Bone morphogenetic protein acts as a ventral mesoderm modifier in early Xenopus embryos.

Abstract

Mesoderm of early vertebrate embryos gradually acquires dorsal-ventral polarity during embryogenesis. This specification of mesoderm is thought to be regulated by several polypeptide growth factors. Bone morphogenetic protein (BMP), a member of the TGF-β family, is one of the regulators suggested to be involved in the formation of ventral mesoderm. In this paper, the nature of the endogenous BMP signal in dorsal-ventral specification was assessed in early Xenopus embryos using a dominant negative mutant of the Xenopus BMP receptor. In ectodermal explant assays, disruption of endogenous BMP signaling by the mutant receptor changed the competence of the explant cells to mesoderm-inducing factors, activin and basic fibroblast growth factor (bFGF), and led to formation of neural tissue without mesoderm induction. This result suggests that endogenous BMP acts as a ventral mesoderm modifier rather than a ventral mesoderm inducer, and that interactions between endogenous BMP and mesoderm-inducing factors may be important in dorsal-ventral patterning of embryonic mesoderm. In addition, the induction of neural tissue by inhibition of the BMP signaling pathway also suggests involvement of BMP in neural induction.