ABSTRACT
TAG-1 is a 135000 Mr axonal glycoprotein of the immunoglobulin superfamily that promotes axon extension in vitro. One distinguishing feature of TAG-1 is its transient expression on subsets of axons in the developing nervous system. To examine the mechanisms that regulate TAG-1, we have monitored the expression of this protein by developing central and peripheral neurons in vitro. TAG-1 was detected on the surface of a subset of Ell to E13 spinal cord neurons in vitro and was also released by these neurons. Expression of TAG-1 on the cell surface was transient but it was possible to detect a released form of TAG-1 at all times in vitro. Spinal cord neurons isolated from older embryos did not express surface TAG-1 when they regenerated axons in vitro. Changes in the environment of spinal cord neurons did not alter the time course of TAG-1 expression, suggesting that regulation of the protein is cell autonomous. In contrast to these results with spinal cord neurons, surface expression of TAG-1 by DRG neurons persisted in vitro and adult DRG neurons re-expressed TAG-1 when grown in vitro. The cell surface and released forms of TAG-1 therefore appear to be regulated differently by central and peripheral neurons.
