Spatial domains in the developing forebrain: developmental regulation of a restricted cell surface protein.

We have isolated a monoclonal antibody, mAb 52G9, that recognizes a 55-kDa cell surface protein restricted to the early embryonic rat forebrain and to placode-derived structures. In the central nervous system (CNS), 52G9 immunoreactivity appears at Embryonic Day 11 (E11) in the rostral-most area of the telencephalon. It then spreads to the neuroepithelium of the telencephalon and basal diencephalon. Most strikingly, it appears at E14 in a distinct zone at the caudal end of the ventral diencephalic neuroepithelium. This area is sharply defined by strong 52G9 immunoreactivity bounded by unlabeled neuroepithelium. The pattern revealed by 52G9 is the first biochemical demonstration of spatial domains in the forebrain at a time prior to neuronal differentiation. By E18, 52G9 immunoreactivity has progressively disappeared from the forebrain; the glomerular layer of the olfactory bulb is the only 52G9-positive area in the CNS. The olfactory, otic, and hypophyseal placodes, which can be identified as early as E10, are also 52G9 positive as are their derivatives, the sensory epithelial of the nasal passage and inner ear, and also Rathke's pouch. The distribution and regulation of the 52G9 protein suggests that this novel cell surface molecule may be involved in the formation of spatial domains in the developing forebrain.

The B30 ganglioside is a cell surface marker for neural crest-derived neurons in the developing mouse.

We have previously reported the isolation of a monoclonal antibody, mAb B30, that recognizes two minor gangliosides specifically expressed in a small subset of neurons in the developing mouse central nervous system (Stainier and Gilbert, 1989). B30 labels mesencephalic trigeminal neurons shortly after differentiation until about 2 weeks after birth. Postnatally, it also labels two specific monolayers of cerebellar neurons. In this study, we have characterized the B30 immunoreactivity in the developing peripheral nervous system of the mouse. We report that B30 is a marker for neural crest-derived neurons and have used it to follow the neuronal differentiation of neural crest cells in a serum-free chemically defined culture system. Within hours after plating, neural crest cells migrate away from the neural tube explant on a fibronectin or laminin substrate and by 24 hr, up to 15% of them have differentiated into morphologically identifable neurons. In vitro as in vivo, undifferentiated mouse neural crest cells express the GD3 ganglioside which is recognized by mAb B33, and neural crest-derived neurons can be labeled by mAbs B33, B30, and also E1.9, a specific neuronal cytoskeletal marker. We also show the unique biochemical specificity of mAb B30 and provide experimental evidence for the role of the B30 ganglioside in the cellular adhesion process.