Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been reported that pertussis toxin (PTX) suppresses the function of trimeric guanine nucleotide binding protein (G-protein). We examined the effect of PTX on insulin-induced glucose uptake, diacylglycerol (DG)-protein kinase C (PKC) signalling, phosphatidylinositol (PI) 3-kinase and PKC zeta activation and insulin-induced tyrosine phosphorylation of Gialpha to clarify the role of G-protein for insulin-mediated signal transduction mechanism in rat adipocytes and soleus muscles. Isolated adipocytes and soleus muscles were preincubated with 0.01 approximately 1 ng/ml PTX for 2 hours, followed by stimulation with 10-100 nM insulin or 1 microM tetradecanoyl phorbol-13-acetate (TPA). Pretreatment with PTX resulted in dose-responsive decreases in insulin-stimulated [3H]2-deoxyglucose (DOG) uptake, and unchanged TPA-stimulated [3H]2-DOG uptake, without affecting basal [3H]2-DOG uptake. In adipocytes, insulin-induced DG-PKC signalling, PI 3-kinase activation and PKC zeta translocation from cytosol to the membrane were suppressed when treated with PTX, despite no changes in [125I]insulin-specific binding and insulin receptor tyrosine kinase activity. Moreover, to elucidate insulin-stimulated tyrosine phosphorylation of 40 kDa alpha-subunit of G-protein (Gialpha-2), adipocytes were stimulated with 10 nM insulin for 10 minutes, homogenized, immunoprecipitated with anti-phosphotyrosine antibody, and immunoblotted with anti-Gialpha-2 antibody. Insulin-induced tyrosine phosphorylation of Gialpha-2 was found by immunoblot analysis with anti-Gialpha-2 antibody. These results suggest that G-protein regulates DG-PKC signalling by binding of Gialpha-2 with GTP and PI 3-kinase-PKC zeta signalling by releasing of Gbetagamma via dissociation of trimeric G-protein after insulin receptor tyrosine phosphorylation in insulin-sensitive tissues.
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PMID:Effect of pertussis toxin on insulin-induced signal transduction in rat adipocytes and soleus muscles. 1078 29

In this study the effect of insulin and A(1)-adenosine receptor stimulation on protein kinase B (PKB) activation has been investigated in the hamster vas deferens smooth muscle cell line DDT(1)MF-2. Increases in PKB phosphorylation were determined by Western blotting using an antibody that detects PKB phosphorylation at Ser(473). Insulin, a recognized activator of PKB, stimulated a concentration-dependent increase in PKB phosphorylation in DDT(1)MF-2 cells (EC(50) 5+/-1 pM). The selective A(1)-adenosine receptor agonist N(6)-cyclopentyladenosine (CPA) stimulated time and concentration-dependent increases in PKB phosphorylation in DDT(1)MF-2 cells (EC(50) 1.3+/-0.5 nM). CPA-mediated increases in PKB phosphorylation were antagonized by the A(1)-adenosine receptor selective antagonist 1,3-dipropylcyclopentylxanthine (DPCPX) yielding an apparent K(D) value of 2.3 nM. Pre-treatment of DDT(1)MF-2 cells with pertussis toxin (PTX, 100 ng ml(-1) for 16 h), to block G(i)/G(o)-dependent pathways, abolished CPA (1 microM) induced phosphorylation of PKB. In contrast, responses to insulin (100 nM) were resistant to PTX pre-treatment. The phosphatidylinositol 3-kinase (PI-3K) inhibitors wortmannin (IC(50) 10.3+/-0.6 nM) and LY 294002 (IC(50) 10.3+/-1.2 microM) attenuated the phosphorylation of PKB elicited by CPA (1 microM) in a concentration-dependent manner. Wortmannin (30 nM) and LY 294002 (30 microM) also blocked responses to insulin (100 nM). Removal of extracellular Ca(2+) and chelation of intracellular Ca(2+) with BAPTA had no significant effect on CPA-induced PKB phosphorylation. Similarly, pretreatment (30 min) with inhibitors of protein kinase C (Ro 31-8220; 10 microM), tyrosine kinase (genistein; 100 microM), mitogen-activated protein (MAP) kinase kinase (PD 98059; 50 microM) and p38 MAPK (SB 203580; 20 microM) had no significant effect on CPA-induced PKB phosphorylation. In conclusion, these data demonstrate that A(1)-adenosine receptor stimulation in DDT(1)MF-2 cells increases PKB phosphorylation through a PTX and PI-3K-sensitive pathway.
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PMID:Activation of protein kinase B by the A(1)-adenosine receptor in DDT(1)MF-2 cells. 1086 94

