Reversibility of nerve growth factor's enhancement of choline acetyltransferase activity in cultured embryonic rat septum.

Choline acetyltransferase (ChAT) activity and survival of acetylcholinesterase (AChE)-positive neurons were measured in low-density cultures of embryonic (Day 14-15) rat septum exposed to various sequences of nerve growth factor (NGF) exposure and deprivation for up to 7 weeks in vitro. Most septal cultures grown 4-5 weeks with no exogenous NGF (including exposure to monoclonal or polyclonal antibodies against NGF) retained both a basal ChAT activity and the ability to increase ChAT activity in response to subsequently added NGF. When cultures were exposed to NGF (7S, 0.75 nM) for 2-3 weeks and then deprived of NGF for 2 weeks, ChAT activity fell gradually, but the number of AChE-positive neurons remained unchanged, and in many cases ChAT activity could be restored by subsequent re-exposure to NGF. Thus NGF's enhancement of ChAT activity in embryonic septal neurons in vitro is largely reversible and is not mediated by differential survival of cholinergic neurons.