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)

Vascular smooth muscle cells (VSMC) from rat aorta possess specific receptors for a novel potent vasorelaxant peptide, adrenomedullin (AM). To elucidate its receptor coupling to guanine nucleotide-binding stimulatory protein and the structural requirement of the AM molecule to its vascular receptors, we have studied the effects of guanine nucleotides on [125I]human (h) AM binding and adenylate cyclase activity in cultured rat VSMC, and the effects of various synthetic hAM analogs on [125I]hAM binding and the cAMP response. Guanosine 5'-O-(3-thiotriphosphate) dose dependently inhibited [125I]hAM binding to rat VSMC membranes. hAM stimulated adenylate cyclase activity, and its effect was additive with GTP. hAM-induced cAMP formation was abrogated by pretreatment with cholera toxin, but not by that with pertussis toxin. Intact hAM-(1-52)-NH2 and N-terminal truncated derivatives [hAM-(13-52)-NH2, hAM-(16-52)-NH2] almost equally inhibited [125I]hAM binding and stimulated cAMP formation, whereas removal of C-terminal Tyr52 residue [hAM-(1-51)-NH2] remarkably decreased receptor-binding activity and the cAMP response. The effects of hAM-(1-52)-OH, hAM-(1-51)-OH, and a linear hAM analog ([carbamoylmethyl-Cys16,21]hAM-NH2) were far less potent on receptor binding and the cAMP response than that of hAM-(1-52)-NH2. The C-terminal fragment [hAM-(33-52)-NH2] and the N-terminal fragment [hAM-(1-10)-OH] had neither receptor-binding nor adenylate cyclase activity. hAM-(22-52)-NH2 had no agonistic effect, but showed an antagonistic effect on the hAM-induced cAMP response. These data suggest that vascular AM receptors are functionally coupled to adenylate cyclase via guanine nucleotide-binding stimulatory protein. Studies of the structure-activity relationship of hAM revealed that the cyclic structure formed by the disulfide bridge and amidation of the C-terminal residue of the AM molecule are critical for receptor binding and subsequent cAMP generation and suggest that the C-terminal fragment hAM-(22-52)-NH2 may be an antagonist for vascular AM receptors.
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PMID:Structure-activity relationship of adrenomedullin, a novel vasodilatory peptide, in cultured rat vascular smooth muscle cells. 798 31

We investigated the effects of proadrenomedullin N-terminal 20 peptide (PAMP) and adrenomedullin (AM) on the growth of human neuroblastoma TGW cells. Both PAMP and AM inhibited growth and DNA synthesis in neuroblastoma cells. Calcitonin gene-related peptide (CGRP)(8-37), an antagonist to CGRP, abolished the inhibitory effect of AM on growth and DNA synthesis of neuroblastoma cells but did not affect that of PAMP. AM(22-52), an antagonist to AM, also reversed the effect of AM. On the other hand, pertussis toxin (PTX) and omega-conotoxin GIVA blocked the effect of PAMP alone. Thus, PAMP inhibits the growth of neuroblastoma cells by inhibiting N-type Ca2+ channels through PTX-sensitive G protein-coupled receptors, which is different mechanism of AM-induced inhibition of the cell growth.
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PMID:Proadrenomedullin N-terminal 20 peptide (PAMP) inhibits proliferation of human neuroblastoma TGW cells. 930 56

