Effect of phosducin on opioid receptor function.
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Phosducin (Phd) regulates the function of G proteins by its ability to tightly bind Gbetagamma subunits. Because the internalization of opioid receptors as well as the activity of adenylyl cyclase (AC) activity depends on G proteins, we tested Phd on these parameters. NG 108-15 hybrid cells stably expressing the phosphoprotein were challenged with [D-penicillamine2,D-penicillamine5]enkephalin to inhibit cAMP generation, demonstrating an increased efficacy of the opioid on AC. Studying the binding of [35S]guanosine-5'-O-(gamma-thio)-triphosphate to membranes from Phd overexpressing cells, we found that [D-penicillamine2, D-penicillamine5 ]enkephalin failed, in the presence of Phd (0.1 nM), to elevate incorporation of the nucleotide. Phd also strongly inhibited opioid-stimulated GTPase activity. NG 108-15 cells were also employed to investigate the effect of Phd on opioid receptor internalization. Control cells and cells overexpressing Phd were transiently transfected to express mu-opioid receptors fused to green fluorescence protein. In controls and in Phd overexpressing cells confocal microscopy identified fluorescence associated with the membrane. Time-lapse series microscopy of living control cells challenged with etorphine (1 microM) revealed receptor internalization within 30 min. In contrast, Phd overexpressing cells largely failed to respond to the opioid. Thus, in Phd overexpressing cells, opioids exhibit an increased efficacy despite the inhibitory action of the phosphoprotein on opioid-stimulated incorporation of [35S]guanosine-5'-O-(gamma-thio)-triphosphate. We suggest that inhibition of GTPase stabilizes the opioid-induced G protein Gi-GTP complex, which is believed to enhance AC inhibition. Finally, scavenging of Gbetagamma by Phd attenuates internalization of opioid receptors, which may contribute to the efficacy of opioids. (+info)
Solution assembly of the pseudo-high affinity and intermediate affinity interleukin-2 receptor complexes.
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The high affinity interleukin-2 receptor is composed of three cell surface subunits, IL-2Ralpha, IL-2Rbeta, and IL-2Rgamma. Functional forms of the IL-2 receptor exist, however, that enlist only two of the three subunits. On activated T-cells, the alpha- and beta-subunits combine as a preformed heterodimer (the pseudo-high affinity receptor) that serves to capture IL-2. On a subpopulation of natural killer cells, the beta- and gamma-subunits interact in a ligand-dependent manner to form the intermediate affinity receptor site. Previously, we have demonstrated the feasibility of employing coiled-coil molecular recognition for the solution assembly of a heteromeric IL-2 receptor complex. In that study, although the receptor was functional, the coiled-coil complex was a trimer rather than the desired heterodimer. We have now redesigned the hydrophobic heptad sequences of the coiled-coils to generate soluble forms of both the pseudo-high affinity and the intermediate affinity heterodimeric IL-2 receptors. The properties of these complexes were examined and their relevance to the physiological IL-2 receptor mechanism is discussed. (+info)
Disruption of estrogen signaling does not prevent progesterone action in the estrogen receptor alpha knockout mouse uterus.
(19/3334)
Estrogen is known to increase progesterone receptor (PR) levels in the wild-type mouse uterus, and this estrogen induction was thought to be important for progesterone action through the PR. The estrogen receptor alpha knockout (ERKO) mouse uterus was observed to express PR mRNA that cannot be induced by estrogen. Progesterone action was characterized to determine whether it was diminished in ERKO mice. The PR protein is present in the ERKO uterus at 60% of the level measured in a wild-type uterus. The PR-A and PR-B isoforms are both detected on Western blot, and the ratio of isoforms is the same in both genotypes. Although the level of PR is reduced in the ERKO uterus, the receptor level is sufficient to induce genomic responses, since both calcitonin and amphiregulin mRNAs were increased after progesterone treatment. Finally, the ERKO uterus can be induced to undergo a progesterone-dependent decidual response. Surprisingly, the decidual response is estrogen independent in the ERKO, although it remains estrogen dependent in a wild type. These results indicate that estrogen receptor alpha modulation of PR levels is not necessary for expression of the PR or genomic and physiologic responses to progesterone in the ERKO uterus. (+info)
Attenuation of haloperidol-induced catalepsy by a 5-HT2C receptor antagonist.