We have recently shown that pretreatment with endothelin-1 (ET-1) for 20 min stimulates GLUT4 translocation in a PI3-kinase-dependent manner in 3T3-L1 adipocytes (Imamura, T. et al., J Biol Chem 274:33691-33695). This study presents another pathway by which ET-1 potentiates glucose transport in 3T3-L1 adipocytes. ET-1 treatment (10 nM) leads to approximately 2.5-fold stimulation of 2-deoxyglucose (2-DOG) uptake within 20 min, reaching a maximal effect of approximately 4-fold at approximately 6 h, and recovering almost to basal levels after 24 h. Insulin treatment (3 ng/ml) results in an approximately 5-fold increase in 2-DOG uptake at 1 h, and recovering to basal levels after 24 h. The ETA receptor antagonist, BQ 610, inhibited ET-1 induced glucose uptake both at 20 min and 6 h, whereas the ETB receptor antagonist, BQ 788, was without effect. Interestingly, ET-1 stimulated 2-DOG uptake at 6 h, not at 20 min, was almost completely blocked by the protein-synthesis inhibitor, cycloheximide and the RNA-synthesis inhibitor, actinomycin D, suggesting that the short-term (20 min) and long-term (6 h) effects of ET-1 involve distinct mechanisms. GLUT4 translocation assay showed that 20 min, but not 6 h, exposure to ET-1 led to GLUT4 translocation to the plasma membrane. In contrast, 6 h, but not 20 min, exposure to ET-1 increased expression of the GLUT1 protein, without affecting expression of GLUT4 protein. ET-1 induced 2-DOG uptake and GLUT1 expression at 6 h were completely inhibited by the MEK inhibitor, PD 98059, and partially inhibited by the PI3-kinase inhibitor, LY 294002, and the G alpha i inhibitor, pertussis toxin. The PLC inhibitor, U 73122, was without effect. These findings suggest that ET-1 induced GLUT1 protein expression is primarily mediated via MAPK, and partially via PI3K in 3T3-L1 adipocytes.
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PMID:The acute and chronic stimulatory effects of endothelin-1 on glucose transport are mediated by distinct pathways in 3T3-L1 adipocytes. 1110 76

Because insulin resistance/diabetes may cause inordinate vascular complications in females, we have investigated the effects of insulin and insulin-like growth factor (IGF-1) on vascular reactivity in 12-week-old female Zucker obese (Ob) rats, a rodent model of insulin resistance and its lean (Ln) age-matched counterpart. Endothelium intact aortic rings from Ob animals and their Ln littermates (12 weeks of age) were subjected to contractile concentration responses to phenylephrine (PE) followed by relaxation to isoproterenol (Iso), with and without preincubation for 2 hours with cholera toxin (CTX; 1 microg/mL) or pertussis toxin (PTX; 2 microg/mL) and before and after incubation with either insulin or IGF-1 (100 nmol/L) for 1 hour. Systolic blood pressure was higher (138 +/- 3 v. 109 +/- 4 mm Hg; P <.0001) in the 12-week-old Ob rats. Contractile responses to PE were similar in both groups; however, both insulin and IGF-1 induced a paradoxical increase (P <.001) in contraction in Ob vasculature (929 +/- 92 v. 679 +/- 25 mg, respectively). CTX alone decreased contraction in the Ob (P <.02) and PTX in the Ln (P <.02), but there were no interactions between either IGF-1 or insulin and the toxins. Marked impairment of relaxation to Iso was seen in aortic rings of these female Ob rats (ED(50) = 2.6 micromol/L v. 418 nmol/L, P =.0002), an effect exacerbated by preincubation with either insulin or IGF-1 (P =.0001). Again, no role for G-proteins could be demonstrated. Insulin-dependent glucose uptake was severely impaired (P <.05) in aortic segments of the Ob insulin-resistant rats. Insulin receptor binding, tyrosine kinase activity (TKA), and abundance of several G-protein alpha subunits (inhibitory and stimulatory) in solubilized arterial membrane preparations (assessed by Western blot) were comparable in the 2 groups. These results indicate that resistance to the vascular actions of insulin/IGF-1 in female Ob rats is a postreceptor event that parallels glucose uptake resistance and is independent of G-proteins.
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PMID:Vascular insulin/insulin-like growth factor-1 resistance in female obese Zucker rats. 1131 26