Proadrenomedullin N-terminal 20 peptide (PAMP) and adrenomedullin (AM) are novel hypotensive peptides. Although they are derived from the same gene product, proadrenomedullin, their hypotensive mechanisms are different; PAMP inhibits the release of norepinephrine from the peripheral sympathetic nerve endings, whereas AM fosters vasodilation by elevating intracellular cAMP, possibly via activation of cholera toxin-sensitive G proteins. In PC12 cells, PAMP inhibited N-type calcium channel via activation of pertussis toxin-sensitive mechanisms. To clarify the relationship between the hypotensive effect of PAMP and pertussis toxin-sensitive mechanisms, we administered pertussis vaccine intraperitoneally into rats for 3 consecutive days. By using mesenteric artery preparation, we showed that PAMP's ability to decrease norepinephrine overflow was significantly attenuated in pertussis toxin-treated rat (-18.5 +/- 6.9%; P<.05 versus control rats). In electrically stimulated pithed rat, PAMP (20 and 40 nmol/kg) showed a hypotensive effect (-13 +/- 5 and -18 +/- 7 mm Hg, respectively; P<.05, P<.01), whereas in pertussis vaccine-treated rat it did not (-2 +/- 3 and -8 +/- 9 mm Hg, respectively; P=NS). Also, in pithed rat, plasma norepinephrine level was significantly elevated by electrical stimulation in both control (0.323 +/- 0.035 ng/mL) and pertussis vaccine-treated groups (0.355 +/- 0.079 ng/mL). After injection of PAMP (40 nmol/kg), plasma norepinephrine level significantly decreased in the control group (0.225 +/- 0.044 ng/mL; P<.01) but not in the pertussis vaccine-treated group (0.392 +/- 0.021 ng/mL; P=NS). Moreover, in conscious rats, intravenous administration of PAMP (40 nmol/kg) did not evoke hypotension after pertussis vaccine treatment, although untreated controls had significantly decreased arterial pressure (-5 +/- 2 versus -20 +/- 3 mm Hg; P<.01). In contrast to PAMP, the administration of AM (1 nmol/kg) significantly reduced the blood pressure of pertussis vaccine-treated as well as control rats (-20 +/- 5 versus -18 +/- 7 mm Hg; P=NS). These results demonstrate that the ability of PAMP to inhibit norepinephrine release from peripheral sympathetic nerve endings and to decrease blood pressure is pertussis toxin sensitive. Our findings thus suggest that despite being derived from the same gene, PAMP and AM apparently produce hypotension by activating different signaling pathways.
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PMID:A newly identified peptide, proadrenomedullin N-terminal 20 peptide, induces hypotensive action via pertussis toxin-sensitive mechanisms. 936 47

Adrenomedullin is a novel hypotensive peptide originally isolated from human pheochromocytoma and recently localized to PP cells of the pancreatic islets of Langerhans. Based on the pancreatic islet-acinar axis model, we investigated the effect of adrenomedullin on regulated exocytosis of exocrine pancreas. Using rat [125I]-adrenomedullin, specific binding sites were localized to rat pancreatic acini. We next examined the effect of adrenomedullin on 100 pM cholecystokinin (CCK)-stimulated amylase release from pancreatic acini. Adrenomedullin inhibited amylase secretion in a dose-dependent manner by approximately 50% at maximum, and the IC50 was 1.1 pM. However, adrenomedullin did not affect rat [125I]CCK binding to isolated acini or reduce the intracellular free Ca2+ concentration increased by CCK. Adrenomedullin also inhibited amylase secretion induced by 1 microM calcium ionophore A23187, suggesting that adrenomedullin inhibits stimulated amylase secretion by functioning at a step(s) distal to the ligand-receptor binding system and intracellular calcium mobilizing mechanism. In streptolysin-O permeabilized acini, 10 nM adrenomedullin shifted the calcium dose-response curve to the right, indicating that adrenomedullin inhibits calcium-induced amylase secretion by reducing calcium sensitivity of the pancreatic exocytotic machinery. In addition, pretreatment of pancreatic acini with pertussis toxin abolished the inhibitory effect of adrenomedullin on CCK-stimulated amylase secretion. These results indicate that adrenomedullin inhibits stimulated amylase secretion by reducing the calcium sensitivity of the exocytotic machinery of the pancreatic acini. A pertussis toxin-sensitive GTP-binding protein(s) is also involved in this mechanism.
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PMID:Inhibition of stimulated amylase secretion by adrenomedullin in rat pancreatic acini. 992 17

