Sex differences in drug-related behaviors have been well documented and attributed primarily to differences in levels of estrogens in adult men versus women. This program advances the field beyond this hypothesis to examine another important factor, sex chromosome complement, with a focus on X-chromosome genes that escape X-inactivation which are expressed in greater levels in female versus male brains. The four core genotype (FCG) mouse model allows separate analysis of gonadal hormones and sex chromosome complement (XX vs. XY).
In Aim 1 these mice will be used to examine combined and separate actions of estradiol and sex chromosome complement on vulnerability to cocaine addiction using intravenous self- administration. Rates of acquisition and levels of motivation to obtain the drug will be evaluated.
In Aim 2, we will define the role of two X-chromosome genes that escape inactivation in mouse and human brain, Utx and Smcx. These genes code for enzymes that demethylate histone modifications, regulating chromatin accessibility and transcription on a wide basis. This work will be conducted with two lines of inducible, tissue- specific knockout mice that lack the expression of either gene (Utx or Smcx) in CaMK2? in forebrain, including neurons in the nucleus accumbens. The mice will be tested as in Aim 1 for cocaine vulnerability and motivation.
In Aim 3 brain tissue from the nucleus accumbens of mice tested in Aims 1 and 2 will be used for epigenetic analysis. A combination of ATAC (Assay for Transposase Accessible Chromatin-), Pro (Precision Nuclear Run-On-) and ChIP (Chromatin Immuno-Precipitation-) Sequencing will be used to identify transcriptionally active and repressed genes associated with chromatin restructuring and important transcription factors. The long term objective of this work is to reveal new mechanisms that underlie sex differences in vulnerability to addiction that help clinicians design sex-specific preventions/interventions.
Women are more sensitive than men to the rewarding and motivational effects of numerous drugs of abuse, including cocaine. In this proposal we test the novel hypothesis that genes on the X-chromosome lead to these behavioral sex differences. The results of these studies will reveal novel mechanisms underlying sex differences in vulnerability to cocaine addiction and help guide the development of sex-specific prevention strategies in women and men.
