AltFGF-2, A Novel ER-Associated FGF-2 Protein Isoform: Its Embryonic Distribution and Functional Analysis during Neural Tube Development

Abstract

A novel fibroblast growth factor-2 (FGF-2) protein isoform, calledaltFGF-2, is expressed abundantly during chicken embryogenesis. The amino-terminal domain of the 21.5-kDaaltFGF-2 protein diverges completely from the other three FGF-2 proteins due to alternative splicing of their first coding exons. Furthermore, thealtFGF-2 protein, in contrast to FGF-2 proteins, is targeted predominantly to the endoplasmic reticulum. In chicken embryos,altFGF-2 and FGF-2 proteins are differentially distributed in several mesodermal structures including developing limbs and kidneys. All four FGF-2 protein isoforms are also expressed in the developing neural tube from early neural plate stages onward. In contrast to FGF-2 proteins, thealtFGF-2 isoform is distributed in a dynamic, spatially restricted pattern in notochord and ventral neural tube (floor plate and motor neurons) during specification of neuronal populations. To study the possible shared or differential signaling functions of chickenaltFGF-2 and FGF-2 gene products, they were ectopically expressed in the dorsal neural tube aspect of transgenic mouse embryos. Dorsal expression ofaltFGF-2, but not FGF-2 gene products, induced alteration of neural tube morphology in a significant fraction of mouse embryos (25%). However, no alterations of dorsoventral (d/v) neural tube polarity were detected, indicating thataltFGF-2 and FGF-2 gene products either function as permissive cofactors or regulate neural tube growth without affecting establishment of its primary d/v polarity.