A globular, not asymmetric, form of acetylcholinesterase is expressed in chick motor neurons: down-regulation toward maturity and after denervation.

Abstract

In vertebrate neuromuscular junctions, the postsynaptic specializations include the accumulation of acetylcholinesterase (AChE) at the synaptic basal lamina and the muscle fiber. Several lines of evidence indicate that the presynaptic motor neuron is able to synthesize and secrete AChE at the neuromuscular junctions. By using anti-AChE catalytic subunit, anti-butyrylcholinesterase (BuChE) catalytic subunit, and anti-AChE collagenous tail monoclonal antibodies, we demonstrated that the motor neurons of chick spinal cord expressed AChE in vivo and the predominant AChE was the globular form of the enzyme. Neither asymmetric AChE nor BuChE was detected in the motor neurons. The molecular mass of AChE catalytic subunit in the motor neuron was approximately 105 kDa, which was similar to that of the globular enzyme from low-salt extracts of muscle; both of them were approximately 5 kDa smaller than the asymmetric AChE from high-salt extracts of muscle. The level of AChE expression in the motor neurons decreased, as found by immunochemical and enzymatic analysis, during the different stages of the chick's development and after nerve lesion. Thus, the AChE activity at the neuromuscular junctions that is contributed by the presynaptic motor neurons is primarily the globular, not the asymmetric, form of the enzyme, and these contributions decreased toward maturity and after denervation.