heparin binding activities. We also demonstrated that an octapeptide, the Leu-76 to Tyr-83 region, which contained four basic amino acid residues and flanked Cys-84 in mouse FGF4, enhanced the heparin binding activity when fused to glutathione-S-transferase as a recombinant protein. Overall, our findings imply that the two conserved cysteine residues in FGF4 are both involved in the heparin binding activity and mitogenicity likely by affecting the configuration of heparin binding sites in FGF4.
Generation of multiple cell types from embryonic stem (ES) cells and induced pluripotent stem cells is crucial to provide materials for regenerative medicine. EGAM1N has been found in preimplantation mouse embryos and mouse ES cells as a functionally unclassified homeoprotein. Recently, we reported that expression of EGAM1N suppressed the in vitro differentiation of ES cells into progenitor cells that arise in early embryogenesis. To clarify the effect of EGAM1N on terminal differentiation, embryoid bodies (EBs) were prepared from ES cells expressing exogenous Egam1n. In EBs expressing Egam1n, cardiomyogenesis was inhibited by impairing the expression of crucial transcription factors Brachyury T and Nkx2.5 in the generation of mesoderm and cardiomyocytes, respectively. Expression levels of Mef2c, another crucial gene for cardiomyogenesis, were unaffected. Conversely, the expression levels of Gata6 and Plat, markers for the primitive endoderm lineage, and Cdx2, a marker for the trophectoderm lineage, were increased. These results suggested that certain cell populations in EBs expressing Egam1n preferentially differentiated to such cell lineages. Our results suggest that EGAM1N not only affects the generation of progenitor cells during early embryogenesis, but also the progression of terminal differentiation, such as cardiomyogenesis, in mouse ES cells.
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