Synaptic current between neuromuscular junction folds.

Measurements of membrane infoldings of vertebrate subsynaptic membranes were taken to evaluate the possible electrophysiological implications. The shapes of standard interfolds of different neuromuscular junctions were established from micrographs available in the literature. Electrical properties were estimated using published fibre membrane and myoplasm electrical values. Models of synaptic current pathways were designed taking into account the small size of the postsynaptic patch activated by a transmitter quantum. This analysis reveals a resistance "in series" between the ACh-sensitive interfold crest and the remainder of the muscle fibre. The calculated cytoplasmic resistance of an interfold is between 0.2 and 3 Mohms which is in the same range as the fibre DC input resistance. The calculated interfold resistance appears to be dependent on the fibre type, the age and the pathology. Functional roles of junctional folds and dendritic spines are discussed.