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Mu-Opioid Receptor - pAKT Signaling in the Ventral Tegmental Area is Critical for the Behavioral and Cellular Consequences of Social StressJanuary 2015 (has links)
abstract: Intermittent social defeat stress produces vulnerability to drugs of abuse, a phenomena known as cross-sensitization, which is proceeded by a corresponding upregulation of ventral tegmental area (VTA) mu-opioid receptors (MORs). Since VTA MORs are implicated in the expression of psychostimulant sensitization, they may also mediate social stress-induced vulnerability to drugs of abuse. Social stress and drugs of abuse increase mesolimbic brain-derived neurotrophic factor (BDNF) signaling with its receptor, tropomyosin-related kinase B (TrkB). These studies examined whether VTA MOR signaling is important for the behavioral and cellular consequences of social stress. First, the function of VTA MORs in the behavioral consequences of intermittent social defeat stress was investigated. Lentivirus-mediated knockdown of VTA MORs prevented social stress-induced cross-sensitization, as well as stress-induced social avoidance and weight gain deficits. Next it was examined whether VTA MOR expression is critical for stress-induced alterations in the mesocorticolimbic circuit. At the time cross-sensitization was known to occur, lentivirus-mediated knockdown of VTA MORs prevented stress-induced increases in VTA BDNF and its receptor, TrkB in the nucleus accumbens (NAc), and attenuated NAc expression of delta FosB. There was no effect of either stress or virus on BDNF expression in the prefrontal cortex. Since social stress-induced upregulation of VTA MORs is necessary for consequences of social stress, next activity dependent changes in AKT, a downstream target of MOR stimulation associated with sensitization to psychostimulant drugs, were investigated. Using fluorescent immunohistochemical double labeling for the active form of AKT (pAKT) and markers of either GABA or dopamine neurons in the VTA, it was determined that social stress significantly increased the expression of pAKT in GABA, but not dopamine neurons, and that this effect was dependent on VTA MOR expression. Moreover, intra-VTA inhibition of pAKT during stress prevented stress-induced weight gain deficits, while acute inhibition of VTA pAKT blocked the expression of cross-sensitization in subjects that had previously exhibited sensitized locomotor activity. Together these results suggest that social stress upregulates MORs on VTA GABA neurons, resulting in AKT phosphorylation, and that increased VTA MOR-pAKT signaling may represent a novel therapeutic target for the intervention of substance abuse disorders. / Dissertation/Thesis / Doctoral Dissertation Neuroscience 2015
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Antinociceptive effect of the mixture of pentacyclic triterpenes alpha- and beta- amyrin in models of visceral nociception in mice. / Efeito antinociceptivo da mistura de triterpenos pentacÃclicos alpha- e beta- amirina em modelos de nocicepÃÃo visceral em camundongos.Roberto CÃsar Pereira Lima JÃnior 01 July 2005 (has links)
CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / Protium heptaphyllum March (Burseraceae), a medicinal plant commonly found in the Amazon and in the Northeast regions of Brazil, releases an oil-resin rich in pentacyclic triterpenes, such as the binary mixture of alpha- and beta- amyrin, that manifests antiinflamatory, antinociceptive and gastroprotective properties. This work was aimed to evaluate the antinociceptive effect of the alpha- and beta- amyrin mixture in the cyclophosphamide (400 mg/kg), acetic acid (0,6%, 10mL/kg, i.p.) and mustard oil-induced visceral nociception models in mice and to establish the likely mechanism(s) of action. In the cyclophosphamide-induced visceral pain model, pretreatment of mice with triterpene mixture at the oral doses of 10, 30 and 100 mg/kg significantly reduced (p<0.001) the pain-related behavioral expression time (59,7; 75,5 e 92,3%, respectively, versus the cyclophosphamide-treated group 12,25 +/- 2,98 min) in a dose-dependent manner. Suppression of visceral painârelated behaviors was also evidenced to the triterpenoid mixture (10 mg/kg) in the intraperitoneal acetic acid- and intracolonically injected mustard oil-induced test models of visceral nociception 50,4% e 61,1%, respectively compared to the acetic acid-treated