Decreased endothelium-dependent pulmonary vasodilator effect of calcitonin gene-related peptide in hypoxic rats contrasts with increased binding sites

Mannan, M.M.; Springall, David R.; Enard, C; Moradoghli-Haftvani, A.; Eddahibi, Saadia; Adnot, Serge; Polak, Julia M.

doi:10.1183/09031936.95.08122029

Cited by 22 publications

(13 citation statements)

References 28 publications

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“…CGRP acts in the rat pulmonary artery by an endothelium‐dependent mechanism via nitric oxide, as responses were abolished either by removal of the endothelium or with N G ‐nitro‐ L ‐arginine (which could be reversed with L‐arginine). This conclusion is consistent with previous binding and in vitro studies (Mannan et al ., 1995), and agrees well with the mechanism found in, for instance, the rat thoracic aorta (Gray & Marshall, 1992a,b).…”

Section: Discussionsupporting

confidence: 94%

Pharmacological characterization of CGRP receptors mediating relaxation of the rat pulmonary artery and inhibition of twitch responses of the rat vas deferens

Wisskirchen

Burt

Marshall³

1998

British J Pharmacology

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1 CGRP receptors mediating vasorelaxation of the rat isolated pulmonary artery and inhibition of contractions of the rat isolated prostatic vas deferens were investigated using CGRP agonists, homologues and the antagonist CGRP . 2 In the pulmonary artery, human (h)a-CGRP-induced relaxation of phenylephrine-evoked tone was abolished either by removal of the endothelium or by N G -nitro-L-arginine (10 75 M). The inhibitory e ect of N G -nitro-L-arginine was stereoselectively reversed by L-but not by D-arginine (10 74 M). Thus, CGRP acts via nitric oxide released from the endothelium. 3 In the endothelium-intact artery, ha-CGRP, hb-CGRP and human adrenomedullin (10 710 ± 3610 77 M), dose-dependently relaxed the phenylephrine-induced tone with similar potency. Compared with ha-CGRP, rat amylin was around 50 fold less potent, while [Cys(ACM 2,7 )] ha-CGRP (10 77 ± 10 74 M) was at least 3000 fold less potent. Salmon calcitonin was inactive (up to 10 74 M). 4 Human a-CGRP 8-37 (3610 77 ± 3610 76 M) antagonized ha-CGRP (pA 2 6.9, Schild plot slope 1.2+0.1) and hb-CGRP (apparent pK B of 7.1+0.1 for ha-CGRP 8-37 10 76 M) in the pulmonary artery. Human b-CGRP 8-37 (10 76 M) antagonized ha-CGRP responses with a similar a nity (apparent pK B 7.1+0.1). Human adrenomedullin responses were not inhibited by ha-CGRP 8-37 (10 76 M). 5 In the prostatic vas deferens, ha-CGRP, hb-CGRP and rat b-CGRP (10 710 ± 3610 77 M) concentration-dependently inhibited twitch responses with about equal potency, while rat amylin (10 78 ± 10 75 M) was around 10 fold less potent and the linear analogue [Cys(ACM 2,7 )] ha-CGRP was at least 3000 fold weaker. Salmon calcitonin was inactive (up to 10 74 M). 6 The antagonist e ect of ha-CGRP 8-37 (10 75 ± 3610 75 ) in the vas deferens was independent of the agonist, with pA 2 values against ha-CGRP of 6.0 (slope 0.9+0.1), against hb-CGRP of 5.8 (slope 1.1+0.1), and an apparent pK B value of 5.8+0.1 against both rat b-CGRP and rat amylin. Human b-CGRP 8-37 (3610 75 ± 10 74 M) competitively antagonized ha-CGRP responses (pA 2 5.6, slope 1.1+0.2).The inhibitory e ect of ha-CGRP on noradrenaline-induced contractions in both the prostatic and epididymal vas deferens was antagonized by ha-CGRP 8-37 (pA 2 5.8 and 5.8, slope 1.0+0.2 and 1.0+0.3, respectively). 7 The e ects of ha-CGRP and ha-CGRP 8-37 in both rat pulmonary artery and vas deferens were not signi®cantly altered by pretreatment with peptidase inhibitors (amastatin, bestatin, captopril, phosphoramidon and thiorphan, all at 10 76 M). The weak agonist activity of [Cys(ACM 2,7 )] ha-CGRP in the vas deferens was not increased by peptidase inhibitors. 8 These data demonstrate that two di erent CGRP receptors may exist in the rat pulmonary artery and vas deferens, a CGRP 1 receptor subtype in the rat pulmonary artery (CGRP 8-37 pA 2 6.9), while the lower a nity for CGRP 8-37 (pA 2 6.0) in the vas deferens is consistent with a CGRP 2 receptor.

