Acetylcholine synthesis by chick spinal cord neurons in dissociated cell culture

Abstract

Acetylcholine (ACh) synthesis was examined in cultures of chick spinal cord cells to follow the development of the cholinergic neurons. The cells, prepared from 4-day-old embryonic chick spinal cords, were grown either alone in dissociated cell cultures (SC cultures) or with chick myotubes (SC-M cultures). ACh synthesis was measured by incubating the cultures in [ 3Hcholine and using high-voltage paper electrophoresis to quantitate the amount of [ 3H]ACh present in cell extracts prepared from the labeled cultures. The amount of [ 3H]ACh synthesized in SC-M cultures was strictly proportional to the number of spinal cord cells used to prepare the cultures, and was linear with the time of incubation in [ 3H]choline for periods up to 1 hr. Maximal rates of synthesis were observed with [ 3H]choline concentrations in excess of 100 μ M. Such rates for 1-week-old SC-M cultures were approximately 10–20 pmoles of [ 3H]ACh/hr/10 5 spinal cord cells. Studies on the stability of the intracellular [ 3H]ACh revealed the presence of a major pool with a half-time of 20–30 min. A second, small pool decayed more rapidly. No detectable [ 3H]ACh was spontaneously released from the cells, suggesting that most of the decay represented intracellular degradation. Development of cholinergic neurons as monitored by [ 3H]ACh synthesis continued over a 2-week period in SC-M cultures and paralleled general cell growth. When examined at 1 week, SC-M cultures had about a 50% greater capacity for [ 3H]ACh synthesis and 60% more choline acetyltransferase activity than did SC cultures. No difference was observed in the stability of the [ 3H]ACh formed for the two types of cultures at 1 week, and no further difference was observed in the rates of [ 3H]ACh synthesis at 2 weeks. Growth of SC cultures in medium containing different amounts of chick embryo extract (2–10%) or in medium with fetal calf serum (10%) instead of extract produced only small differences in the measured rates of [ 3H]ACh synthesis. Thus chick spinal cord cells can undergo some of the early stages of cholinergic development in cell culture without sustained contact with skeletal myotubes, one of the normal postsynaptic target cells for the cholinergic neuron population. No absolute requirement for muscle factors was revealed under these conditions, although such factors may have been provided by other cell types in the spinal cord population or may have been present in other additions to the culture medium.