group (42,33 +/- 3,78 abdominal constrictions/20 min) in the writhing test and to the control in the mustard oil (0,75%, 50 mcL/animal) experiment (39,28 +/- 3,26). In these tests, the maximal suppression of visceral pain was observed at 10 mg/kg. The possible mechanisms involved in the antinociceptive action of alpha- and beta- amyrin (10 mg/kg) were analyzed in the mustard oil-induced visceral pain model. In the evaluation of the opioid receptor involvement, both the triterpene mixture and morphine (5 mg/kg, s.c.) effectively inhibited (p<0.001) the number of pain-related behaviors, which could be significantly reversed by pretreatment of animals with an opioid antagonist naloxona (2mg/kg, i.p.), suggesting the opioid participation in the alpha- and beta- amyrin mechanism of action. In the study of the alpha2-adrenoreceptor involvement, the triterpene mixture as well as clonidine (0.1 mg/kg, i.p.), a known alpha2 agonist, inhibited (p<0.001) the nociceptive behavioral expression. However, when the animals were pretreated with yohimbine, an alpha2-adrenoreceptor antagonist, only the inhibitory action of clonidine was reversed, suggesting the non-participation of alpha2- adrenoreceptor in the antinociceptive action of alpha- and beta- amyrin. In the evaluation of TRPV1 receptor involvement, mice pretreated with either the alpha- and beta- amyrin, ruthenium red, a TRPV1 non-competitive antagonist, (3 mg/kg, s.c.) or their combination induced a significant and similar inhibition (p<0.001) of the number of nociceptive behaviors. The degree of inhibition with no potentiation or antagonism suggests that alpha- and beta- amyrin may act as a TRPV1 non-competitive antagonist, like ruthenium red. In order to evaluate a possible sedative, motor impairment and motor incoordination effects related to alpha- and beta- amyrin, the penthobarbitone-induced sleeping time, open-field and rota-rod tests were performanced, respectively. The data indicated that the treatment of animals with the alpha- and beta- amyrin mixture (10 mg/kg) was unable to cause sedation, motor impairment or motor incoordination effects (p>0.05), being even able to reverse (p<0.05) a mustard oil-induced motor impairment in the open field test. The results taken together strongly suggest the therapeutic potential of alpha- and beta- amyrin in oblitering visceral nociception through the mechanisms that involve the opioids and TRPV1 receptors. / O Protium heptaphyllum March. (Burseraceae), uma planta medicinal encontrada na regiÃo AmazÃnica e Nordeste do Brasil, produz uma resina rica em triterpenos pentacÃclicos, como a mistura binÃria alpha- e beta- amirina, que apresentam atividade antiinflamatÃria, gastroprotetora e antinociceptiva. Este trabalho objetivou investigar a atividade antinociceptiva de alpha- e beta- amirina em modelos de dor visceral induzida por ciclofosfamida, Ãcido acÃtico e Ãleo de mostrada em camundongos, alÃm dos possÃveis mecanismos de aÃÃo envolvidos. No modelo de nocicepÃÃo visceral induzida por ciclofosfamida (400 mg/kg, i.p.), a mistura de triterpenos nas doses de 10, 30 e 100 mg/kg, v.o., reduziu (p<0,001) de forma dose-dependente o tempo de expressÃo dos comportamentos relacionados à dor visceral (59,7; 75,5 e 92,3%, respectivamente, versus o controle ciclofosfamida 12,25 +/- 2,98 min). Realizou-se o estudo nos modelos de contorÃÃes abdominais induzidas por Ãcido acÃtico (0,6%, 10mL/kg, i.p.) e dor visceral induzida por Ãleo de mostarda (0,75%, 50 mcL/animal) intracolÃnico. Os resultados indicaram uma inibiÃÃo do nÃmero de comportamentos de dor expressos pelos animais, sendo o maior nÃvel de inibiÃÃo (p<0,001) encontrado na dose de 10 mg/kg da alpha- e beta- amirina 50,4% e 61,1% comparados respectivamente ao controle Ãcido acÃtico (42,33 +/- 3,78 contorÃÃes/20min) no teste de contorÃÃes abdominais e ao controle Ãleo de mostarda (39,28 +/- 3,26) no modelo de dor visceral por Ãleo de mostarda. Para o estudo do possÃvel mecanismo de aÃÃo de alpha- e beta- amirina foi utilizada a dose de 10 mg/kg da mistura de triterpenos no modelo de nocicepÃÃo por Ãleo de mostarda. Na avaliaÃÃo da participaÃÃo do sistema opiÃide, a mistura dos triterpenos e a morfina (5 mg/kg, s.c.) inibiram significativamente (p<0,001) o nÃmero de comportamentos de dor expressos, havendo uma reversÃo da antinocicepÃÃo (p<0,05) quando prÃ-tratados com naloxona (2 mg/kg, i.p.), sugerindo a participaÃÃo opiÃide no mecanismo da alpha- e