The IGF-I receptor in mitogenesis and transformation of mouse embryo cells: role of receptor number

The type 1 receptor for insulin-like growth factors (IGF-IR) plays an important role in the growth and transformation of several types of cells. We have investigated the role of IGF-IR number in IGF-I-mediated mitogenesis and transformation of mouse embryo fibroblasts. We have used R- cells (3T3-like cells originating from mouse embryos with a targeted disruption of the IGF-IR genes) transfected with a plasmid expressing the human IGF-IR cDNA to generate clones with receptor numbers ranging from zero to 10(6) receptors per cell. In this model, between 15,000 and 22,000 receptors per cell are sufficient to render mouse embryo cells competent to grow in serum-free medium supplemented solely with IGF-I. For growth in soft agar, 30,000 receptors per cell seem to be the minimum requirement. These experiments indicate that a small increment in the number of receptors per cell, well within the physiological range, can modulate the mitogenic and transforming activities of the IGF-IR in 3T3-like cells.     

Homologous desensitization of the D1A dopamine receptor: efficacy in causing desensitization dissociates from both receptor occupancy and functional potency

The role of drug efficacy in agonist-induced desensitization was studied in C-6 glioma cells transfected with the monkey dopamine D1A (mD1A) receptor. Dopamine pretreatment for 2 hr produced greater than 80% loss of responsiveness in the stimulation of cAMP accumulation that was blocked by the D1 antagonist SCH23390. A series of full and partial D1 agonists from structurally dissimilar classes were then examined. Three full agonists (dihydrexidine, SKF82958, A77636) desensitized the receptor to the same extent as dopamine, whereas two other full agonists (dinapsoline and A68930) and all the partial agonists tested (SKF38393, pergolide and d-lysergic acid diethylamide tartrate) produced only partial desensitization (i.e., 50% that of dopamine). Whereas partial agonists (i.e., SKF38393, pergolide and d-lysergic acid diethylamide tartrate) caused no alteration in ligand-accessible mD1A receptors, four of the full agonists (dopamine, dihydrexidine, dinapsoline, A68930) caused a 30 to 40% reduction in receptor number. One full agonist, A77636, caused nearly an 80% decrease in receptor number, despite the fact that the degree of functional desensitization was similar to the other full agonists. The desensitization of the D1 receptor was homologous, not affecting beta-2 adrenergic receptors endogenous to C-6 cells. Neither incubation with cAMP analogs, nor inhibition of protein kinase A, affected dopamine-induced desensitization, suggesting a cAMP-independent mechanism in this cell line. Together, these data suggest that functional desensitization of the mD1A receptor expressed in C-6 glioma cells is a cAMP-independent mechanism, cannot be predicted reliably from agonist efficacy for stimulating adenylate cyclase and can occur in the absence of changes in receptor number.     

Histamine H3 receptor desensitization in the guinea-pig ileum

Histamine H3 receptor ligands are usually tested in guinea-pig intestine preparations. A possible desensitization of agonist-induced twitch inhibition was studied in longitudinal muscle-myenteric plexus from ileal segments. A cumulative concentration-response curve for R-alpha-methylhistamine was made; when a second curve was made 30 min afterwards, a marked decrease of pD2 and a more modest decrease of Emax were observed without changes in tissue sensitivity to electrical stimulation or morphine inhibition. At 120 min, pD2 and Emax were not different from those for the first curve. Receptor desensitization seems homologous and reversible and could interfere with repetitive testing of histamine H3 receptor ligands.     

The effect of inhibitors of receptor internalization on the desensitization and resensitization of three Gs-coupled receptor responses

Many G protein-coupled receptors (GPCRs) are known to internalize following agonist exposure, however the relative importance of this mechanism for the desensitization and resensitization of different GPCRs is unclear. In the present study, we have pretreated NG108-15 cells with hypertonic sucrose or concanavalin A (con A), to investigate the effects of these inhibitors of internalization on the agonist-induced desensitization and subsequent resensitization of three Gs-coupled receptor responses. Incubation of cells with sucrose or con A did not affect subsequent acute agonist stimulation of the A2A adenosine receptor or the agonist-induced desensitization of this receptor response. However, the resensitization of the A2A adenosine receptor response following agonist removal was abolished in the presence of sucrose or con A. Sucrose or con A treatment affected neither the desensitization nor resensitization of IP-prostanoid receptor responsiveness. On the other hand con A but not sucrose reduced the agonist-induced desensitization of secretin receptor responsiveness. However, secretin receptor responsiveness did not resensitize within the time period studied whether or not inhibitors of internalization were present. These results indicate that receptor internalization appears to subserve different functions for different GPCRs.     

