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ABSTRACT: We have previously shown that the μ-opioid receptor (MOR) is capable of mediating cross-desensitization of several chemokine receptors including CCR5, but the biochemical mechanism of this process has not been fully elucidated. We have carried out a series of functional and biochemical studies and found that the mechanism of MOR-induced cross-desensitization of CCR5 involves the activation of PKCζ. Inhibition of PKCζ by its pseudosubstrate inhibitor, or its siRNA, or dominant negative mutants suppresses the cross-desensitization of CCR5. Our results further indicate that the activation of PKCζ is mediated through a pathway involving phosphoinositol-dependent kinase-1 (PDK1). In addition, activation of MOR elevates the phosphorylation level and kinase activity of PKCζ. The phosphorylation of PKCζ can be suppressed by a dominant negative mutant of PDK1. We observed that following MOR activation, the interaction between PKCζ and PDK1 is immediately increased based on the analysis of fluorescent resonance energy transfer in cells with the expression of PKCζ-YFP and PDK1-CFP. In addition, cells expressing PKCζ kinase motif mutants (Lys-281, Thr-410, Thr-560) fail to exhibit full MOR-induced desensitization of CCR5 activity. Taken together, we propose that upon DAMGO treatment, MOR activates PKCζ through a PDK1-dependent signaling pathway to induce CCR5 phosphorylation and desensitization. Because CCR5 is a highly proinflammatory receptor, and a critical coreceptor for HIV-1, these results may provide a novel approach for the development of specific therapeutic agents to treat patients with certain inflammatory diseases or AIDS.
Journal of Biological Chemistry 03/2011; 286(23):20354-65. · 4.77 Impact Factor
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ABSTRACT: It has been clearly demonstrated that opioids, cannabinoids, and cocaine alter a variety of assays of immune function when
added to cells of the immune system in vitro. Receptors and/or mRNA for the receptors for opioids and cannabinoids have been
demonstrated in a variety of cells of the immune system. In many cases, especially for the opioids, pharmacological specificity
of the action of the drugs has been verified using appropriate antagonists. These observations provide a biological basis
for concluding that drugs of abuse have direct affects on immune cells. In addition, all three drugs alter immune responses
of rodents, and in some cases, humans, when treated in vivo. In vivo mechanisms of action may be harder to determine as the
drugs may activate other physiologic systems in the body that may also impinge on immune responsiveness, such as the HPA and
the SNS. Nonetheless, drug abusers suffer the cumulative effects of direct and indirect effects of the drugs on the immune
system. Assays of immune function that have been measured include effects on the innate immune system, which encompass effects
on macrophages and NK cells, and effects on adaptive immunity, which include the humoral and cellular arms of the immune system.
Considerable attention has been focused on cytokine and chemokine mediators of immune function that are modulated by the drugs
and on their capacity to modulate activation of the various arms of the immune system by polarization of the cytokine profile.
Other commonly used and abused drugs include nicotine and alcohol, both of which have marked effects on the immune system,
and are frequently part of the panoply of artificial substances used by addicts. In addition, methamphetamines can alter immune
status. Due to space limitations the reader is referred to key papers on these subjects (Sopori, 2002; Gamble et al., 2006;
Pacifici et al., 2002)
12/2007: pages 531-543;
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ABSTRACT: Review of the robust literature using acute drug injection paradigms points clearly to the conclusion that morphine is immunosuppressive. In contrast, studies of the effect of subacute or chronic administration of morphine on immune function is limited, with variable results. In some cases tolerance to the immunosuppressive effects of the drug is clearly demonstrated, but in other cases, selected immune parameters do not demonstrate tolerance. Discrepancies in findings may result from differences in species or route and manner of drug administration. Even fewer studies (total of 10) have been published on the effects of withdrawal on immune function. Most immune parameters tested are suppressed following drug withdrawal. Recovery time to baseline response levels varies in the studies. In the single report of withdrawal in humans, immune function was suppressed for up to 3 years. It is clearly established that withdrawal suppresses capacity of murine spleen cells to make an ex vivo antibody response, which contrasts with evidence of polarization of the lymphocytes towards a Th2 phenotype. Several laboratories have shown that subacute and chronic exposure to morphine, as well as drug withdrawal, sensitize to the lethal effects of bacterial lipopolysaccharide. Underlying sepsis, combined with morphine-induced hypofunction of the hypothalamic-pituitary-adrenal (HPA) axis, may be occult variables modulating immune responses during opioid administration and withdrawal. As episodes of withdrawal are common among drug abusers, more intensive investigation is warranted on the effects of withdrawal on immune function, on mechanisms of immune modulation, and on sensitization to infection.