The mechanisms regulating leptin secretion were investigated in isolated rat white adipocytes. Insulin (1-100 nM) linearly stimulated leptin secretion from incubated adipocytes for at least 2 h. The adrenergic agonists norepinephrine, isoproterenol (two nonselective beta-agonists), or CL-316243 (potent beta3) all inhibited insulin (10 nM)-stimulated leptin release. The inhibitory effects of norepinephrine and isoproterenol could be reversed not only by the nonselective antagonist propranolol but also by the selective antagonists ICI-89406 (beta1) or ICI-118551 (beta2), the beta2-antagonist being less effective than the beta1. Insulin-stimulated leptin secretion could also be inhibited by a series of agents increasing intracellular cAMP levels, such as lipolytic hormones (ACTH and thyrotropin-stimulating hormone), various nonhydrolyzable cAMP analogs, pertussis toxin, forskolin, methylxanthines (caffeine, theophylline, IBMX), and specific inhibitors of phosphodiesterase III (imazodan, milrinone, and amrinone). Significantly, antilipolytic agents other than insulin (adenosine, nicotinic acid, acipimox, and orthovanadate) did not mimic the acute stimulatory effects of insulin on leptin secretion under these conditions. We conclude that norepinephrine specifically inhibits insulin-stimulated leptin secretion not only via the low-affinity beta3-adrenoceptors but also via the high-affinity beta1/beta2-adrenoceptors. Moreover, it is suggested that 1) activation of phosphodiesterase III by insulin represents an important metabolic step in stimulation of leptin secretion, and 2) lipolytic hormones competitively counterregulate the stimulatory effects of insulin by activating the adenylate cyclase system.
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PMID:Mechanisms of leptin secretion from white adipocytes. 1205 93

Insulin-like growth factor binding protein-3, IGFBP-3, specifically binds to IGFs with high affinity, but it is also capable of modulating the IGF-I signalling pathway or inducing apoptosis independently of its binding to IGFs. The molecular mechanisms underlying the action of IGFBP-3 have not been elucidated. In this study, we have demonstrated that binding of IGFBP-3 to a cell surface receptor in MCF-7 breast carcinoma cells induces a rapid and transient increase in intracellular free calcium. This increase was mediated via a pertussis toxin-sensitive pathway, indicating that the IGFBP-3 receptor may be specifically coupled to a Gi protein. The effect of IGFBP-3 on calcium concentrations was dose-dependent and also occurred when IGFBP-3 was complexed with either IGF-I or heparin, suggesting that the receptor binding site is probably located in the least conserved central domain of IGFBP-3. Neither IGFBP-1, nor IGFBP-5 (structurally the closest to IGFBP-3) altered intracellular calcium concentrations. These results provide evidence that a specific intracellular signal is triggered by IGFBP-3 binding to a cell surface receptor.
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PMID:Insulin-like growth factor binding protein-3 increases intracellular calcium concentrations in MCF-7 breast carcinoma cells. 1222 Jun 77

Insulin-like growth factor binding protein-3 (IGFBP-3) is the most abundant IGFBP in serum and other biological fluids. Apart from its capacity for specific and high-affinity binding to IGFs, it also has so-called "IGF-independent" activities that modulate cell proliferation and survival/apoptosis. However, the molecular elements of the IGFBP-3 signalling pathway remain obscure. In this study, we investigated the possible implication of phosphatidylinositol 3-kinase (PI 3-kinase) activity in MCF-7 breast carcinoma cells. In cells incubated with IGFBP-3, both total and insulin receptor substrate-1 (IRS-1)-associated PI 3-kinase activities were rapidly stimulated, with maximal effects after 3 and 10min of incubation, respectively. IGFBP-3-induced PI 3-kinase activity was unaffected by the state of IRS-1 tyrosine phosphorylation. Since IGFBP-3 failed to stimulate PI 3-kinase activity in MDA-MB 231 breast carcinoma cells, its effects in MCF-7 cells could be considered as cell-type-specific. Pertussis toxin abolished IGFBP-3-stimulation of PI 3-kinase activity, suggesting that this IGFBP-3 signalling pathway depends upon a pertussis toxin-sensitive G protein. Our results provide further evidence that IGFBP-3 directly triggers a specific intracellular signal in MCF-7 cells.
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PMID:Insulin-like growth factor binding protein-3 stimulates phosphatidylinositol 3-kinase in MCF-7 breast carcinoma cells. 1475 Dec 38

