Hibernation induces pentobarbital insensitivity in medulla but not cortex

Author:

Hengen Keith B.1,Behan Mary12,Carey Hannah V.2,Jones Mathew V.13,Johnson Stephen M.12

Affiliation:

1. Neuroscience Training Program,

2. Department of Comparative Biosciences, School of Veterinary Medicine, and

3. Department of Physiology, School of Medicine, University of Wisconsin, Madison, Madison, Wisconsin

Abstract

The 13-lined ground squirrel ( Ictidomys tridecemlineatus), a hibernating species, is a natural model of physiological adaption to an extreme environment. During torpor, body temperature drops to 0–4°C, and the cortex is electrically silent, yet the brain stem continues to regulate cardiorespiratory function. The mechanisms underlying selective inhibition in the brain during torpor are not known. To test whether altered GABAergic function is involved in regional and seasonal differences in neuronal activity, cortical and medullary slices from summer-active (SA) and interbout aroused (IBA) squirrels were placed in a standard in vitro recording chamber. Silicon multichannel electrodes were placed in cortex, ventral respiratory column (VRC), and nucleus tractus solitarius (NTS) to record spontaneous neuronal activity. In slices from IBA squirrels, bath-applied pentobarbital sodium (300 μM) nearly abolished cortical neuronal activity, but VRC and NTS neuronal activity was unaltered. In contrast, pentobarbital sodium (300 μM) nearly abolished all spontaneous cortical, VRC, and NTS neuronal activity in slices from SA squirrels. Muscimol (20 μM; GABAAreceptor agonist) abolished all neuronal activity in cortical and medullary slices from both IBA and SA squirrels, thereby demonstrating the presence of functional GABAAreceptors. Pretreatment of cortical slices from IBA squirrels with bicuculline (100 μM; GABAAreceptor antagonist) blocked pentobarbital-dependent inhibition of spontaneous neuronal activity. We hypothesize that GABAAreceptors undergo a seasonal modification in subunit composition, such that cardiorespiratory neurons are uniquely unaffected by surges of an endogenous positive allosteric modulator.

Publisher

American Physiological Society

Subject

Physiology (medical),Physiology

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