beta- amirina. No estudo do envolvimento do sistema adrenÃrgico, a mistura de triterpenos e a clonidina (0,1 mg/kg, i.p.), um agonista alpha2-adrenÃrgico, inibiram (p<0,001) a expressÃo dos comportamentos nociceptivos. PorÃm, com o prÃ-tratamento com ioimbina, um antagonista alpha2, houve reversÃo (p<0,05) da antinocicepÃÃo induzida pela clonidina, mas nÃo da alpha- e beta- amirina, sugerindo o nÃo envolvimento deste receptor na antinocicepÃÃo da mistura de triterpenos. No estudo do envolvimento do receptor TRPV1, o prÃ-tratamento dos animais com alpha- e beta- amirina, vermelho de rutÃnio (3 mg/kg, s.c.), um antagonista nÃo competitivo deste receptor, ou com a combinaÃÃo da mistura de triterpenos com vermelho de rutÃnio, houve uma inibiÃÃo (p<0,001) semelhante, para todos os tratamentos, dos comportamentos de dor. A nÃo potencializaÃÃo, ou antagonismo, do efeito antinociceptivo de alpha- e beta- amirina pelo vermelho de rutÃnio sugere que a mistura atue como um antagonista nÃo-competitivo TRPV1. Para avaliar a existÃncia de um efeito sedativo, de um impedimento locomotor ou de uma incoordenaÃÃo motora, foram utilizados os testes do tempo de sono induzido por pentobarbital, teste do campo aberto e o teste do rota rod, respectivamente. Os dados indicaram que o tratamento com a mistura de triterpenos (10 mg/kg) nÃo induziu (p>0,05) sedaÃÃo, impedimento locomotor ou incoordenaÃÃo motora nos animais, sendo ainda capaz de reverter (p<0,05) o impedimento locomotor induzido pelo Ãleo de mostarda no teste do campo aberto. Em conjunto os dados revelaram a efetividade da mistura de alpha- e beta- amirina em modelos de nocicepÃÃo visceral possivelmente envolvendo receptores opiÃides e TRPV1.
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Mood disruption in heroin abstinence : mechanisms and gene discovery / Déficits émotionnels dans l'abstinence à l'héroïne : mécanismes moléculaires et nouveaux gènesAyranci, Gülebru 23 September 2015 (has links)
L'addiction est une affection chronique emmaillée de rechutes, caractérisée principalement par des comportements compulsifs de recherche et de consommation de drogue. Il s'agit d'une pathologie grave et fréquente. Les sujets qui parviennent à se désengager de ces compulsions sont considérés comme abstinents. Les études épidémiologiques montrent que l'abstinence, notamment pour les opiacés est fortement associée à une prévalence accrue de la dépression. Le but de mon travail de thèse était d'aborder spécifiquement la cooccurrence des troubles dépressifs et addictifs. J'ai participé à l'élaboration d'un modèle murin de cette comorbidité, et nous nous sommes focalisés sur l'addiction aux opiacés, en particulier l'héroïne. Suite à un traitement chronique par l'héroïne et au cours de l'abstinence paraissent progressivement des comportements apparentés à la dépression. Ce traitement chronique à l'héroïne modifie le fonctionnement du système sérotoninergique et l'activité du récepteur opioïde kappa (Article publié: Distinct mu, delta, and kappa opioid receptor mechanisms underlie low sociability and depressive-like behaviors during heroin abstinence). Les déficits comportementaux observés peuvent être prévenus et reversés par un traitement antidépresseur ciblant le system sérotoninergique ou en inhibant l'activité du récepteur opioïde kappa avec un antagoniste, dans des portions similaires (Manuscript submis: Kappa opioid receptor antagonism prevents and reverses heroin abstinence-induced social deficit with similar efficacy compared to chronic antidepressant treatment). Notre étude nous permet de proposer que le récepteur opioïde kappa constitue un acteur majeur à l'interface de l'addiction et de la dépression(Revue publié: The kappa opioid receptor: from addiction to depression, and back). / Addiction is a chronic, relapsing disorder and is mainly described as compulsive craving and consumption of a drug in spite of adverse consequences. Individuals who have achieved to refrain from such compulsive behaviour are considered abstinent, but present symptoms reminiscent of depression. Epidemiological studies report that abstinence, particularly from opiates, strongly associates with higher prevalence of depression. Aim of my thesis was to specifically address the co-occurrence of opiate addiction and major depression in preclinical research. Thus, I have contributed to develop a mouse model of opiate abstinence, and in particular extend our model of