Monoclonal anti-idiotypic antibody to a potent thromboxane A2 receptor antagonist and its interaction with thromboxane A2 receptor

A monoclonal anti-idiotypic antibody that interacts with thromboxane A2 receptor was generated using an anti-idiotypic approach. Idiotypic antibodies against a potent receptor antagonist, HS-145, were generated in rabbit. The idiotypic antibodies were then selected by an affinity procedure using SQ29,548-Affi-Gel-102 matrix. The selected idiotypic antibodies were used as surrogate receptor for anti-idiotypic antibody generation. A mouse monoclonal antibody, 3D-9E-12, was generated. It was shown to displace 125I-HS-145 from affinity-purified idiotypic antibodies. It also inhibits 125I-IS-145 binding to thromboxane A2 receptor in human platelet membranes in a dose-dependent manner. Furthermore, it attenuated U46,619-induced increase in [35S]guanosine 5'-O-(thiotriphosphate) binding and GTPase activity in human platelet membranes. Finally, it inhibited U46,619- but not PAF-induced platelet aggregation. These results indicate that 3D-9E-12 acts as a specific antagonist in the thromboxane A2 receptor.     

Effects of cysteinyl-leukotriene receptor antagonist, thromboxane A2 receptor antagonist, and thromboxane A2 synthetase inhibitor on antigen-induced bronchoconstriction in patients with asthma

BACKGROUND: Leukotriene (LT) and thromboxane A2 (TXA2) receptor antagonists have been used in the treatment of asthma. OBJECTIVES: We examined the effects of an LT receptor antagonist, TXA2 receptor antagonist, and TXA2 synthetase inhibitor on bronchoprovocation test (BPT) in patients with mild-to-moderate atopic asthma. METHODS: BPT was performed four times in each of six asthmatics. Development of the immediate asthmatic reaction (IAR) and late asthmatic reaction (LAR) was confirmed on the first BPT (BPT1). After a 7-day washout period, an LT receptor antagonist (pranlukast, 450 mg/d), TXA2 receptor antagonist (seratrodast, 80 mg/d), or TXA2 synthetase inhibitor (ozagrel, 800 mg/d) was administered orally over 7 days at random using a cross-over method (BPT2-4). Blood levels of LTB4, LTC4, LTD4, 11-dehydrothromboxane B2, eosinophil cationic protein, and histamine were measured at reaction phases of pre-BPT, IAR, and LAR. RESULTS: Administration of pranlukast suppressed IAR by 80.5% (p < 0.0001) and LAR by 54.6% (p = 0.0391). Ozagrel significantly suppressed IAR by 39.5% (p = 0.0413), but the fall in FEV1 was >20% (21.56+/-4.173%). Seratrodast did not suppress IAR or LAR. Blood levels of chemical mediators did not correlate with the suppressive effects of the tested drugs. CONCLUSIONS: The LT receptor antagonist was considered to be the most effective. LT might play a more important role in the pathogenesis of asthma than TXA2. Our data showed that measurement of blood levels of chemical mediators is not useful in identifying the pathogenic mechanisms of asthma.     

Molecular mechanisms of G protein-coupled receptor desensitization and resensitization

