Membrane electrical properties and prediction of motor-unit type of medial gastrocnemius motoneurons in the cat

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Membrane electrical properties and prediction of motor-unit type of medial gastrocnemius motoneurons in the cat

J. E. Zengel, S. A. Reid, G. W. Sypert and J. B. Munson

Membrane electrical properties [time constant, action potential afterhyperpolarization (AHP), rheobase, input resistance, and axonal conduction velocity] were measured in motoneurons of cat medial gastrocnemius (MG) motor units. Motor units were classified on the basis of their mechanical responses as fast twitch, fast fatiguing (FF); fast twitch with intermediate fatigue resistance (FI); fast twitch, fatigue resistant (FR); or slow twitch, fatigue resistant (S; 11, 22). Motoneuron membrane time constant, estimated from the voltage response at the onset or termination of long (50-100 ms) current pulses and corrected for voltage-response nonlinearities (32), was found to differ significantly among the major motor-unit types, increasing in the order FF less than FR less than S. Afterhyperpolarization magnitude, half-decay time, and duration were all significantly greater for the fast (FF + FI + FR) versus the slow (S) motor units. The AHP half-decay time was correlated with muscle unit twitch time over the entire motoneuron population and within the type S motor-unit population. There was no significant correlation between twitch time and AHP half-decay time among the types FF and FR motor-unit populations. In agreement with previous studies, we found a significant difference in both rheobase and input resistance among the major motor-unit types, with rheobase increasing in the order S less than FR less than FF and input resistance decreasing in that order (S greater than FR greater than FF). The differences in input resistance were present both before and after correcting for voltage-response nonlinearities (32). Also in agreement with previous studies, the mean axonal conduction velocity was significantly faster among the fast (FF + FI + and FR) compared with the slow (S) motor units. These data were used to examine the properties alone to determine motor-unit type, which has traditionally been defined on the basis of the muscle unit's mechanical properties (11, 22). We used a discriminant analysis program to classify 73 mechanically typed motor units for which we had measures of rheobase, input resistance, membrane time constant, and AHP half-decay time. This model was able to properly classify 71 of the 73 motor units of this data set, indicating that the motor units of this data set could be grouped into three categories representing the three major motor-unit types (FF, FR, and S) on the basis of their rheobase, input resistance, membrane time constant, and AHP half-decay time.(ABSTRACT TRUNCATED AT 400 WORDS)

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				M. Manuel, C. Meunier, M. Donnet, and D. Zytnicki The afterhyperpolarization conductance exerts the same control over the gain and variability of motoneurone firing in anaesthetized cats J. Physiol., November 1, 2006; 576(3): 873 - 886. [Abstract] [Full Text] [PDF]

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				P. Soundararajan, G. B. Miles, L. L. Rubin, R. M. Brownstone, and V. F. Rafuse Motoneurons derived from embryonic stem cells express transcription factors and develop phenotypes characteristic of medial motor column neurons. J. Neurosci., March 22, 2006; 26(12): 3256 - 3268. [Abstract] [Full Text] [PDF]

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ARTICLES

Membrane electrical properties and prediction of motor-unit type of medial gastrocnemius motoneurons in the cat

				V. K. Haftel, J. F. Prather, C. J. Heckman, and T. C. Cope Recruitment of Cat Motoneurons in the Absence of Homonymous Afferent Feedback J Neurophysiol, August 1, 2001; 86(2): 616 - 628. [Abstract] [Full Text] [PDF]

				J. F. Prather, R. K. Powers, and T. C. Cope Amplification and Linear Summation of Synaptic Effects on Motoneuron Firing Rate J Neurophysiol, January 1, 2001; 85(1): 43 - 53. [Abstract] [Full Text] [PDF]

				P. A. Nunez-Abades, J. M. Pattillo, T. M. Hodgson, and W. E. Cameron Role of Synaptic Inputs in Determining Input Resistance of Developing Brain Stem Motoneurons J Neurophysiol, November 1, 2000; 84(5): 2317 - 2329. [Abstract] [Full Text] [PDF]

				Y. S. Prakash, C. B. Mantilla, W.-Z. Zhan, K. G. Smithson, and G. C. Sieck Phrenic motoneuron morphology during rapid diaphragm muscle growth J Appl Physiol, August 1, 2000; 89(2): 563 - 572. [Abstract] [Full Text] [PDF]

				J. C. Rekling, G. D. Funk, D. A. Bayliss, X.-W. Dong, and J. L. Feldman Synaptic Control of Motoneuronal Excitability Physiol Rev, April 1, 2000; 80(2): 767 - 852. [Abstract] [Full Text] [PDF]

				R. K. Powers and M. D. Binder Summation of Effective Synaptic Currents and Firing Rate Modulation in Cat Spinal Motoneurons J Neurophysiol, January 1, 2000; 83(1): 483 - 500. [Abstract] [Full Text] [PDF]

				R. H. Lee and C. J. Heckman Paradoxical Effect of QX-314 on Persistent Inward Currents and Bistable Behavior in Spinal Motoneurons In Vivo J Neurophysiol, November 1, 1999; 82(5): 2518 - 2527. [Abstract] [Full Text] [PDF]

				C. M. Pedroarena, I. E. Pose, J. Yamuy, M. H. Chase, and F. R. Morales Oscillatory Membrane Potential Activity in the Soma of a Primary Afferent Neuron J Neurophysiol, September 1, 1999; 82(3): 1465 - 1476. [Abstract] [Full Text] [PDF]

				R. H. Lee and C. J. Heckman Enhancement of Bistability in Spinal Motoneurons In Vivo by the Noradrenergic alpha 1 Agonist Methoxamine J Neurophysiol, May 1, 1999; 81(5): 2164 - 2174. [Abstract] [Full Text] [PDF]

				B. S. Seebach, V. Arvanov, and L. M. Mendell Effects of BDNF and NT-3 on Development of Ia/Motoneuron Functional Connectivity in Neonatal Rats J Neurophysiol, May 1, 1999; 81(5): 2398 - 2405. [Abstract] [Full Text] [PDF]