morphine abstinence to heroin. Following exposure to escalating doses of heroin, abstinent mice progressively exhibit a depressive-like phenotype, revealed by low sociability., and show altered serotonergic and kappa opioid receptor signaling (Published article: Distinct mu, delta and kappa opioid receptor mechanisms underlie low sociability and depressive-like behaviors during heroin abstinence).Importantly, these behavioural deficits can be both prevented and reversed by antidepressant treatment targeting serotonergic signaling, or inhibiting the activity of the kappa opioid receptor withan antagonist, with similar efficacy (Submitted article: Kappa opioid receptor antagonism prevents and reverses heroin abstinence-induced social deficit with similar efficacy compared to chronic antidepressant treatment). Altogether, our results allow us to propose the kappa opioid receptor is a major player at the interface of addiction and depression (Published review: The kappa opioid receptor: from addiction to depression, and back).
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Generation of a MOR-CreER knock-in mouse line to study cells and neural circuits involved in mu opioid receptor signaling / ミューオピオイド受容体(MOR)のシグナル伝達および神経回路制御機構解析を目的とするMOR-CreERノックインマウスの開発Okunomiya, Taro 23 March 2020 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22366号 / 医博第4607号 / 新制||医||1043(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 林 康紀, 教授 岩田 想, 教授 高橋 淳 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Vliv morfinu na expresi a distribuci alfa a beta podjednotek trimerních G-proteinů v myokardu potkana / The effect of morphine on expression and distribution of the alpha and beta subunits of trimeric G-proteins in the rat myocardiumBartoňová, Iveta January 2011 (has links)
Morphine is a clinically very important drug from the opioid group that is used for treatment of severe pain because of its strong analgetic effect. Opioid receptors mediating the morphine effect interact with the Gi/o class of trimeric G-proteins. Opioid receptors also occur in heart tissue and morphine can thus potentially exercise its effect on the function of this organ. The major aim of this project was to pursue consequences of long-term treatment with morphine on expression and distribution of selected heterotrimeric G-protein subunits in the rat heart. Potential cardioprotective effects of this drug have also been studied. Laboratory rats of the Wistar strain were treated with morphine (1 mg/kg/day or 10 mg/kg/day) for 10 or 28 days. The control group was treated with saline solution. Prolonged treatment with morphine did not cause any effects on Gs, Gi, Gz, Gq/11, G subunits, but the expression of Go rather decreased. The results of subsequent experiments showed that prolonged administration of high doses of morphine may reduce the area affected by infarction and reduced the frequency of ventricle arrhythmias depending on dose and duration of morphine administration. Key words: morphine, myocardium, opioid receptor, G-protein subunits, infarction.
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Release of Endomorphin-2 Like Substances From the Rat Spinal CordWilliams, C. A., Wu, S. Y., Dun, S. L., Kwok, E. H., Dun, N. J. 24 September 1999 (has links)
Release of endomorphin (ENDO)-2 like substances from the dorsal horn of the isolated rat spinal cord was measured by the immobilized-antibody microprobe technique. Spinal cords were removed from anesthetized 4-6 week old rats and superfused with oxygenated Krebs solution at room temperature. Glass microprobes coated with ENDO-2 antibodies were inserted into the dorsal horn of the lumbar spinal cord 1.5 mm lateral to the midline to a depth 2.5 mm below the dorsal surface of the cord. Each probe remained in situ for 10 min periods before, during and after electrical stimulation applied to the dorsal root entry zone of the same spinal segment. There was no detectable basal release of immunoreactive endomorphin-2 like substance (irENDO) from the dorsal horns during the pre-stimulation, nor following the stimulation period. A significant release of irENDO was measured during the electrical stimulation. These results provide the first evidence of a irEndo release that is correlated spatially with the dorsal horn laminae I and II where ENDO-2-immunoreactive fibers are concentrated in the dorsal horn in response to electrical activation of primary afferent fibers.
