Differences in Ia proprioceptive input to spinal motoneurons between male and female rats

Author:

Krutki Piotr1ORCID,Drzymała‐Celichowska Hanna12ORCID,Bączyk Marcin1ORCID,Piotr Magdalena1ORCID,Celichowski Jan1ORCID

Affiliation:

1. Department of Neurobiology Poznań University of Physical Education Poznań Poland

2. Department of Physiology and Biochemistry Poznań University of Physical Education Poznań Poland

Abstract

AbstractMale and female rats differ in muscle fibre composition, related motor unit contractile properties, and muscle spindle density but not number. On the other hand, their motoneurons' intrinsic properties, excitability and firing properties are similar. The aim of this study was to investigate whether apparent sex differences in body mass and muscle force influence the proprioceptive input from muscle spindles to motoneurons. Medial gastrocnemius motoneurons were investigated intracellularly in deeply anaesthetised male and female rats. Monosynaptic Ia excitatory postsynaptic potentials (EPSPs) were evoked using electrical stimulation of primary afferents from homonymous muscle. Data were analysed using a mixed linear model. The central latencies of EPSPs were 0.38–0.80 ms, with no differences in means between males and females. The maximum EPSP amplitude varied between 2.03 and 8.09 mV in males and 1.24 and 6.79 mV in females. The mean maximum EPSP amplitude was 26% higher in males than in females. The mean EPSP rise time, half‐decay time and total duration did not differ between the sexes. EPSP amplitudes correlated with the resting membrane potential, input resistance and EPSP rise time in both sexes. The observed sex differences in the Ia proprioceptive input may be related either to mechanical loading differences in males and females associated with their different body mass or hormonal differences influencing the levels of neuromodulation in spinal circuits. The results highlight the importance of taking sex into consideration in the studies on the influence of afferent inputs on MN excitability.

Publisher

Wiley

Subject

General Neuroscience

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