Postnatal changes in motoneurone electrotonic coupling studied in the in vitro rat lumbar spinal cord.

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Postnatal changes in motoneurone electrotonic coupling studied in the in vitro rat lumbar spinal cord.

K D Walton and R Navarrete

Department of Physiology and Biophysics, New York University Medical Center, NY 10016.

1. Electrotonic coupling between motoneurones innervating ankleflexor and extensor muscles, as well as between unidentifiedlumbar motoneurones, was studied using intracellular recordingsin an in vitro spinal cord-hindlimb preparation isolated fromrats between birth (P0) and 13 days (P13). 2. Graded ventralroot stimulation could elicit graded, short latency depolarizations(SLD) which preceded, coincided with, or followed the antidromicaction potential. These SLDs were identified as electrotonicjunctional potentials by their latency, relative insensitivityto changes in membrane potential and their resistance to oneor more of the following: (1) high-frequency stimulation, (2)collision with a somatofugal action potential, (3) removal ofCa2+ from the bathing solution. 3. SLDs were studied in 162neurones and were identified in 77.2% of the cells in preparationsfrom P0 to P3 rats (n = 57), but only in 30.8% at P8 to P13(n = 39). 4. SLDs were largest in the youngest animals (P0 toP3), decreasing from a mean of 1.31 mV (+/- 0.17, n = 34) to0.56 mV (+/- 0.10, n = 7) at P8 to P13. The SLDs comprised twoto eight (4.3 +/- 0.36) all-or-none components as determinedfrom twenty collision experiments. 5. Electrotonic couplingbetween motoneurones was specific. SLDs could be elicited ingiven motoneurones by stimulation of their homonymous but neverof their antagonistic muscle nerves. 6. These results indicatethat electrotonic coupling between lumbar motoneurones in neonatalanimals exhibits a high degree of specificity and that its significance,as judged by the amplitude and frequency of occurrence of SLDs,decreases postnatally at a rate that can be correlated withthe functional maturity of the motoneurones and the muscularsystem.

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