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Aerobic Exercise Alters Opioid Receptors Following Chronic Alcohol ExposureBrundage, James N. 03 August 2020 (has links)
Opioid receptors have been a target of pharmacological manipulation in alcohol use disorder (AUD) recovery protocols for many years. Aerobic exercise, a common adjunct in AUD recovery, is known to modulate opioid receptors (ORs) both during both acute and long term exposure. The three subtypes of ORs: mu (MOR), delta (DOR), and kappa (KOR) are all expressed on neurons in the mesocorticolimbic circuitry. Kappa-opioid receptors are expressed directly on dopamine (DA) neuron terminals in the nucleus accumbens (NAc). Mu and Delta ORs are expressed on cholinergic interneurons (CINs) and GABA neurons in the NAc. In alcohol dependent rodents, KORs are hypersensitized. It is theorized that this hypersensitization contributes to EtOH seeking behavior. In contrast, aerobic exercise desensitizes the KORs. Given the high degree of pharmacological overlap between opioid receptors, it is also hypothesized that EtOH and aerobic exercise may have effects on MORs and DORs as well. Here, it is investigated whether a routine of voluntary aerobic exercise decreases EtOH induced changes to KOR modulation of dopamine (DA) release in the nucleus accumbens (NAc) along with possible mechanisms through which this might occur. The responsiveness of MORs and DORs in EtOH dependence, and how aerobic exercise modulates those effects is also investigated. Exercise attenuated EtOH induced hypersensitization of KORs in the NAc. Exercise decreases expression of KORs, which may account for the changes in KOR sensitization. The MOR agonist DAMGO decreased DA reuptake ex vivo, but not signal amplitude while DOR agonist DPDPE had no effect on either reuptake or signal amplitude. Overall, dependent animals that were allowed to exercise, consumed less EtOH in a drinking in the dark model. These data suggest that exercise is a useful adjunct to AUD recovery protocols, and that its effects are likely mediated by KORs. The findings related to MORs and DORs suggest that MORs, but not DORs, may act through acetyl choline receptors to modulate DA reuptake in the NAc, however much more work is needed to characterize this effect.
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Exploring functional genetic variants in genes involved in mental disordersZhang, Ying 23 August 2007 (has links)
No description available.
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Pharmacological and Neuroanatomical Analysis of GNTI-Induced Repetitive Behavior in MiceInan, Saadet January 2010 (has links)
This thesis is comprised of two parts. In the first part, we investigated a) the pharmacology of GNTI, a selective kappa opioid receptor antagonist, as a scratch-inducing compound in mice and b) possible mediators and receptors that may be involved in GNTI-induced scratching (itch). We studied if GNTI induces scratching through opioid, histamine, gastrin-releasing peptide (GRP) and/or muscarinic M1 receptors. In the second part, we established similarities and differences between pain and itch using GNTI-induced scratching and formalin-induced nociception models in mice. We found that GNTI (0.03-3 mg/kg, s.c., behind the neck) induces compulsive and vigorous scratching behavior in a dose-dependent manner. A standard submaximal dose (0.3 mg/kg) of GNTI caused animals to scratch 500-600 times in a 30 min observation period. Intrathecal (i.t.) or intraperitoneal (i.p.) administration of GNTI did not elicit scratching behavior. Duration of action of GNTI was 60-70 min and tolerance to the repetitive behavior did not develop. C-fos expressing neurons, in response to GNTI injection, were localized on the lateral side of the superficial layers of the dorsal horn of the cervical spinal cord. Compound 48/80, a chemically different pruritogen, evoked c-fos expression in neurons which are located on the lateral side of the superficial layer of the dorsal horn. These data suggest that both GNTI and compound 48/80 activate a group of sensory neurons located on the lateral side of lamina I and II. Pretreating (at -20 min) and posttreating (at +5 min) mice with the kappa opioid receptor agonist, nalfurafine (0.001-0.03 mg/kg, s.c.), significantly attenuated scratching induced by GNTI (0.3 mg/kg). These effects were not a consequence of behavioral depression. Tolerance did not develop to the anti-scratch activity of nalfurafine. Pretreating mice with nalfurafine (0.02 mg/kg) prevented both GNTI- and compound 48/80-provoked c-fos expression. Our c-fos results suggest that the preclinical antipruritic activity of nalfurafine occurs