Beta-arrestin proteins play a dual role in regulating G protein-coupled receptor (GPCR) responsiveness by contributing to both receptor desensitization and internalization. Recently, beta-arrestins were also shown to be critical determinants for beta2-adrenergic receptor (beta2AR) resensitization. This was demonstrated by overexpressing wild-type beta-arrestins to rescue the resensitization-defect of a beta2AR (Y326A) mutant (gain of function) and overexpressing a dominant-negative beta-arrestin inhibitor of beta2AR sequestration to impair beta2AR dephosphorylation and resensitization (loss of function). Moreover, the ability of the beta2AR to resensitize in different cell types was shown to be dependent upon beta-arrestin expression levels. To further study the mechanisms underlying beta-arrestin function, green fluorescent protein was coupled to beta-arrestin2 (beta arr2GFP), thus allowing the real-time visualization of the agonist-dependent trafficking of beta-arrestin in living cells. Beta arr2GFP translocation from the cytoplasm to the plasma membrane proceeded with a time course, sensitivity and specificity that was indistinguishable from the most sensitive second messenger readout systems. Beta arr2GFP translocation was GRK-dependent and was demonstrated for 16 different ligand-activated GPCRs. Because beta-arrestin binding is a common divergent step in GPCR signalling, this assay represents a universal methodology for screening orphan receptors, GRK inhibitors and novel GPCR ligands. Moreover, beta arr2GFP provides a valuable new tool to dissect the biological function and regulation of beta-arrestin proteins.     

Internalization and homologous desensitization of the GLP-1 receptor depend on phosphorylation of the receptor carboxyl tail at the same three sites

Homologous desensitization and internalization of the GLP-1 receptor correlate with phosphorylation of the receptor in a 33-amino acid segment of the cytoplasmic tail. Here, we identify the sites of phosphorylation as being three serine doublets located at positions 441/442, 444/445, and 451/452. The role of phosphorylation on homologous desensitization was assessed after stable expression in fibroblasts of the wild type or of mutant receptors in which phosphorylation sites were changed in various combinations to alanines. We showed that desensitization, as measured by a decrease in the maximal production of cAMP after a first exposure of the cells to GLP-1, was strictly dependent on phosphorylation. Furthermore, the number of phosphorylation sites correlated with the extent of desensitization with no, intermediate, or maximal desensitization observed in the presence of one, two, or three phosphorylation sites, respectively. Internalization of the receptor-ligand complex was assessed by measuring the rate of internalization of bound [125I]GLP-1 or the redistribution of the receptor to an endosomal compartment after agonist binding. Our data demonstrate that internalization was prevented in the absence of receptor phosphorylation and that intermediate rates of endocytosis were obtained with receptors containing one or two phosphorylation sites. Thus, homologous desensitization and internalization require phosphorylation of the receptor at the same three sites. However, the differential quantitative impairment of these two processes in the single and double mutants suggests different molecular mechanisms controlling desensitization and internalization.     

B cell antigen receptor desensitization: disruption of receptor coupling to tyrosine kinase activation

Antigen binding to the B cell receptor (BCR) induces receptor desensitization, a condition characterized by cellular unresponsiveness to subsequent Ag stimulation despite the continued ability to bind Ag. To better understand the molecular mechanism of this unresponsiveness, we have used complementary lymphoma (K46 mu) and Ig transgenic (3-83 mu delta) mouse models to study regulation of BCR signaling. Our findings in the lymphoma model show that an initial Ag encounter renders receptors unresponsive to subsequent Ag challenge, as measured by their inability to mobilize Ca2+ and to mediate phosphorylation of receptor-proximal kinases, including Lyn, Blk, and Syk. Most importantly, the Ig alpha and Ig beta components of desensitized receptors are not phosphorylated, and receptor-associated kinases are not activated upon Ag challenge. The molecular defect does not appear to result from Lyn inactivation, sequestration, or repression, since Lyn from desensitized cell lysates is activated in vitro by synthetic doubly phosphorylated immunoreceptor tyrosine-based activation motif peptides. A similar deficit in Ag-induced receptor phosphorylation was observed in desensitized B cells from 3-83 mu delta transgenic mice. These studies indicate that Ag receptor desensitization reflects an inability to initiate activation of receptor-associated kinases that normally phosphorylate receptor Ig alphabeta subunits, leading to signal propagation.     