We investigated the effects of adrenomedullin (ADM) on cGMP production in cultured SV-40 transformed cat iris sphincter smooth muscle (SV-CISM-2) cells. ADM increased cGMP accumulation in a time- and concentration- dependent manner. The peptide increased cGMP formation in the transformed cells by 405-fold as compared to 1. 6-fold in primary cultured CISM cells. The basal cGMP concentrations in both cell types were comparable. In addition, ADM increased cAMP accumulation in SV-CISM-2 cells and in primary cultured cells by 18. 9- and 5.8-fold, respectively. The ADM receptor antagonist, ADM(26-52), but not the atrial natriuretic peptide (ANP) receptor antagonist, anantin, inhibited ADM-induced cGMP formation. The phorbol ester, phorbol 12, 13-dibutyrate (PDBu), which inhibits particulate guanylate cyclases in smooth muscle, blocked ADM-stimulated cGMP accumulation. In contrast, inhibitors of the soluble guanylate cyclases, such as LY83583 and ODQ, and inhibitors of the nitric oxide cascade had little effect on ADM-stimulated cGMP production. The stimulatory effect of ADM on cGMP formation is due to activation of the guanylate cyclase system and not to a much reduced phosphodiesterase activity. ADM stimulated guanylate cyclase activity in membrane fractions isolated from SV-CISM-2 cells in a concentration-dependent manner with EC(50) value of 72 nM. Pertussis toxin, an activator of the G-protein, Gi, inhibited ADM-stimulated cGMP accumulation, whereas cholera toxin, a stimulator of the Gs G-protein and subsequently cAMP accumulation, had little effect. Pretreatment of the plasma membrane fraction with Gialpha antibody attenuated ADM-stimulated guanylate cyclase activity by 75%. We conclude that ADM increases intracellular cGMP levels in SV-CISM-2 cells through activation of the ADM receptor and subsequent stimulation of a Gi-mediated membrane-bound guanylate cyclase.
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PMID:Activation of particulate guanylate cyclase by adrenomedullin in cultured SV-40 transformed cat iris sphincter smooth muscle (SV-CISM-2) cells. 1098 85

Long-term infusion of prostacyclin, or its analogs, is an effective treatment for severe pulmonary arterial hypertension. However, dose escalation is often required to maintain efficacy. The aim of this study was to investigate the mechanisms of prostacyclin receptor desensitization using the prostacyclin analog cicaprost in rat pulmonary artery smooth muscle cells (PASMCs). Desensitization of the cAMP response occurred in 63 nM cicaprost after a 6-h preincubation with agonist. This desensitization was reversed 12 h after agonist removal, and resensitization was inhibited by 10 microg/ml of cycloheximide. Desensitization was heterologous since desensitization to other G(s)alpha-adenylyl cyclase (AC)-coupled agonists, isoproterenol (1 microM), adrenomedullin (100 nM), or bradykinin (1 microM), was also reduced by preincubation with cicaprost. The reduced cAMP response to prolonged cicaprost exposure appeared to be due to inhibition of AC activity since the responses to the directly acting AC agonist forskolin (3 microM) and the selective AC5 activator NKH-477 were similarly reduced. Expression of AC2 and AC5/6 protein levels transiently decreased after 1 h of cicaprost exposure. The PKA inhibitor H-89 (1 microM) added 1 h before cicaprost preincubation (6 h, 63 nM) completely reversed cicaprost-induced desensitization, whereas the PKC inhibitor bisindolylmaleimide (100 nM) was only partly effective. Desensitization was not prevented by the G(i) inhibitor pertussis toxin. In conclusion, chronic treatment of PASMCs with cicaprost induced heterologous, reversible desensitization by inhibition of AC activity. Our data suggest that heterologous G(s)alpha desensitization by cicaprost is mediated predominantly by a PKA-inhibitable isoform of AC, most likely AC5/6.
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PMID:Mechanism of cicaprost-induced desensitization in rat pulmonary artery smooth muscle cells involves a PKA-mediated inhibition of adenylyl cyclase. 1510 93

Direct effects of adrenomedullin on insulin secretion from pancreatic beta-cells were investigated using a differentiated insulin-secreting cell line INS-1. Adrenomedullin (1-100 pM) inhibited insulin secretion at both basal (3 mM) and high (15 mM) glucose concentrations, although this inhibitory effect was not observed at higher concentrations of adrenomedullin. The inhibition of glucose-induced insulin secretion by adrenomedullin was restored with 12-h pretreatment with 1 microg/ml pertussis toxin (PTX), suggesting that this effect could be mediated by PTX-sensitive G proteins. Cellular glucose metabolism evaluated by 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2H-tetrazolium bromide colorimetric assay was not affected by adrenomedullin at concentrations that inhibited insulin secretion. Moreover, electrophysiological studies revealed that 10 pM adrenomedullin had no effect on membrane potential, voltage-gated calcium currents, or cytosolic calcium concentration induced by 15 mM glucose. Finally, insulin release induced by cAMP-raising agents, such as forskolin plus 3-isobutyl-1-methylxanthine or the calcium ionophore ionomycin, was significantly inhibited by 10 and 100 pM adrenomedullin. In conclusion, adrenomedullin at picomolar concentrations directly inhibited insulin secretion from beta-cells. This effect is likely due to the inhibition of insulin exocytosis through the activation of PTX-sensitive G proteins.
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PMID:Adrenomedullin inhibits insulin exocytosis via pertussis toxin-sensitive G protein-coupled mechanism. 1676 Mar 37

