Effects of morphine on pain-elicited and pain-suppressed behavior in CB1 knockout and wildtype mice

Pharmacological manipulations of the type 1 cannabinoid receptor (CB1) suggest a role for CB1 in morphine-induced antinociception, but studies utilizing CB1 knockout (KO) mice do not support this conclusion. Since studies using CB1 KO mice to study morphine’s antinociceptive effects have only examined thermal nociception, this study examines these interactions in models that employ a chemical stimulus

Sex Differences in Opioid-Induced Enhancement of Contact Hypersensitivity

Previous research has demonstrated that, in male rats, the magnitude of contact hypersensitivity (CHS) can be enhanced by morphine treatment. The present experiments test the hypothesis that the mu-opioids morphine, etorphine, and buprenorphine would produce significant sex differences in the magnitude of 2,4-dinitrofluorobenzene-induced CHS. During tests conducted over a 192-h period, morphine, etorphine, and buprenorphine administered before elicitation of CHS on the external surface of the ear (pinna) potentiated the CHS response, and the magnitude of this enhancement was significantly greater in females than males. By contrast, morphine had no effect on croton oil-induced irritant contact dermatitis, indicating that morphine's effects on CHS do not generalize to immunologically nonspecific forms of contact dermatitis. Activation of brain mu-opioid receptors is responsible for the effects of morphine on CHS, because intracerebroventricular treatment with the mu-opioid receptor antagonist beta-funaltrexamine blocked morphine potentiation of CHS in females and males. The sex differences in morphine potentiation of CHS appear to be a result of the gonadal hormonal milieu, because castration enhanced the CHS response following vehicle and morphine treatment, whereas ovariectomy significantly attenuated the enhancement of CHS by morphine. Because ovariectomy had no effect on the CHS response following vehicle treatment, the presence of female gonadal hormones may underlie the sex differences in morphine potentiation of CHS in gonadally intact animals. Overall, these results support an increased sensitivity to the modulatory effects of opioids on the CHS response in females that depends on the interaction between gonadal hormones and the central mu-opioid system

Metabotropic glutamate antagonists alone and in combination with morphine: comparison across two models of acute pain and a model of persistent, inflammatory pain

The present study examined the effects of the mGluR1 antagonist JNJ16259685 (JNJ) and the mGluR5 antagonist MPEP alone and in combination with morphine in two acute pain models (hotplate, warm water tail-withdrawal), and a persistent, inflammatory pain model (capsaicin). In the hotplate and warm water tail-withdrawal procedures, JNJ and MPEP were ineffective when administered alone. In both procedures, JNJ potentiated morphine antinociception. In the hot plate procedure, MPEP potentiated morphine antinociception at the highest dose examined, whereas in the warm water tail-withdrawal procedure MPEP attenuated morphine antinociception at a moderate dose and potentiated morphine antinociception at a high dose. For both JNJ and MPEP, the magnitude of this morphine potentiation was considerably greater in the hotplate procedure. In the capsaicin procedure, the highest dose of MPEP produced intermediate levels of antihyperalgesia and also attenuated the effects of a dose of morphine that produced intermediate levels of antihyperalgesia. In contrast, JNJ had no effect when administered alone in the capsaicin procedure and did not alter morphine-induced antihyperalgesia. The present findings suggest that the effects produced by mGluR1 and mGluR5 antagonists alone and in combination with morphine can be differentiated in models of both acute and persistent pain

Predictors of High Ethanol Consumption in RII?? Knock-Out Mice: Assessment of Anxiety and Ethanol-Induced Sedation

Genetic and pharmacological evidence suggests that the cyclic adenosine monophosphate–dependent protein kinase A pathway modulates neurobiological responses to ethanol. Mutant mice lacking the RIIβ subunit of protein kinase A (RIIβ) are resistant to ethanol-induced sedation and drink significantly more ethanol than littermate wild-type mice (RIIβ). We determined whether high ethanol intake by the RIIβ mice on alternate genetic backgrounds is reliably predicted by high basal levels of anxiety or resistance to the sedative effects of ethanol. Two-bottle choice procedures and a battery of behavioral tests (elevated plus maze, open-field activity, and zero maze) were used to assess voluntary ethanol consumption and basal levels of anxiety in RIIβ and RIIβ mice on either a C57BL/6J or a 129/SvEv × C57BL/6J genetic background. Additionally, ethanol-induced sedation and blood ethanol levels were determined in RIIβ and RIIβ mice after intraperitoneal injection of ethanol (3.8 g/kg). RIIβ mice on both genetic backgrounds consumed more ethanol and had a greater preference for ethanol relative to RIIβ mice. However, RIIβ mice showed reduced basal levels of anxiety when maintained on the C57BL/6J background but showed increased anxiety when maintained on the 129/SvEv × C57BL/6J background. Consistent with prior research, RIIβ mice were resistant to the sedative effects of ethanol, regardless of the genetic background. Finally, RIIβ and RIIβ mice showed similar blood ethanol levels. These results indicate that high ethanol consumption is associated with resistance to the sedative effects of ethanol but that basal levels of anxiety, as well as ethanol metabolism, do not reliably predict high ethanol drinking by RIIβ mice

Evidence that Melanocortin Receptor Agonist Melanotan-II Synergistically Augments the Ability of Naltrexone to Blunt Binge-Like Ethanol Intake in Male C57BL/6J Mice

The non-selective opioid receptor antagonist, naltrexone (NAL), reduces alcohol (ethanol) consumption in animals and humans and is an approved medication for treating alcohol abuse disorders. Proopiomelanocortin (POMC)-derived melanocortin (MC) and opioid peptides are produced in the same neurons in the brain, and recent pre-clinical evidence shows that MC receptor (MCR) agonists reduce excessive ethanol drinking in animal models. Interestingly, there is a growing body of literature revealing interactions between the MC and opioid systems in the modulation of pain, drug tolerance, and food intake

Broadly targeted human cytomegalovirus-specific CD4+ and CD8+ T cells dominate the memory compartments of exposed subjects

Human cytomegalovirus (HCMV) infections of immunocompetent hosts are characterized by a dynamic, life-long interaction in which host immune responses, particularly of T cells, restrain viral replication and prevent disease but do not eliminate the virus or preclude transmission. Because HCMV is among the largest and most complex of known viruses, the T cell resources committed to maintaining this balance have never been characterized completely. Here, using cytokine flow cytometry and 13,687 overlapping 15mer peptides comprising 213 HCMV open reading frames (ORFs), we found that 151 HCMV ORFs were immunogenic for CD4+ and/or CD8+ T cells, and that ORF immunogenicity was influenced only modestly by ORF expression kinetics and function. We further documented that total HCMV-specific T cell responses in seropositive subjects were enormous, comprising on average ∼10% of both the CD4+ and CD8+ memory compartments in blood, whereas cross-reactive recognition of HCMV proteins in seronegative individuals was limited to CD8+ T cells and was rare. These data provide the first glimpse of the total human T cell response to a complex infectious agent and will provide insight into the rules governing immunodominance and cross-reactivity in complex viral infections of humans

Powder Compaction: Compression Properties of Cellulose Ethers

Effective development of matrix tablets requires a comprehensive understanding of different raw material attributes and their impact on process parameters. Cellulose ethers (CE) are the most commonly used pharmaceutical excipients in the fabrication of hydrophilic matrices. The innate good compression and binding properties of CE enable matrices to be prepared using economical direct compression (DC) techniques. However, DC is sensitive to raw material attributes, thus, impacting the compaction process. This article critically reviews prior knowledge on the mechanism of powder compaction and the compression properties of cellulose ethers, giving timely insight into new developments in this field