Author Response for "the Effects of Delta‐9‐tetrahydrocannabinol Administration in the Regulation of Female Rat Sociosexual Behaviour"

By targeting the endocannabinoid system, delta-9-tetrahydrocannabinol (THC) modulates female motivated behaviours, influenced by sex hormones. Both medial preoptic nucleus (MPN) and ventromedial nucleus of the hypothalamus (VMN) are involved in the modulation of female sexual responses. The first triggers proceptivity, whereas the ventrolateral division of the latter (VMNvl) triggers receptivity. These nuclei are modulated by glutamate, which inhibits female receptivity, and GABA, which has a dichotomous action in female sexual motivation. Here, we evaluated the action of THC on the modulation of social and sexual behaviours, on signalling pathways of MPN and VMNvl and how sex hormones influence these parameters. Young ovariectomized female rats, given sex hormones (oestradiol benzoate, EB, and progesterone, P) and THC were used for behavioural testing and for immunofluorescence analyses of vesicular glutamate transporter 2 (VGlut2) and GAD (glutamic acid decarboxylase)67 expression. Results showed that females given EB + P exhibited a higher preference for male partner, as well as higher proceptivity and a higher receptivity than control or females given only EB. Females treated with THC presented similar responses in control or EB + P female rats and even more facilitated behavioural responses in EB females than the ones that did not receive THC. Immunofluorescence results in the MPN exhibited a decreased expression of GAD67 and VGlut2 in EB + THC-treated female rats. Within VMNvl of EB-primed rats no changes in the expression of both proteins were observed after THC exposure. This study demonstrates how the possible outcomes of endocannabinoid system instability within hypothalamic neuron connectivity can modify female rat sociosexual behaviour.