Regulation of enzymes responsible for neurotransmitter synthesis and degradation in cultured rat sympathetic neurons: I. Effects of muscle-conditioned medium

Abstract

The enzymatic machinery for neurotransmitter synthesis and breakdown have been compared in sister cultures of newborn rat sympathetic neurons grown for 12–28 days either in the presence (CM + cultures) or in the absence (CM − cultures) of a culture medium conditioned by rat skeletal muscle cells. Neuron numbers, total protein, and lactate dehydrogenase activities were identical in CM + and CM − cultures. Choline acetyltransferase activity was 27- to 100-fold higher in homogenates of CM + than CM − cultures, whereas acetylcholinesterase activity was 2.5-fold lower. The activities of tyrosine hydroxylase (TOH), DOPA decarboxylase, and dopamine β-hydroxylase were all about twofold lower in homogenates from CM + cultures. All these effects were also observed in homogenates of sympathetic neuron cultures grown with and without a macromolecular factor partially purified from CM (Weber, J. (1981). Biol. Chem. 256, 3447–3453.). Experiments of mixing homogenates from CM + and CM − cultures suggested that the differences in each of the enzyme activities did not result from differences in the concentrations of hypothetical reversible enzyme activators and/or inhibitors. In addition, the deficit in TOH activity in CM + cultures resulted from a decrease in the enzymatic V max with no significant variation in the apparent K m 's for the substrate and the cofactor. An identical decrease in the V max was observed if TOH was assayed under phosphorylating or nonphosphorylating conditions, suggesting that this decrease did not result from differences in the state of enzyme phosphorylation. Immunoprecipitation curves of TOH activity by an anti-TOH antiserum were parallel when performed on homogenates from CM + and CM − cultures, suggesting a difference in the number of enzyme molecules without detectable alteration of their kinetic properties.