Journal of Neuroimmune Pharmacology 10/2006; 1(3):237-49. · 4.57 Impact Factor
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04/2006: pages 169-176;
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ABSTRACT: Our laboratory has shown previously that subcutaneously implanted, slow-release morphine pellets markedly enhanced susceptibility to oral infection with Salmonella typhimurium. Further, morphine, kappa and delta opioid receptor agonists infused via osmotic minipumps were immunosuppressive. The present study compared morphine pellets to morphine pumps and also examined the differential effects of morphine versus U50,488H (kappa agonist), deltorphin II (delta2 agonist), and (D-Pen2, D-Pen5)-enkephalin (DPDPE, delta1 agonist), administered via Alzet minipumps, on oral Salmonella infection and on gastrointestinal transit. The results show that all morphine-pelleted mice (26/26) had a marked increase in Salmonella burden in the Peyer's Patches, mesenteric lymph nodes and spleen. In comparison, only 8/20 mice receiving morphine by minipump at doses ranging from 1 to 25 mg/kg/day had any culturable Salmonella in their organs and the number of bacteria was very low. The level of Salmonella colonization correlated with blood morphine levels and gut transit measured using an intragastric charcoal meal. Morphine pellets inhibited gut transit by 38%, while mice receiving morphine by minipump at doses of 1 to 25 mg/kg/day showed only a dose-dependent 7% to 17% inhibition. Mice receiving various doses of U50,488H or DPDPE had no culturable Salmonella in the three sites. Deltorphin II given by minipump resulted in a moderate level of Salmonella in the spleen. Deltorphin II and U50,488H (0.1 to 10 mg/kg/day) did not suppress gut transit. The present studies indicate that a predominantly mu opioid receptor agonist, morphine, given by slow-release pellet, potentiated Salmonella infection and inhibited gastrointestinal transit. In contrast, morphine in pumps slightly inhibited intestinal transit, but did not sensitize to Salmonella infection. A delta1 opioid receptor agonist did not sensitize to infection, and a delta2 and a kappa opioid receptor agonist had minimal effects on either parameter.
European Journal of Pharmacology 04/2006; 534(1-3):250-7. · 2.52 Impact Factor
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ABSTRACT: We have previously shown that abrupt withdrawal (AW) from morphine induces greater than 80% immunosuppression in murine spleen cells, as assessed by the capacity to mount an in vitro plaque-forming cell response to sheep red blood cells. Present studies about the mechanisms of immunosuppression following AW showed that addition of highly enriched (CD11b+) splenic macrophages (obtained by cell sorting or magnetic separation) from AW mice to cultures of normal, unfractionated spleen cells suppressed immune responses. Further, addition of highly enriched (CD19+) B cells (but not T cells) from AW mice to normal cells was also immunosuppressive. B cells from AW mice were also able to inhibit the proliferative response of normal spleen cells to concanavalin A but not to lipopolysaccharide. Overall, the data suggest that immunosuppression by AW spleen cells is a result of active suppression by macrophages and B cells.
Journal of Leukocyte Biology 01/2006; 78(6):1185-91. · 4.99 Impact Factor
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ABSTRACT: Previously, our laboratory showed that either abrupt (AW) or precipitated withdrawal (PW) from morphine led to profound suppression of murine splenic antibody responses to sheep red blood cells at 24 h post-withdrawal. In the present studies, we examined the immune mechanisms mediating suppression at that time point. A co-culture method was used to examine whether cells from withdrawn mice had (1) a deficit in function and/or (2) contained populations of suppressor cells. To examine the first hypothesis, cells from normal mice were co-cultured with cells from withdrawn mice in a 1:3 ratio (normal/withdrawn). To test the second hypothesis, the ratio was reversed. The results were paradoxical. Co-culture of cells in a 1:3 ratio showed that spleen cells from withdrawn mice had a deficit in macrophage function. Spleen cells from withdrawn mice also showed decreased mRNA levels of IL-1beta, IL-1-Ra, and TNF-alpha and a suppression of co-stimulatory molecule expression. To examine the second hypothesis, cells were co-cultured in a 3:1 ratio (normal/withdrawn). In this paradigm, spleen cells from abrupt withdrawn mice were shown to contain populations of both suppressor macrophages and B-cells. In vivo experiments carried out on mice 24 h post-withdrawal showed increased sensitivity to the lethal effects of LPS and increased production of TNF-alpha, implying a state of macrophage activation. Thus evidence for both suppressed and activated macrophages has been obtained in mice 24 h after abrupt withdrawal from morphine.
Journal of Neuroimmunology 03/2004; 147(1-2):114-20. · 2.96 Impact Factor
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ABSTRACT: We have previously shown that abstinence from morphine by either abrupt (AW) or precipitated (PW) withdrawal induces greater than 80% suppression in the capacity to mount an in vitro plaque-forming cell (PFC) response to sheep red blood cells at 24-h post withdrawal. Present studies on the mechanisms of immunosuppression showed that addition of normal unfractionated spleen cells, macrophage-enriched adherent cells, or CD11b(+) purified macrophages, to spleen cells taken from withdrawn mice, restored immune responses. Spleen cells from mice undergoing withdrawal also had decreased splenic mRNA and/or protein levels of IL-1beta, IL-1Ra, TNF-alpha, IL-12, and IFN-gamma. Addition of IL-1beta or IFN-gamma to AW cultures was able to reverse their immunosuppression. These results strongly suggest that morphine withdrawal results in a deficit of macrophage function.
Journal of Neuroimmunology 12/2003; 144(1-2):16-27. · 2.96 Impact Factor
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ABSTRACT: The present studies tested the effect of withdrawal from morphine by two different paradigms, abrupt withdrawal (AW) or precipitated withdrawal (PW), on the capacity of murine spleen cells to mount an in vitro antibody response. Mice were made dependent by chronic treatment using s.c. implanted morphine slow-release pellets. Splenocytes were harvested at various time points after withdrawal and the number of antibody-forming cells determined using a plaque-forming cell (PFC) assay. The results indicate that induction of abstinence from morphine in dependent mice by either paradigm caused marked immunosuppression between 24 and 48 h post-withdrawal. However, the kinetics of onset and recovery from immunosuppression were different in AW and PW.
Journal of Neuroimmunology 07/2002; 127(1-2):88-95. · 2.96 Impact Factor