Phosphorylation of the thromboxane receptor alpha, the predominant isoform expressed in human platelets

A single gene encodes the human thromboxane receptor (TP), of which there are two identified splice variants, alpha and beta. Both isoforms are rapidly phosphorylated in response to thromboxane agonists when overexpressed in human embryonic kidney 293 cells; this phenomenon is only slightly altered by inhibitors of protein kinase C. Pharmacological studies have defined two classes of TP in human platelets; sites that bind the agonist I-BOP with high affinity support platelet shape change. Low affinity sites, which irreversibly bind the antagonist GR 32191, transduce platelet activation and aggregation. Isoform-specific antibodies permitted detection of TPalpha, but not TPbeta, from human platelets, although mRNA for both isoforms is present. A broad protein band of 50-60 kDa, reflecting the glycosylated receptor, was phosphorylated upon activation of platelets for 2 min with I-BOP. This was a rapid ( approximately 30 s) and transient (maximum, 2-4 min) event and was inhibited by TP antagonists. Both arachidonic acid and low concentrations of collagen stimulated TPalpha phosphorylation, which was blocked by cyclooxygenase inhibition or TP antagonism. Blockade of the low affinity TP sites with GR 32191 prevented I-BOP-induced TPalpha phosphorylation. This coincided with agonist-induced platelet aggregation and activation but not shape change. Also, activation of these sites with the isoprostane iPF2alpha-III induced platelet shape change but not TPalpha phosphorylation. Heterologous TP phosphorylation was observed in aspirin-treated platelets exposed to thrombin, high concentrations of collagen, and the calcium ionophore A 23187. Both homologous and heterologous agonist-induced phosphorylation of endogenous TPalpha was blocked by protein kinase C inhibitors. TPalpha was the only isoform detectably translated in human platelets. This appeared to correspond to the activation of the low affinity site defined by the antagonist GR 32191 and not activated by the high affinity agonist, iPF2alpha-III. Protein kinase C played a more important role in agonist-induced phosphorylation of native TPalpha in human platelets than in human embryonic kidney 293 cells overexpressing recombinant TPalpha.     

Calcium modulation of activation and desensitization of nicotinic receptors from mouse brain

The effects of extracellular calcium on functional properties of nicotinic receptors from mouse thalamus were investigated. Previous studies have reported that calcium modulates the function of several neuronal nicotinic receptors. A 86Rb+ ion efflux assay was developed to measure nicotinic receptor function from brain tissue, and data indicate that alpha4beta2 receptors may mediate this response. Using the 86Rb+ efflux assay, calcium effects on receptor activation, desensitization induced by high, activating and low, subactivating concentrations of agonist, and recovery from desensitization were examined. Effects of calcium on the kinetics of ligand binding were also investigated. Calcium modulated receptor activation by increasing the maximal response to nicotine in a concentration-dependent manner, without affecting the EC50 of nicotine. Barium, but not magnesium, mimicked the effects of calcium on receptor activation. The increase in receptor activation could not be explained by changes in the ratio of activatable to desensitized receptors as assessed by the kinetics of ligand binding. Desensitization following activation was unaffected by calcium. Calcium, barium, and magnesium, however, increased the potency of nicotine for desensitization induced by exposure to low, subactivating concentrations of nicotine. Recovery from desensitization was not modulated by calcium. These data suggest that calcium modulates various functional aspects of nicotinic receptors from mouse brain and may do so via different mechanisms.     

Somatostatin receptor desensitization in NG108-15 cells. A consequence of receptor sequestration

In NG108-15 cells inhibition of both N-type calcium channel current and adenylyl cyclase by somatostatin (SRIF) was not sustained but rapidly desensitized in the continued presence of the drug. The degree and rate of desensitization were concentration-dependent, and the desensitization was homologous with respect to the delta-opioid receptor. We have been unable to obtain evidence for the involvement of G protein-coupled receptor kinases (GRKs) in this desensitization. SRIF-induced desensitization of N-type calcium channel currents was not reduced in cells stably overexpressing a dominant negative mutant of GRK2 or following intracellular dialysis with GRK2- and GRK3-blocking peptides or with heparin. Inhibitors of protein kinase A, protein kinase C, and protein kinase G were also without effect. In contrast, both the rate and degree of SRIF-induced desensitization were reduced by pretreatment with phenylarsine oxide or concanavalin A, both inhibitors of receptor endocytosis. Furthermore, SRIF-induced desensitization was enhanced by monensin, which prevents receptor recycling back to the plasma membrane. Similarly, SRIF-induced desensitization of adenylyl cyclase inhibition was not reduced in cells stably overexpressing dominant negative mutant GRK2 but was reduced in cells pretreated with the receptor endocytosis inhibitor hyperosmotic sucrose or concanavalin A. These data are consistent with the view that SRIF-induced desensitization in NG108-15 cells results from receptor internalization.     