at the spinal level. Moreover, our results reinforce the need to evaluate nalfurafine as a potentially useful antipruritic in human conditions involving itch. GNTI still elicited excessive scratching in mice lacking mu, delta or kappa opioid receptors, respectively, as well as in mice pretreated with either naloxone or norbinaltorphimine. The H1 receptor antagonist, fexofenadine, or the H4 receptor antagonist, JNJ 10191584, did not attenuate GNTI-induced scratching. Also, pretreating mice with the peptide GRPR antagonist, [D-Phe6]bombesin(6-13) methyl ester, or the non-peptide GRPR antagonist, RC-3095, did not antagonize scratching induced by GNTI. Furthermore, GRPR mRNA levels did not change in response to GNTI injection. Telenzepine, a standard M1 receptor antagonist, had no marked effect against GNTI-elicited scratching, however (unexpectedly) McN-A-343, an M1 receptor agonist, attenuated this behavior in a dose-dependent manner. In the second part of our studies, we found that pretreating mice with lidocaine (i.d., behind the neck) inhibits GNTI-induced scratching and prevents GNTI-provoked c-fos expression in the dorsal horn of the spinal cord. Similarly, lidocaine (i.d., hind leg) inhibits formalin-induced nociception as well as formalin-provoked c-fos expression. While injection (s.c.) of formalin to the face of mice induced only wiping (indicating pain) by forepaws of the injection side, injection (s.c.) of GNTI to the face elicited grooming and scratching (indicating itch). In contrast to formalin, GNTI did not induce c-fos expression in the trigeminal nucleus suggesting that pain and itch sensations are projected differently along the sensory trigeminal pathway. In short, our main results indicate that a) the scratch-inducing activity of GNTI is not mediated by opioid, histamine or GRP receptors; b) kappa opioid receptors are involved, at least in part, in the inhibition of itch sensation and thus, on the basis of our results, nalfurafine holds promise as a potentially useful antipruritic in human conditions involving itch; and c) agonism at M1 receptors inhibits GNTI-induced scratching therefore the M1 receptor may be a key target for antipruritic drug development. / Pharmacology
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The Biochemical Basis of The miR-21 Expression by The Mu-Opioid ReceptorChang, Jen-Kuan January 2015 (has links)
Opioid receptors are members of the superfamily of seven transmembrane G protein-coupled receptors (GPCRs) which share several structural and functional characteristics. There are 3 subtypes of opioid receptors, designated μ (MOR), δ (DOR), and κ (KOR) opioid receptors, have been found in the immune, nervous, gastrointestinal and other tissues. We have attempted to clarify the nature of MOR-induced signal transduction pathways in leukocytes. We found that the activation of MOR leads to a significant induction of ERK phosphorylation in peripheral blood mononuclear cells from normal donors using the MOR-selective agonist DAMGO. We are also interested in determining the role of this signaling pathway in the regulation of the immune response. Recent experiments using selective inhibitors suggests that the activation of ERK involves a pathway composed of Raf, Ras, and MEK1/2 kinases, but is independent of PI3 kinase. After treatment of multiple protein kinase inhibitors we found the PKC inhibitor Go-6983 and PLC inhibitor U73122 could also inhibit ERK phosphorylation in MOR stable line (HEK-MOR). According to the results from the Go-6983 and H-89 inhibitor treatment experiments, we found PKCμ/PKD1, a family member of Protein Kinase D, may be involved in MOR-induced ERK phosphorylation. We also found PKCμ/PKD1 S916 phosphorylation after MOR activation and the PKCμ specific inhibitor CID755673 inhibited the MOR-mediated ERK activation. ERK phosphorylation activated several transcription factors in human monocytes, the activation of transcription factors has been proved to induce miRNA expression. We have initiated a series of experiments to study the regulation of miRNA expression by MOR in human monocytes. We found miR-21, miR-155, miR-29a, miR-20b expression were significantly up-regulated following morphine treatment, and morphine-induced miR-21 expression is down-regulated following pretreatment with the ERK inhibitor U0126 and PKD inhibitor CID755673 in human primary monocytes. The results suggest that morphine-induced MOR activation results in up-regulation of miRNA expression human monocytes and this may regulate monocyte and/or macrophage function thought PKCμ/Ras/Raf/ERK signaling pathway. / Molecular Biology and Genetics
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