We studied the effect of IGF-I and insulin on intracellular Ca(2+) in primary cultured myotubes. IGF-I induced a fast and transient Ca(2+) increase, measured as fluo-3 fluorescence. This response was blocked by both genistein and AG538. IGF-I induced a fast inositol-1,4,5-trisphosphate (IP(3)) increase, kinetically similar to the Ca(2+) rise. The Ca(2+) signal was blocked by inhibitors of the IP(3) pathway. On the other hand, insulin produced a fast (<1 s) and transient Ca(2+) increase. Insulin-induced Ca(2+) increase was blocked in Ca(2+)-free medium and by either nifedipine or ryanodine. In the normal muscle NLT cell line, the Ca(2+ )signals induced by both hormones resemble those of primary myotubes. GLT cells, lacking the alpha1-subunit of dihydropyridine receptor (DHPR), responded to IGF-I but not to insulin, while GLT cells transfected with the alpha1-subunit of DHPR reacted to both hormones. Moreover, dyspedic muscle cells, lacking ryanodine receptors, responded to IGF-I as NLT cells, however they show no insulin-induced calcium increase. Moreover, G-protein inhibitors, pertussis toxin (PTX) and GDPbetaS, blocked the insulin-induced Ca(2+) increase without major modification of the response to IGF-I. The different intracellular Ca(2+) patterns produced by IGF-I and insulin may improve our understanding of the early action mechanisms for these hormones in skeletal muscle cells.
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PMID:IGF-I and insulin induce different intracellular calcium signals in skeletal muscle cells. 1528 94

The present studies were designed to investigate the hormonal regulation of vascular endothelial growth factor (VEGF) release by human subcutaneous adipose tissue explants and adipocytes incubated in primary culture for 48 hours. Vascular endothelial growth factor and IL-8 release by adipocytes were less than 10% of that by tissue explants, whereas that of leptin in adipocytes was comparable to that by tissue. Dexamethasone inhibited VEGF formation by both adipose tissue explants and isolated adipocytes, whereas insulin stimulated VEGF release only in isolated adipocytes. Insulin also enhanced the formation of IL-8 and plasminogen activation inhibitor 1 (PAI-1), but not that of IL-6 by adipocytes although having little effect on that of IL-6 or PAI-1 by adipose tissue explants. Pertussis toxin stimulated lipolysis and inhibited leptin release by human adipose tissue or adipocytes but did not affect release of IL-8 or VEGF. Isoproterenol also stimulated lipolysis by human adipocytes, but this was not accompanied by any significant changes in VEGF, IL-8, IL-6, or PAI-1 release. In contrast, insulin stimulated VEGF release by human adipocytes, and this stimulation was enhanced in the presence of isoproterenol. Insulin stimulated VEGF formation as well as that of PAI-1 by human adipocytes, but not by explants under conditions where it had little effect on that of IL-6. The ability of insulin to stimulate VEGF formation by adipocytes suggests that the elevated circulating levels of insulin in obesity promote angiogenesis in adipose tissue as well as the enhanced accumulation of fat in human adipocytes.
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PMID:Insulin enhances vascular endothelial growth factor, interleukin-8, and plasminogen activator inhibitor 1 but not interleukin-6 release by human adipocytes. 1569 Mar 17

Previous results demonstrated that melatonin inhibits cAMP production and stimulates IP(3) liberation in rat insulinoma INS1 cells, a model for the pancreatic beta-cell. This study addresses the impact of melatonin on insulin release. Insulin, cAMP and IP(3) levels of INS1 cells in a superfusion system were measured. Initially, forskolin was used to stimulate cAMP and subsequently insulin release. Incubation of forskolin (5 micromol/L)-stimulated cells with melatonin (100 nmol/L) inhibited cAMP and insulin levels (down to 60% of insulin and cAMP release). The G(i)alpha-protein-inhibitor pertussis toxin (PTX) was used to distinguish between the G(i)alpha-dependent cAMP pathway and the G(i)alpha-independent IP(3) pathway. In our experiments we employed a specific stimulation pattern to prove proper inhibition of G(i)alpha-proteins by PTX. In INS1 cells incubated with 250 ng/mL PTX for 24 hr, melatonin was no longer able to inhibit the forskolin-induced cAMP and insulin release. In a study, carbachol was used to stimulate IP(3) and subsequently insulin release. Surprisingly, incubation of carbachol (300 micromol/L)-stimulated cells with melatonin (100 nmol/L) inhibited insulin release (down to 75% of insulin release). Finally, in PTX-incubated INS1 cells, melatonin (100 nmol/L) increased carbachol (300 micromol/L)-induced insulin release (up to 124% of insulin release). In conclusion, we found that the melatonin MT(1)-receptor on pancreatic beta-cells is coupled to parallel signaling pathways, with opposite influences on insulin secretion. The cAMP- and subsequently insulin-inhibiting signaling pathway involves PTX-sensitive G(i)alpha-proteins and is predominant in terms of insulin release.
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PMID:Parallel signaling pathways of melatonin in the pancreatic beta-cell. 1644 56


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