Sex-related differences in endogenous pituitary adenylate cyclase-activating polypeptide (PACAP) in the thalamic paraventricular nucleus: Implications for addiction neuroscience.

Males and females exhibit differences in motivated and affective behavior; however, the neural substrates underlying these differences remain poorly understood. In the paraventricular nucleus of the thalamus (PVT), sex-related differences in neuronal activity have been identified in response to motivated behavior tasks and affective challenges. Within the PVT, the neuropeptide, pituitary adenylate cyclase-activating polypeptide (PACAP), is highly expressed and is also involved in motivated and affective behavior. The purpose of this study was to compare the expression of PACAP mRNA and peptide in the PVT of males and females. Analysis with quantitative real-time PCR in mice revealed that females had significantly higher levels of PACAP mRNA than males in the whole PVT, but no differences in the neuropeptides enkephalin or corticotropin releasing factor (CRF) in this brain region. While in rats, females demonstrated a trend for greater gene expression than males in the anterior/middle and middle/posterior PVT, they again showed no differences in enkephalin or CRF. Analysis with immunofluorescent histochemistry revealed that female mice had significantly more PACAP-containing cells than males as a function of area throughout the PVT, and that female rats had significantly more PACAP-27 and PACAP-38-containing cells than males, both as a percentage of total cells and as a function of PVT area. For PACAP-27, this specifically occurred in the anterior PVT, and for PACAP-38, it occurred throughout the anterior, middle, and posterior PVT. These results suggest that sex-related differences in PVT PACAP may underly some of the established sex-related differences in motivated and affective behavior.

Application of Prescription Drug Monitoring Program to detect underreported controlled substance use in patients evaluated for liver transplant.

Presurgical controlled substance use predicts postoperative complications, increased readmissions, and mortality. We aimed to examine if a Prescription Drug Monitoring Program (PDMP) would detect underreported controlled substance use in patients undergoing liver transplant evaluation. We performed a retrospective cohort study at a tertiary referral center of patients undergoing liver transplant evaluation in 2017. PDMP reviews were performed on all 360 patients and urine drug screen (UDS) results were reviewed when available to evaluate dispensed controlled substances. These results were compared to the patient's self-reported medication list at evaluation to identify any underreporting. The primary outcome was the number of self-reported controlled substance discrepancies on the medication list identified by PDMP and UDS at the time of evaluation. Among the 360 patients, 87 (24%) had a discrepancy where PDMP revealed a controlled substance prescription that the patient did not report on their medication list. Seventy-seven (67/87) of these discrepancies involved opiates. Of the 360 patients, 219 (61%) had a negative UDS, but 70 (32%) of these patients had at least one controlled substance listed on PDMP. PDMP is a promising screening tool when used in conjunction with the UDS for detecting underreported controlled substance use in liver transplant candidates.

Pituitary Adenylate Cyclase-Activating Polypeptide-27 (PACAP-27) in the Thalamic Paraventricular Nucleus Is Stimulated by Ethanol Drinking.

BACKGROUND: The paraventricular nucleus of the thalamus (PVT) is a limbic brain structure that affects ethanol (EtOH) drinking, but the neurochemicals transcribed in this nucleus that may participate in this behavior have yet to be fully characterized. The neuropeptide, pituitary adenylate cyclase-activating polypeptide (PACAP), is known to be transcribed in other limbic areas and to be involved in many of the same behaviors as the PVT itself, possibly including EtOH drinking. It exists in 2 isoforms, PACAP-38 and PACAP-27, with the former expressed at higher levels in most brain regions. The purpose of this study was to characterize PACAP in the PVT and to assess its response to EtOH drinking. METHODS: First, EtOH-naïve, Sprague Dawley rats were examined using quantitative real-time polymerase chain reaction (qPCR) and immunohistochemistry, to characterize PACAP mRNA and peptide throughout the rostrocaudal axis of the PVT. Next, EtOH-naïve, vGLUT2-GFP transgenic mice were examined using immunohistochemistry, to identify the neurochemical phenotype of the PACAPergic cells in the PVT. Finally, Long Evans rats were trained to drink 20% EtOH under the intermittent-access paradigm and then examined with PCR and immunohistochemistry, to determine the effects of EtOH on endogenous PACAP in the PVT. RESULTS: Gene expression of PACAP was detected across the entire PVT, denser in the posterior than the anterior portion of this nucleus. The protein isoform, PACAP-27, was present in a high percentage of cell bodies in the PVT, again particularly in the posterior portion, while PACAP-38 was instead dense in fibers. All PACAP-27+ cells colabeled with glutamate, which itself was identified in the majority of PVT cells. EtOH drinking led to an increase in PACAP gene expression and in levels of PACAP-27 in individual cells of the PVT. CONCLUSIONS: This study characterizes the PVT neuropeptide, PACAP, and its understudied protein isoform, PACAP-27, and demonstrates that it is involved in pharmacologically relevant EtOH drinking. This indicates that PACAP-27 should be further investigated for its possible role in EtOH drinking.