G protein-coupled receptor kinase specificity for phosphorylation and desensitization of alpha2-adrenergic receptor subtypes

The alpha2-adrenergic receptor (alpha2AR) subtype alpha2C10 undergoes rapid agonist-promoted desensitization which is due to phosphorylation of the receptor. One kinase that has been shown to phosphorylate alpha2C10 in an agonist-dependent manner is the betaAR kinase (betaARK), a member of the family of G protein-coupled receptor kinases (GRKs). In contrast, the alpha2C4 subtype has not been observed to undergo agonist-promoted desensitization or phosphorylation by betaARK. However, the substrate specificities of the GRKs for phosphorylating alpha2AR subtypes are not known. We considered that differential capacities of various GRKs to phosphorylate alpha2C10 and alpha2C4 might be a key factor in dictating in a given cell the presence or extent of agonist-promoted desensitization of these receptors. COS-7 cells were co-transfected with alpha2C10 or alpha2C4 without or with the following GRKs: betaARK, betaARK2, GRK5, or GRK6. Intact cell phosphorylation studies were carried out by labeling cells with 32Pi, exposing some to agonist, and purifying the alpha2AR by immunoprecipitation and SDS-polyacrylamide gel electrophoresis. BetaARK and betaARK2 were both found to phosphorylate alpha2C10 to equal extents (>2-fold over that of the endogenous kinases). On the other hand, GRK5 and GRK6 did not phosphorylate alpha2C10. In contrast to the findings with alpha2C10, alpha2C4 was not phosphorylated by any of these kinases. Functional studies carried out in transfected HEK293 cells expressing alpha2C10 or alpha2C4 and selected GRKs were consistent with these phosphorylation results. With the marked expression of these receptors, no agonist-promoted desensitization was observed in the absence of GRK co-expression. However, desensitization was imparted to alpha2C10 by co-expression of betaARK but not GRK6, while alpha2C4 failed to desensitize with co-expression of betaARK. These results indicate that short term agonist-promoted desensitization of alpha2ARs by phosphorylation is dependent on both the receptor subtype and the expressed GRK isoform.     

Mu opioid receptor phosphorylation, desensitization, and ligand efficacy

Mu opioid receptors are subject to phosphorylation and desensitization through actions of at least two distinct biochemical pathways: agonist-dependent mu receptor phosphorylation and desensitization induced by a biochemically distinct second pathway dependent on protein kinase C activation (1). To better understand the nature of the agonist-induced mu receptor phosphorylation events, we have investigated the effects of a variety of opiate ligands of varying potencies and intrinsic activities on mu receptor phosphorylation and desensitization. Exposure to the potent full agonists sufentanil, dihydroetorphine, etorphine, etonitazine, and [D-Ala2, MePhe4, Glyol5]enkephalin (DAMGO) led to strong receptor phosphorylation, while methadone, l-alpha-acetylmethadone (LAAM), morphine, meperidine, DADL, beta-endorphin(1-31), enkephalins, and dynorphin A(1-17) produced intermediate effects. The partial agonist buprenorphine minimally enhanced receptor phosphorylation while antagonists failed to alter phosphorylation. Buprenorphine and full antagonists each antagonized the enhanced mu receptor phosphorylation induced by morphine or DAMGO. The rank order of opiate ligand efficacies in producing mu receptor-mediated functional desensitization generally paralleled their rank order of efficacies in producing receptor phosphorylation. Interestingly, the desensitization and phosphorylation mediated by methadone and LAAM were disproportionate to their efficacies in two distinct test systems. This generally good fit between the efficacies of opiates in mu receptor activation, phosphorylation, and desensitization supports the idea that activated receptor/agonist/G-protein complexes and/or receptor conformational changes induced by agonists are required for agonist-induced mu receptor phosphorylation. Data for methadone and LAAM suggest possible contribution from their enhanced desensitizing abilities to their therapeutic efficacies.     

