| Abstract: | The nature of synaptic interaction between two neighboring motoneurons in the isolated frog spinal cord was studied by parallel insertion of two separate micro-electrodes into the cells. In 82 of 89 motoneurons tested transmission through synapses between the motoneurons was electrical in nature, as shown by the absence or short duration of the latent period of elementary intermotoneuronal EPSPs, stability of their amplitude, and preservation of responses in Ca++-free solution containing 2 mM Mn++. Direct electrotonic interaction was demonstrated in both directions: artificial de- and hyperpolarization of one motoneuron led to corresponding shifts of membrane potential in the neighboring motoneuron. The time constant of rise and decay of this potential was appreciably greater than the time constant of the membrane of the two interconnected motoneurons. Blockade of the SD-component of the action potential in the "triggering" motoneuron led to a decrease in the elementary EPSP in the neighboring motoneuron. These facts suggest that electrotonic interaction takes place through dendro-dendritic junctions. Absence of rectification was demonstrated in electrical synapses between motoneurons. In four cases elementary EPSPs were chemical in nature, for they appeared 1.3–3.3 msec after the beginning of the action potential in the "triggering" motoneuron, and were blocked in Ca++-free solution containing Mn++; fluctuations of their amplitude approximated closely to a Poisson or binomial distribution. Such responses are evidently generated by synapses formed by recurrent axon collaterals of one motoneuron on the neighboring motoneurons. In three cases elementary intermotoneuronal EPSPs consisted of two components, the first electrical and the second chemical in nature. Morphological structures which may be responsible for generation of 2-component EPSPs are examined.Deceased.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 16, No. 5, pp. 619–630, September–October, 1984. |
