Structure-activity relationship of human calcitonin-gene-related peptide

The calcitonin-calcitonin-gene-related peptide (CGRP) gene complex encodes a small family of peptides: calcitonin, CGRP and katacalcin. Calcitonin is a circulating hormone that prevents skeletal breakdown by inhibiting the resorption of bone by osteoclasts. CGRP, a potent vasodilator, is involved in normal regulation of blood flow. The calcitonins structurally resemble the CGRP peptides, and both are known to cross-react at each others' receptors. The present study was undertaken to examine the structural prerequisites for biological activity of the intact CGRP molecule. We therefore prepared eight chymotryptic and tryptic fragments of CGRP and synthesized its acetylated and S-carboxyamidomethylcysteinyl analogues. The analogues were purified by h.p.l.c. and their structures were confirmed by fast-atom bombardment mass spectrometry. We have examined the effects of structurally modified analogues and fragments of human CGRP in a calcitonin-receptor-mediated assay, the osteoclast bone resorption assay, and in one or two CGRP-receptor-mediated assays, the rabbit skin blood flow assay and the oedema formation assay. The results showed that (1) in the osteoclast bone resorption assay, both CGRP peptides, alpha and beta, were equipotent, and were both at least 1000-fold were both approx. 1000-fold more potent than salmon calcitonin; human calcitonin had no effect; (3) the bis- and N-acetylated CGRP analogues retained reduced levels of biological activity in all assays, whereas S-carboxyamidomethylcysteinyl-human CGRP was without activity; and (4) all tryptic and chymotryptic fragments of CGRP were without biological activity, with the exception of hCGRP-(Ala1-Lys35): this fragment had much reduced activity compared with the intact peptide in inhibiting osteoclastic bone resorption and increasing blood flow in the rabbit skin. The results suggest that: (1) calcitonin and CGRP act at distinct receptors to mediate different physiological effects; (2) minor amino acid substitutions, as between the alpha and beta forms of CGRP (these two forms have 94% structural similarity) do not result in differences in biological activity; (3) the intact peptide is required for full biological activity of the CGRP molecule, and even the loss of two amino acids at the C-terminus of the molecule results in a marked decrease in activity; (4) the disulphide bridge appears to play an important role in the interaction of the intact CGRP molecule with its receptor; and (5) the C-terminal region is probably necessary for the peptide to assume the right conformation in the interaction with the receptor.

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Interactions between the tachykinins and calcitonin gene-related peptide lead to the modulation of oedema formation and blood flow in rat skin

British Journal of Pharmacology ◽

10.1111/j.1476-5381.1989.tb11926.x ◽

1989 ◽

Vol 97 (1) ◽

pp. 77-82 ◽

Cited By ~ 109

Author(s):

S.D. Brain ◽

T.J. Williams

Keyword(s):

Blood Flow ◽

Calcitonin Gene Related Peptide ◽

Rat Skin ◽

Oedema Formation ◽

Related Peptide ◽

Calcitonin Gene

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A direct action of human calcitonin gene-related peptide on isolated osteoclasts

Journal of Endocrinology ◽

10.1677/joe.0.1150511 ◽

1987 ◽

Vol 115 (3) ◽

pp. 511-518 ◽

Cited By ~ 70

Author(s):

M. Zaidi ◽

T. J. Chambers ◽

R. E. Gaines Das ◽

H. R. Morris ◽

I. MacIntyre

Keyword(s):

Bone Resorption ◽

Cell Function ◽

Direct Action ◽

Calcitonin Gene Related Peptide ◽

Human Calcitonin ◽

Amino Terminal ◽

Related Peptide ◽

Inhibit Bone Resorption ◽

Calcitonin Gene

ABSTRACT The calcitonin gene encodes a small family of peptides: calcitonin, calcitonin gene-related peptide (CGRP) and katacalcin. Whereas calcitonin is concerned with skeletal maintenance, the function, if any, of katacalcin is still unknown. In the present study we have assessed resorption of human cortical bone substrate by isolated rat osteoclasts and have shown that CGRP acts directly on the osteoclast to inhibit bone resorption. The three CGRP peptides (rat, human(a) and human(β)) caused an almost equivalent decrease in osteoclastic bone resorption and were approximately 1000-fold less potent than human calcitonin in this respect. The responses of human calcitonin and human CGRP(α) were additive. Furthermore, prior treatment with trypsin to destroy receptors abolished the responsiveness of osteoclasts to CGRP and calcitonin. The carboxyl- and amino-terminal fragments of CGRP were found not to inhibit bone resorption, suggesting that the whole molecule of CGRP is necessary for biological activity. We have therefore suggested that the calcitonin-like effects of CGRP, seen both in vivo in the rat bioassay and in vitro in organ cultures, are due to the direct action of CGRP on the osteoclast, probably mediated through the calcitonin receptor. Though it is unlikely that CGRP is involved in the regulation of plasma calcium, the peptide may be an important local regulator of bone cell function. J. Endocr. (1987) 115,511–518

