The persistent effects of predator odor stressor enhance interoceptive sensitivity to alcohol through GABA A receptor adaptations in the prelimbic cortex in male, but not female rats
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Background
Traumatic stress is associated with high rates of problematic alcohol use, but how the persistent effects of trauma impact sensitivity to alcohol remain unknown. This study examined the persistent effects of traumatic stress exposure on sensitivity to alcohol and underlying neurobiological mechanisms in rats.
Methods
Male (N=98) and female (N=98) Long-Evans rats were exposed to the predator odor TMT, and two weeks later, molecular, neuronal, and behavioral sensitivity to alcohol were assessed. Next, rats were trained to discriminate alcohol from water (male N=70; female N=56), and the impact of TMT on interoceptive sensitivity to alcohol and the alcohol-like effects of systemic GABA A receptor activation were evaluated. Lastly, functional involvement of GABA A and NMDA receptors in the prelimbic cortex (PrL) and the anterior insular cortex (aIC) was investigated.
Results
TMT exposure sex-dependently altered PrL Gabra1 , and elevated aIC Grin2b and Grin2c in males. TMT increased PrL c-Fos in males, which was attenuated by alcohol administration. Alcohol-induced locomotor and startle response effects were attenuated in the TMT group in both sexes. TMT exposure potentiated interoceptive sensitivity to alcohol in males but not in females, and this effect was driven by GABA A receptors in the PrL. Greater stress reactivity during TMT exposure was associated with higher interoceptive sensitivity to alcohol, and alcohol exposure history was linked to a heightened stress response to TMT in males.
Conclusions
Traumatic stress increased interoceptive sensitivity to alcohol in males, but not females, through PrL GABA A receptor adaptations, potentially enhancing the stimulatory, and by extension the rewarding, effects of alcohol.