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Atypical neuroleptics produce fewer extrapyramidal side-effects (EPS) than typical neuroleptics. The pharmacological profile of atypical neuroleptics is that they have equivalent or higher antagonist affinity for 5-HT2 than for dopamine D2 receptors. Our aim was to identify which 5-HT2 receptor contributed to the atypical profile. Catalepsy was defined as rats remaining immobile over a horizontal metal bar for at least 30 s, 90 min after dosing. Radioligand binding assays were carried out with homogenates of human recombinant 5-HT2A, 5-HT2B and 5-HT2C receptors expressed in Human Embryo Kidney (HEK293) cells. Haloperidol (1.13 mg kg(-1) i.p.) induced catalepsy in all experiments. The selective 5-HT2C/2B receptor antagonist, SB-228357 (0.32-10 mg kg(-1) p.o.) significantly reversed haloperidol-induced catalepsy whereas the 5-HT2A and 5-HT2B receptor antagonists, MDL-100907 (0.003-0.1 mg kg(-1) p.o.) and SB-215505 (0.1-3.2 mg kg(-1) p.o.) respectively did not reverse haloperidol-induced catalepsy. The data suggest a role for 5-HT2C receptors in the anticataleptic action of SB-228357. (+info)
Agonist-inverse agonist characterization at CB1 and CB2 cannabinoid receptors of L759633, L759656, and AM630.
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We have tested our prediction that AM630 is a CB2 cannabinoid receptor ligand and also investigated whether L759633 and L759656, are CB2 receptor agonists. Binding assays with membranes from CHO cells stably transfected with human CB1 or CB2 receptors using [3H]-CP55940, confirmed the CB2-selectivity of L759633 and L759656 (CB2/CB1 affinity ratios = 163 and 414 respectively) and showed AM630 to have a Ki at CB2 receptors of 31.2 nM and a CB2/CB1 affinity ratio of 165. In CB2-transfected cells, L759633 and L759656 were potent inhibitors of forskolin-stimulated cyclic AMP production, with EC50 values of 8.1 and 3.1 nM respectively and CB1/CB2 EC50 ratios of > 1000 and > 3000 respectively. AM630 inhibited [35S]-GTPgammaS binding to CB2 receptor membranes (EC50 = 76.6 nM), enhanced forskolin-stimulated cyclic AMP production in CB2-transfected cells (5.2 fold by 1 microM), and antagonized the inhibition of forskolin-stimulated cyclic AMP production in this cell line induced by CP55940. In CB1-transfected cells, forskolin-stimulated cyclic AMP production was significantly inhibited by AM630 (22.6% at 1 microM and 45.9% at 10 microM) and by L759633 at 10 microM (48%) but not 1 microM. L759656 (10 microM) was not inhibitory. AM630 also produced a slight decrease in the mean inhibitory effect of CP55940 on cyclic AMP production which was not statistically significant. We conclude that AM630 is a CB2-selective ligand that behaves as an inverse agonist at CB2 receptors and as a weak partial agonist at CB1 receptors. L759633 and L759656 are both potent CB2-selective agonists. (+info)
Roles of threonine 192 and asparagine 382 in agonist and antagonist interactions with M1 muscarinic receptors.
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Conserved amino acids, such as Thr in transmembrane domains (TM) V and Asn in TM VI of muscarinic receptors, may be important in agonist binding and/or receptor activation. In order to determine the functional roles of Thr192 and Asn382 in human M1 receptors in ligand binding and receptor activation processes, we created and characterized mutant receptors with Thr192 or Asn382 substituted by Ala. HM1 wild-type (WT) and mutant receptors [HM1(Thr192Ala) and HM1(Asn382Ala)] were stably expressed in A9 L cells. The Kd values for 3H-(R)-QNB and Ki values for other classical muscarinic antagonists were similar at HM1(WT) and HM1(Thr192Ala) mutant receptors, yet higher at HM1(Asn382Ala) mutant receptors. Carbachol exhibited lower potency and efficacy in stimulating PI hydrolysis via HM1(Thr192Ala) mutant receptors, and intermediate agonist activity at the HM1(Asn382Ala) mutant receptors. The Asn382 residue in TM VI but not the Thr192 residue in TM V of the human M1 receptor appears to participate directly in antagonist binding. Both Thr192 and Asn382 residues are involved differentially in agonist binding and/or receptor activation processes, yet the Asn382 residue is less important than Thr192 in agonist activation of M1 receptors. Molecular modelling studies indicate that substitution of Thr192 or Asn382 results in the loss of hydrogen-bond interactions and changes in the agonist binding mode associated with an increase in hydrophobic interactions between ligand and receptor. (+info)
Signalling by CXC-chemokine receptors 1 and 2 expressed in CHO cells: a comparison of calcium mobilization, inhibition of adenylyl cyclase and stimulation of GTPgammaS binding induced by IL-8 and GROalpha.