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Section: Discussionsupporting

confidence: 94%

Pharmacological characterization of CGRP receptors mediating relaxation of the rat pulmonary artery and inhibition of twitch responses of the rat vas deferens

Wisskirchen

Burt

Marshall³

1998

British J Pharmacology

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“…The mRNA and protein levels of the most potent vasoconstrictor peptide, endothelin-1, were elevated in the lungs of patients and hypoxic rats with PH (6,10,12,35). However, absence of vasodilation rather than active vasoconstriction has been proposed as a cause of PH (4,24,38).…”

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confidence: 96%

Targeted blocking of gene expression for CGRP receptors elevates pulmonary artery pressure in hypoxic rats

Qing

Keith

2003

American Journal of Physiology-Lung Cellular and Molecular Phys

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Qing, Xin, and Ingegerd M. Keith. Targeted blocking of gene expression for CGRP receptors elevates pulmonary artery pressure in hypoxic rats. Am J Physiol Lung Cell Mol Physiol 285: L86-L96, 2003. First published March 7, 2003 10.1152/ajplung.00356.2002We previously described the protection by calcitonin gene-related peptide (CGRP) against hypoxic pulmonary hypertension. Here, we examine the roles of its putative receptor RDC-1 and receptor activity-modifying protein (RAMP) 1 in mediating this protection by selectively inhibiting their synthesis. RAMP1 is an accessory protein for another putative CGRP receptor, calcitonin receptor-like receptor. Antisense oligodeoxyribonucleotides (ASODNs, 5 mg ⅐ kg Ϫ1 ⅐ day Ϫ1 or 5 and 10 mg ⅐ kg Ϫ1 ⅐ day Ϫ1 for RDC-1) targeting RAMP1 and RDC-1 mRNAs were chronically infused to the pulmonary circulation of male SpragueDawley rats during 7 days of normoxia or hypobaric hypoxia (380 mmHg), and ␣-CGRP ASODN was used as a technical control. CGRP, RAMP1, and RDC-1 ASODNs significantly elevated pulmonary artery pressure (PPA) in chronic hypoxic rats compared with hypoxic mismatched ASODN (MMODN) and saline vehicle controls. CGRP and RAMP1 ASODNs raised P PA in normoxic rats briefly exposed to 10% O2 above MMODN and saline controls. Moreover, normoxic rats treated with CGRP ASODN had higher basal pulmonary vascular tone compared with controls. These data confirm the protective role of CGRP in the pulmonary circulation and suggest that endogenous RAMP1 and RDC-1 are essential in regulation of P PA in hypoxia. This is the first in vivo evidence supporting RDC-1 and RAMP1 as functional CGRP receptor and receptor component. antisense oligodeoxyribonucleotide; calcitonin gene-related peptide; RDC-1; receptor activity-modifying protein 1; in vivo gene targeting PULMONARY HYPERTENSION (PH) is a serious and often fatal disease. Airway hypoxia is a common cause of PH. Hypoxic PH (HPH) occurs in many lung diseases such as persistent PH of the newborn, adult respiratory distress syndrome, chronic obstructive pulmonary disease, high altitude PH and edema, sleep apnea, inflammation, and other causes that interfere with airway oxygenation. An imbalance between pulmonary vasoconstrictors and vasodilators has been suggested as an initiating factor in PH (16). The mRNA and protein levels of the most potent vasoconstrictor peptide, endothelin-1, were elevated in the lungs of patients and hypoxic rats with PH (6, 10, 12, 35). However, absence of vasodilation rather than active vasoconstriction has been proposed as a cause of PH (4, 24, 38).Calcitonin gene-related peptide (CGRP) and adrenomedullin (ADM) are structurally related peptides with potent vasodilatory effects. In fact, CGRP is the most potent peptide vasodilator discovered thus far and ADM's vasodilatory effect is second only to CGRP (39). The two isoforms of CGRP, ␣-CGRP and ␤-CGRP, are both present in lung tissue. ␣-CGRP is a 37-amino acid neuropeptide generated from an alternatively spliced transcript of the gene encoding calcitonin (3, 31...

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“…thelial cells and vascular smooth muscle cells via endothelium-dependent or endothelium-independent mechanisms, depending on vessel type and species [5][6][7]. CGRP deficiency has been suggested to be involved in cardiovascular diseases such as pulmonary hypertension [8][9][10], erectile dysfunction [11], and cerebral vasospasm after subarachnoid hemorrhage (SAH) [12,13]. Therefore, the enhancement of local CGRP delivery is a promising approach for the treatment of these cardiovascular disorders.…”

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confidence: 99%

Engineering Ex Vivo–Expanded Marrow Stromal Cells to Secrete Calcitonin Gene–Related Peptide Using Adenoviral Vector

et al. 2004

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IntroductionCalcitonin gene-related peptide (CGRP), a 37-amino-acid neuropeptide derived from alternative splicing of RNA from the calcitonin gene [1], is an important molecule with multiple biological effects, including a potent vasodilator activity [2,3]. CGRP is extensively localized in the perivascular or periadventitia nerves throughout the body, and its release from nerve endings is associated with the dilation of blood vessels [4]. CGRP exerts its vasodilator effect through interaction with CGRP receptors that are present on both endo-

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Decreased endothelium-dependent pulmonary vasodilator effect of calcitonin gene-related peptide in hypoxic rats contrasts with increased binding sites

Cited by 22 publications

References 28 publications

Pharmacological characterization of CGRP receptors mediating relaxation of the rat pulmonary artery and inhibition of twitch responses of the rat vas deferens

Pharmacological characterization of CGRP receptors mediating relaxation of the rat pulmonary artery and inhibition of twitch responses of the rat vas deferens

Targeted blocking of gene expression for CGRP receptors elevates pulmonary artery pressure in hypoxic rats

Engineering Ex Vivo–Expanded Marrow Stromal Cells to Secrete Calcitonin Gene–Related Peptide Using Adenoviral Vector

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