The Role of cAMP Response Element–Binding Proteins in Mediating Stress‐Induced Vulnerability to Drug Abuse

Sex Differences in the Effects of a Kappa Opioid Receptor Antagonist in the Forced Swim Test

There is growing evidence that kappa opioid receptor (KOR) antagonists could be a useful class of therapeutics for treating depression and anxiety. However, the overwhelming majority of preclinical investigations examining the behavioral effects of KOR antagonists have been in male rodents. Here, we examined the effects of the long-acting KOR antagonist nor-binaltophimine (norBNI) on immobility in the forced swim test in males and females of two different rodent species (C57Bl/6J and California mice). Consistent with previous reports, norBNI (10 mg/kg) decreased immobility in the forced swim test for male C57Bl/6J and California mice. Surprisingly, dose-response studies in female C57Bl/6J and California mice showed that norBNI did not reduce immobility. Pharmacokinetic analyses showed that metabolism and brain concentrations of norBNI were similar in male and female C57Bl/6J. In the nucleus accumbens of male but not female C57Bl/6J, norBNI increased phosphorylation of c-Jun N-terminal kinase (pJNK), a putative mechanism for norBNI action. However, no differences in pJNK were observed in male or female California mice. Together, these results suggest that immobility in the forced swim test is less dependent on endogenous KOR signaling in female rodents and highlight the importance of examining the effects of possible therapeutic agents in both males and females.

Evidence for beta1-adrenergic receptor involvement in amygdalar corticotropin-releasing factor gene expression: implications for cocaine withdrawal

We previously showed that betaxolol, a selective beta(1)-adrenergic receptor antagonist, administered during early phases of cocaine abstinence, ameliorated withdrawal-induced anxiety and blocked increases in amygdalar beta(1)-adrenergic receptor expression in rats. Here, we report the efficacy of betaxolol in reducing increases in gene expression of amygdalar corticotropin-releasing factor (CRF), a peptide known to be involved in mediating 'anxiety-like' behaviors during initial phases of cocaine abstinence. We also demonstrate attenuation of an amygdalar beta(1)-adrenergic receptor-mediated cell-signaling pathway following this treatment. Male rats were administered betaxolol at 24 and 44 h following chronic cocaine administration. Animals were euthanized at the 48-h time point and the amygdala was microdissected and processed for quantitative reverse transcriptase-polymerase chain reaction and/or western blot analysis. Results showed that betaxolol treatment during early cocaine withdrawal attenuated increases in amygdalar CRF gene expression and cyclic adenosine monophosphate-dependent protein kinase regulatory and catalytic subunit (nuclear fraction) protein expression. Our data also reveal that beta(1)-adrenergic receptors are on amygdalar neurons, which are immunoreactive for CRF. The present findings suggest that the efficacy of betaxolol treatment on cocaine withdrawal-induced anxiety may be related, in part, to its effect on amygdalar beta(1)-adrenergic receptor, modulation of its downstream cell-signaling elements and CRF gene expression.

Estrogen-triggered activation of GTP cyclohydrolase 1 gene expression: role of estrogen receptor subtypes and interaction with cyclic AMP

Guanosinetriphosphate cyclohydrolase I (GTPCH) catalyzes the initial step in the de novo biosynthesis of (6R)-5,6,7,8-tetrahydrobiopterin, an important determinant of the rate of catecholamine and nitric oxide biosynthesis. Administration of estrogen in vivo was found to elevate GTPCH mRNA levels in several catecholaminergic locations. To examine the mechanism, PC12 cells were co-transfected with a reporter construct containing 2988 bp of rat GTPCH promoter fused to luciferase gene, and expression vectors for estrogen receptors. Addition of 2.5-20 nM of 17 beta-estradiol increased GTPCH promoter-driven luciferase activity in the presence of either estrogen receptor alpha or estrogen receptor beta indicating, for the first time, that 17 beta-estradiol can regulate GTPCH gene expression via transcriptional mechanisms. However, there were differences in dose dependence and time course with estrogen receptor alpha or estrogen receptor beta. With estrogen receptor alpha, the effect was greater with lower doses of 17 beta-estradiol. At the same dose, the response with estrogen receptor beta was observed somewhat earlier than with estrogen receptor alpha and with 20 nM 17 beta-estradiol was effective even after 6 h. These responses to 17 beta-estradiol required estrogen receptors and specific agonists for estrogen receptor alpha and estrogen receptor beta, 4,4,4,-(4-propil-[1H-pyrazole-1,3,5-triyl)tris-phenol and 2,3-bis[4-hydroxyphenyl]propionitrile respectively, triggered increased GTPCH promoter activity. In addition, neither estradiol, nor the selective agonists activated GTPCH promoter without transfection of appropriate estrogen receptor expression vectors. Addition of 17 beta-estradiol, or the selective agonists, also elevated endogenous GTPCH mRNA levels. The results demonstrate that estrogen can have a direct effect on GTPCH gene expression. Although estradiol increased GTPCH promoter activity in the presence of estrogen receptors, it attenuated the response of the promoter and endogenous gene to cyclic AMP, suggesting the crosstalk between estrogen and cyclic AMP pathways in the regulation of GTPCH gene expression. These findings reveal the significance of estrogen in modulating regulation of rate limiting enzyme in the (6R)-5,6,7,8-tetrahydrobiopterin biosynthesis, which may have implications for sex-related differences in vulnerability in related disorders.