Effect of the insulin-like growth factor I receptor on ionizing radiation-induced cell death in mouse embryo fibroblasts

We have investigated the effect of the insulin-like growth factor I receptor (IGF-IR) on ionizing radiation (IR)-induced cell death using the following two mouse embryo fibroblast cell lines: (i) R- cells with a null mutation of the IGF-IR gene, therefore expressing no endogenous IGF-IR; (ii) R+ cells derived from R- cells, a stable transfectant overexpressing the human IGF-IR. Numbers of R- cells began to detach from dishes and float into the medium about 48 h after 10 Gy of X-irradiation. Internucleosomal DNA fragmentation detected by agarose gel electrophoresis, which is characteristic of apoptosis, was observed in the floating R- cells, but not in the attached cells. Unexpectedly, morphological analysis of the floating cells 72 h after irradiation revealed that only about half of them showed apoptotic death and the rest showed a nonapoptotic, presumably necrotic, one. On the other hand, R+ cells retained more than 90% viability even 4 days after irradiation, and very few floating cells were observed. The G2 arrest was induced in both cell lines following irradiation and G2/M fractions similarly returned to normal levels by around 20 h after irradiation, indicating that the cell death which appeared thereafter in R- cells is mediated through mitosis. Significant induction of p53 following irradiation was not detected by Western blot analysis in either R- or R+ cells. Collectively, these results demonstrate that signal transduction pathways originating from the IGF-IR may be involved in preventing IR-induced apoptosis and necrosis without affecting cell cycle arrest or p53 pathways.     

Prostacyclin receptor desensitization is a reversible phenomenon in human platelets

BACKGROUND: Long-term exposure of platelets to endogenous or exogenous prostacyclin or its analogues might result in desensitization of the platelet prostacyclin receptor in vitro and in vivo accompanied by a loss in receptor density on the platelet surface and a reduced sensitivity toward the inhibitory effects of prostacyclins. However, the reversibility of this process in platelets has not yet been investigated. METHODS AND RESULTS: Human platelets desensitized by the chemically stable prostacyclin analogue iloprost showed a significant reduction in [3H]-iloprost binding sites that was reversed by saponin permeabilization. This indicates functionally active internalized prostacyclin receptors. To assess whether the internalized prostacyclin receptors recycle to the cell surface after withdrawal of the agonist, iloprost sensitivity and prostacyclin receptor binding properties of iloprost (30 nmol/L, 2 hours) desensitized platelets incubated in iloprost-free autologous plasma were investigated. While desensitized platelets showed a significant increase in IC50 for iloprost inhibition of thrombin-induced platelet aggregation, serotonin release, and p-selectin expression and a reduced iloprost-stimulated cAMP formation, platelet iloprost sensitivity was restored 3 hours after iloprost withdrawal. In addition, the significant reduction in Bmax and the increase in K(D) of prostacyclin receptors in desensitized platelets as revealed by [3H]-iloprost binding studies also returned to the initial values. CONCLUSIONS: These results indicate that prostacyclin receptors internalized during short-term desensitization are not degraded but can be recycled rapidly to the platelet surface in a functionally active form after withdrawal of the agonist.     

Genomic organization of the mouse adrenocorticotropin receptor

PURPOSE: This paper describes the perceived risk of occupationally contracting HIV and reported compliance with universal precaution guidelines among Australian dental hygienists and dentists. METHODS: This examination is based upon responses to a mailed questionnaire from all registered dental hygienists (63% response rate, n = 208) and dentists (76% response rate, n = 550) in Western Australia. RESULTS: Results indicate that: 1) oral healthcare providers who perceive a high risk of occupationally contracting HIV report a more conservative, cautious approach to HIV infection than do providers who perceive less risk of contracting the virus; 2) dental hygienists are more likely than dentists to report a higher degree of perceived risk of occupationally contracting HIV; and 3) dentists are more likely than dental hygienists to report compliance with universal precaution guidelines in the dental practices where they work. CONCLUSION: Educating oral healthcare providers on the realistic risks of occupationally contracting HIV and the value of compliance with universal precaution guidelines may reduce undue stress and hindrances in the provision of safe and effective oral healthcare in this era of AIDS.     

Influence of conceptus number and weight on the amount of foetal fluid in the mouse

The relation of extra-embryonic fluid weight to litter number and foetal and placental weight was studied in mice on the 18th day of pregnancy, in litters both of experimentally reduced and of normal number. Partial regression analysis showed that litter number and foetal weight both exerted a negative effect on fluid weight; placental weight had no significant effect. Increased foetal weight reduced weight locally; on the other hand the effect of litter number was exerted systemically, throughout both horns of the uterus.