Repeated Restraint Stress Alters Small Conductance Calcium‐activated Potassium Channel (SK) Expression in Rat Basolateral Amygdala Neurons in Sex‐dependent Manner

Abstract

Mood disorders disproportionally affect women more than men. The basolateral amygdala (BLA) is critical for the expression of fear and anxiety‐like behaviors and is hyperactive in mood disorders. Our prior work has shown greater spontaneous BLA activity in naïve females compared to males, but the mechanisms by which this occurs remain unknown. BLA activity is regulated, in part, by small conductance calcium‐activated potassium (SK) channels (SK1‐4), which mediate afterhyperpolarizations (AHPs) and reduce neuronal firing. Activation of the SK2 channel inhibits BLA neuronal firing in males, but the role of SK2 in females is relatively unexplored. We hypothesized that SK2 expression would be lower in females resulting in higher spontaneous firing rate of BLA neurons compared to males. In order to test this hypothesis, we utilized qPCR and Western blot analysis to determine the relative expression of SK channels in the BLA of adult naïve male and female rats. We found BLA SK2 mRNA levels are similar between the sexes, but BLA SK2 protein levels are lower in females compared to males. We found no differences in other SK channels. To examine whether lower SK2 expression in females corresponds with reduced SK2 channel activity, we performed in vivo single‐unit electrophysiological recordings of BLA neuronal activity following local injections of a SK2 channel inhibitor (apamin; 1uM) or saline. Preliminary results revealed spontaneous BLA activity increased following apamin injections in both sexes, but to a greater degree in males. This suggests that the reduced SK2 protein expression in females coincides with greater spontaneous activity in BLA and a diminished effect of apamin compared to males. Since it is known that stress is a leading factor in the development of mood disorders and BLA activity following stress also varies between the sexes; we also sought to determine whether sex differences exist in SK2 expression and function in rats following repeated restraint stress (20 min/day for 7 out of 9 days), compared to control‐handled rats. Previous research from our lab has found that repeated restraint stress leads to an increase in BLA spontaneous activity in males, but a reduction in activity in females. Therefore, we hypothesized that the expression and activity of SK2 channels will be reduced in males following stress, but increased in females. Our initial findings suggest that repeated restraint stress increases spontaneous BLA activity in males and this activity is less sensitive to apamin injection compared to control‐handled rats. In contrast, repeated restraint stress appears to reduce spontaneous BLA activity in females, but like the males, females have reduced sensitivity to apamin. These electrophysiological findings correspond to a reduction in SK2 protein expression in BLA from males, but a slight increase in SK2 expression in BLA from females. A more thorough understanding of sex differences in SK2 channel expression and activity following stress may contribute to a better understanding of the sex disparities observed in mood disorders.