Effects of hyaluronidase on miniature endplate potentials and currents at the frog neuromuscular junction

Abstract

The effects of 0.1% testicular hyaluronidase on miniature endplate potentials and currents (MEPP and MEPC) were investigated in frog pectorocutaneous muscle. The action of hyaluronidase on preparations with armine-induced blockade of acetylcholinesterase was associated with decreased amplitude and duration of MEPP and MEPC half-decay time and rising phase. The correlation between amplitude and half-decay time of MEPP and MEPC declined at the same time, while MEPC decay remained exponential. Treating preparations having intact acetylcholinesterase with hyaluronidase increased the length of MEPC halfdecay, with duration of the rising phase and amplitude remaining constant. It is suggested that enzymatic breakdown of a proportion of the glycocalix of cells forming the neuromuscular junction and a portion of the extracellular matrix at the synaptic cleft leads to attenuation of nonspectific acetylcholine binding, thus facilitating acetylcholine diffusion into the synaptic cleft.