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The effect of interleukin-8 (IL-8) and growth-related oncogene alpha (GROalpha) on [35S]-guanosine 5'-O-(3-thiotriphosphate) ([35S]GTPgammaS) binding, forskolin-stimulated cyclic AMP accumulation and cytosolic calcium concentration were determined in recombinant CHO cells expressing HA-tagged CXC-chemokine receptors 1 and 2 (CXCR1 and CXCR2). Radioligand binding assays confirmed that the binding profiles of the recombinant receptors were similar to those of the native proteins. IL-8 displaced [125I]-IL-8 binding to CXCR1 and CXCR2 with pKi values of 8.89+/-0.05 and 9.27+/-0.03, respectively. GROalpha, a selective CXCR2 ligand, had a pKi value of 9.66+/-0.39 at CXCR2 but a pKi>8 at CXCR1. Calcium mobilization experiments were also consistent with previous reports on native receptors. Activation of both receptors resulted in stimulation of [35S]GTPgammaS binding and inhibition of adenylyl cyclase. A comparison of the functional data at CXCRI showed that a similar potency order (IL-8> >GROalpha) was obtained in all three assays. However, at CXCR2 whilst the potency orders for calcium mobilization and inhibition of adenylyl cyclase were similar (IL-8 > or = GROalpha), the order was reversed for stimulation of [35S]GTPgammaS binding (GROalpha > IL-8). All of the functional responses at both receptors were inhibited by pertussis toxin (PTX), suggesting coupling to a Gi/Go protein. However, the calcium mobilization induced by IL-8 at CXCR1 was not fully inhibited by PTX, suggesting an interaction with a G-protein of the Gq family. Our results with pertussis toxin also suggested that, in the [35S]GTPgammaS binding assay, CXCR1 displays some constitutive activity. Thus, we have characterized the binding and several functional responses at HA-tagged CXCRs 1 and 2 and have shown that their pharmacology agrees well with that of the native receptors. We also have preliminary evidence that CXCR1 displays constitutive activity in our cell line and that CXCR2 may traffic between different PTX sensitive G-proteins. (+info)
Oxytocin receptor expression in human term and preterm gestational tissues prior to and following the onset of labour.
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Oxytocin receptor (OTR) mRNA expression has previously been demonstrated in human myometrium, decidua, chorion and amnion but the effect of gestational age and the onset of labour has not been determined in these individual tissues. Spatial OTR mRNA expression was examined by in situ hybridization and ligand binding was confirmed using autoradiography with the iodinated oxytocin antagonist d(CH2)5[Tyr(Me)2,Thr4,Tyr-NH29]-vasotocin (125I-OTA). Tissue was collected at term (>37 weeks of gestation) or preterm (24-36 weeks of gestation) caesarean section and classified as labour (contractions every 5 min associated with cervical dilatation) or non-labour. OTR mRNA expression was measured as optical density units from autoradiographs. There was a highly significant (P<0.001) effect of tissue type on expression of OTR mRNA with expression greatest in myometrium, low in decidua and chorion and not detected in placenta. Similar results were obtained with the 125I-OTA-binding studies, indicating that the message was translated. Amnion had an apparently high level of both hybridization and 125I-OTA binding in some samples, but a lack of specificity prevented quantification of the signal in this tissue type. Term myometrium (labour and non-labour) had significantly higher (P<0.01) OTR mRNA expression than preterm myometrium, but there was no further increase in mRNA concentration associated with labour onset. In contrast, 125I-OTA binding in myometrium was already high at 33 weeks and did not increase further either later in pregnancy or with labour. In decidua there was no effect of gestational age or labour onset on OTR mRNA expression or 125I-OTA binding. In summary, OTR mRNA expression in the myometrium increased in late pregnancy whereas decidual expression was much lower and did not rise at term. (+info)