Neuroendocrine (NE) differentiation in prostate cancer (CaP) has been reported to be an early marker associated with the development of androgen independence. The mechanisms by which CaP acquires NE properties are poorly understood. In this study, a putative role of adrenomedullin (AM) in the NE differentiation was investigated. The expression of AM and AM receptors (calcitonin receptor-like receptor (CRLR)/receptor activity modifying protein-2 and -3 (RAMP2 and RAMP3) was evaluated after experimental manipulation of androgen status. Levels of AM mRNA and immunoreactive AM (ir-AM) increased four- to sevenfold in androgen-sensitive LNCaP cells after androgen withdrawal in vitro and in LNCaP xenografts in animals after castration. Treatment of LNCaP cells with androgen analogue (dihydrotestosterone; 10(-9) M) prevented the increase in AM mRNA and ir-AM levels. Interestingly, the expression of CRLR, RAMP2 and RAMP3 is not regulated by androgen status. We demonstrate that in the presence of serum, AM is able to induce an NE phenotype in LNCaP cells via CRLR/RAMP2 and RAMP3, which includes extension of neuritic processes and expression of the neuron-specific enolase (NSE), producing cGMP in a dose-dependent manner, which is mediated by a pertussis toxin-sensitive GTP-binding protein. 8-Bromo-cGMP mimicked the effects of AM on cell differentiation. We demonstrate that AM induces a G-kinase Ialpha translocation to the nucleus. The protein kinase G inhibitor KT-5823 inhibited the neurite outgrowth induced by both AM and 8-bromo-cGMP. In noncastrated animals, administration of AM enhanced expression of NSE and chromogranin A in LNCaP xenografts with a significant increase of NSE levels in serum and no changes in tumor growth. In castrated animals, intraperitoneal injection of AM resulted in a 240+/-18% (P<0.001) increase in tumor volume 36 days after treatment, indicating that the nature of effect of AM in CaP depends on the presence or absence of endogenous androgen. Together, these results demonstrate that AM may function as a mediator of NE-like differentiation in culture as well as in vivo and indicate that its production may be important for tumor resurgence following androgen ablation.
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PMID:Adrenomedullin, an autocrine/paracrine factor induced by androgen withdrawal, stimulates 'neuroendocrine phenotype' in LNCaP prostate tumor cells. 1763 48

Receptor activity-modifying protein 2 (RAMP2) enables calcitonin receptor-like receptor (CRLR) to form an adrenomedullin (AM)-specific receptor. Here we investigated the function of the cytoplasmic C-terminal tail (C-tail) of human (h)CRLR by co-transfecting its C-terminal mutants into HEK-293 cells stably expressing hRAMP2. Deleting the C-tail from CRLR disrupted AM-evoked cAMP production or receptor internalization, but did not affect [(125)I]AM binding. We found that CRLR residues 428-439 are required for AM-evoked cAMP production, though deleting this region had little effect on receptor internalization. Moreover, pretreatment with pertussis toxin (100ng/mL) led to significant increases in AM-induced cAMP production via wild-type CRLR/RAMP2 complexes. This effect was canceled by deleting CRLR residues 454-457, suggesting Gi couples to this region. Flow cytometric analysis revealed that CRLR truncation mutants lacking residues in the Ser/Thr-rich region extending from Ser(449) to Ser(467) were unable to undergo AM-induced receptor internalization and, in contrast to the effect on wild-type CRLR, overexpression of GPCR kinases-2, -3 and -4 failed to promote internalization of CRLR mutants lacking residues 449-467. Thus, the hCRLR C-tail is crucial for AM-evoked cAMP production and internalization of the CRLR/RAMP2, while the receptor internalization is dependent on the aforementioned GPCR kinases, but not Gs coupling.
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PMID:Function of the cytoplasmic tail of human calcitonin receptor-like receptor in complex with receptor activity-modifying protein 2. 2007 56