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The role of intracellular calcium stores in motilin induced contractions of the longitudinal muscle of the rabbit duodenum (1989)

Matthijs, G. ; Peeters, T. L. ; Vantrappen, G.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 339 (1989), S. 332-339

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ISSN: 1432-1912

Keywords: Motilin ; Pharmaco-mechanical coupling ; Calcium ; Verapamil ; Nitroprusside

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The contraction of longitudinal muscle strips of the rabbit duodenum in response to motilin and acetylcholine was investigated in normal and high K+-solutions in the presence and absence of external calcium, in order to demonstrate the existence of pharmaco-mechanical coupling for motilin and to examine whether the peptide mobilizes calcium from an intracellular store. In depolarized smooth muscle (140 mM K+), motilin (3.2×109 −1×10−7 M) and acetylcholine (1×10−5 M) were still capable of causing a considerable, transient, concentration-dependent contraction in the presence of Ca2+. The ‘extra’-contraction to motilin was not blocked by tetrodotoxin (1 μg/ml) nor by atropine (10−7 M), but acetylcholine (10−5 M) was blocked by atropine. Verapamil (10−7 M) could selectively block the K+ contraction without affecting the extra agonist contraction. Nitroprusside was ineffective up to 10−4 M in high K+-solutions, but in normal Hepes-buffer it caused a concentration-dependent rightward shift of the concentration-response curve of motilin and acetylcholine contractions. In a calcium-depleted medium, high K+-depolarized muscle strips were still responsive to motilin and acetylcholine, but higher concentrations (10−6 M) were needed than in the presence of calcium and the contractions reached only 57 +- 11% and 74 +- 9% respectively of the maximal contraction in 1.2 mM Ca2+ containing solutions. The response to motilin (10−6 M) was not only smaller than that to acetylcholine (10−5 M), it also faded more rapidly with time. The response to one agonist could not be repeated except by using a higher concentration of the same or the other agonist, and the magnitude of this second response depended upon the dose used in the first one. We conclude that pharmaco-mechanical coupling exists for motilin and that this peptide is able to elicit contractions by mobilization of calcium from an intracellular store. This store overlaps with the one used by acetylcholine. Our experiments also reinforce the hypothesis that in the rabbit motilin exerts a direct action upon smooth muscle cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00173588

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Effect of different calcium modulators on motilin-induced contractions of the rabbit duodenum. Comparison with acetylcholine

Matthijs, G. ; Peeters, T.L. ; Vantrappen, G.

Amsterdam : Elsevier

Regulatory Peptides 21 (1988), S. 321-330

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ISSN: 0167-0115

Keywords: 8-(N,N-Diethylamino)-octyl-3,4,5-trimethoxybenzoate hydrochloride ; Calcium ; Diltiazem ; Rabbit duodenum in vitro ; Trifluoperazine ; Verapamil

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0167-0115(88)90015-8

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Ca2+ dependence of motilide-induced contractions in rabbit duodenal muscle strips in vitro (1991)

Peeters, T. L. ; Matthijs, G. ; Vantrappen, G.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 343 (1991), S. 202-208

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ISSN: 1432-1912

Keywords: Motilin ; Erythromycin ; Pharmaco-mechanical coupling ; Motilide ; Calcium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Recent studies suggested that certain erythromycin A (EM-A) derivatives are motilin receptor agonists. As proposed by Itoh they may be called “motilides”. We have investigated the Ca2+-dependence of contractions induced by two potent motilides, ME-34 [de(N-methyl) 8,9-anhydroeryhtromycin A 6,9-hemiacetal] and EM-523 [de(N-methyl)-N-ethyl-8,9-anhydro-erythromycin A 6,9-hemiacetal], in duodenal tissues and compared the results with those previously obtained with motilin. Isometric and isotonic contractile responses of isolated longitudinal muscle sheets from the rabbit duodenum were tested under normal, Ca2+-free and depolarizing conditions. Prior to stimulation with motilides, the maximal response to acetylcholine was recorded and all responses were always expressed as a percentage of this response. Both motilides induced contractions in normally polarized tissue, with an EC50 of 26 ± 5 nM for ME-34 (n = 7), and 27 ± 5 nM for EM-5231 (n = 16) and maximal responses of respectively 88 ± 4% and 80 ± 3%. Like motilin, both compounds induced an ‘extra’-contraction in depolarized tissues. The EM-523 response in 140 mM K+under isotonic conditions was 84 ± 3% (n = 5) at 10−5 M, with an EC50 that was shifted to 65 ± 18 nM. Similar figures were obtained for ME-34. When Ca2+ was added to Ca2+-depleted strips, half-maximal Ca2+ values (in mM) were 1.10 ± 0.11 (n = 9) for EM-523 and 1.13 ± 0.12 (n = 3) for ME-34, as compared with 1.12 ± 0.13 (n = 7) for motilin and 2.8 ± 1.1 (n = 9) for K+. Both ME-34 and EM-523 also induced a transient contraction in Ca+-free solutions under isometric conditions. The response to EM-523 (5 × 10−6 M) was 49 ± 15% (n = 4) after 3 min. A maximal EM-523 -stimulation reduced a subsequent ACh response by 78 ± 7%, whereas EM-523 and ME-34 could not induce a contraction after ACh. We conclude that motilides depend upon external Ca2+ to a similar extent to motilin. Like motilin, they are also able to mobilize intracellular Ca Z + stores. Our results support the hypothesis that motilides act on motilin receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00168611

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