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Effect of neurogenic irritation and calcitonin gene-related peptide (CGRP) on ocular blood flow in the rabbit

Current Eye Research ◽

10.3109/02713688809033199 ◽

1988 ◽

Vol 7 (7) ◽

pp. 695-703 ◽

Cited By ~ 33

Author(s):

Kari Krootila ◽

Hannu Uusitalo ◽

Arto Palkama

Keyword(s):

Blood Flow ◽

Ocular Blood Flow ◽

Calcitonin Gene Related Peptide ◽

Related Peptide ◽

Calcitonin Gene

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Calcitonin gene-related peptide receptor antagonist human CGRP-(8-37)

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.1989.256.2.e331 ◽

1989 ◽

Vol 256 (2) ◽

pp. E331-E335 ◽

Cited By ~ 21

Author(s):

T. Chiba ◽

A. Yamaguchi ◽

T. Yamatani ◽

A. Nakamura ◽

T. Morishita ◽

...

Keyword(s):

Plasma Membrane ◽

Adenylate Cyclase ◽

Calcitonin Gene Related Peptide ◽

Human Calcitonin ◽

Liver Plasma Membrane ◽

Related Peptide ◽

Calcitonin Gene ◽

Liver Membranes ◽

Calcitonin Receptors ◽

Stimulation Of

From this study, we predicted that the human calcitonin gene-related peptide (hCGRP) fragment hCGRP-(8-37) would be a selective antagonist for CGRP receptors but an agonist for calcitonin (CT) receptors. In rat liver plasma membrane, where CGRP receptors predominate and CT appears to act through these receptors, hCGRP-(8-37) dose dependently displaced 125I-[Tyr0]rat CGRP binding. However, hCGRP-(8-37) had no effect on adenylate cyclase activity in liver plasma membrane. Furthermore, hCGRP-(8-37) inhibited adenylate cyclase activation induced not only by hCGRP but also by hCT. On the other hand, in LLC-PK1 cells, where calcitonin receptors are abundant and CGRP appears to act via these receptors, the bindings of 125I-[Tyr0]rat CGRP and 125I-hCT were both inhibited by hCGRP-(8-37). In contrast to liver membranes, interaction of hCGRP-(8-37) with these receptors led to stimulation of adenosine 3',5'-cyclic monophosphate (cAMP) production in LLC-PK1 cells, and moreover, this fragment did not inhibit the increased production of cAMP induced not only by hCT but also by hCGRP. Thus hCGRP-(8-37) appears to be a useful tool for determining whether the action of CGRP as well as that of CT is mediated via specific CGRP receptors or CT receptors.

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Mechanisms of calcitonin gene-related peptide-induced increases of pulmonary blood flow in fetal sheep

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.2000.279.4.h1654 ◽

2000 ◽

Vol 279 (4) ◽

pp. H1654-H1660 ◽

Cited By ~ 6

Author(s):

Yasushi Takahashi ◽

Maartje De Vroomen ◽

Christine Roman ◽

Michael A. Heymann

Keyword(s):

Nitric Oxide ◽

Blood Flow ◽

Pulmonary Blood Flow ◽

Pulmonary Arteries ◽

Calcitonin Gene Related Peptide ◽

Fetal Sheep ◽

Nitric Oxide Synthase Inhibitor ◽

Flow Transducer ◽

Related Peptide ◽

Calcitonin Gene

Fetal pulmonary blood flow is regulated by various vasoactive substances. One, calcitonin gene-related peptide (CGRP), increases pulmonary blood flow. We examined four key physiological mechanisms underlying this response using the blocker drugs CGRP receptor blocker (CGRP8–37), nitric oxide synthase inhibitor [ N ω-nitro-l-arginine (l-NNA)], adenosine triphosphate-dependent potassium (KATP) channel blocker (glibenclamide), and cyclooxygenase inhibitor (indomethacin) in 17 near-term fetal sheep. Catheters were placed in the left (LPA) and main pulmonary arteries, and an ultrasonic flow transducer was placed around the LPA to measure flow continuously. CGRP was injected directly into the LPA (mean 1.02 μg/kg) before and after blockade, and responses to CGRP were statistically compared. Before blockade, CGRP increased LPA blood flow from 23 ± 25 to 145 ± 77 ml/min (means ± SD), and these increases were significantly attenuated by CGRP8–37( n = 6; 91% inhibition), l-NNA ( n = 6; 86% inhibition), and glibenclamide ( n = 6; 69% inhibition). No significant changes were found with indomethacin ( n = 6; 4% inhibition). Thus, in the fetal pulmonary circulation, CGRP increases pulmonary blood flow not only through its specific receptor but also, in part, through nitric oxide release and KATP channel activation.

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