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AJP - Regulatory, Integrative and Comparative Physiology, Vol 267, Issue 1 303-R308, Copyright © 1994 by American Physiological Society
ARTICLES |
G. J. Schwartz, P. R. McHugh and T. H. Moran
Department of Psychiatry and Behavioral Sciences, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205.
To identify the transduction mechanisms underlying gastric vagal afferent responses to gastric loads and cholecystokinin (CCK), we investigated the ability of specific CCK antagonists, acute pylorectomy, and cholinergic blockade to effect these vagal afferent responses. The CCK-B antagonist L-365,260 (10 pmol-1 nmol) failed to block the gastric vagal afferent response to gastric loads or 100 pmol CCK, while the CCK-A antagonist devazepide (100 pmol-100 nmol) competitively and dose dependently attenuated the response to CCK but not to gastric loads. Application of 100 nmol of the low-affinity CCK receptor antagonist CCK-JMV-180 also completely blocked the gastric vagal afferent response to 100 pmol CCK. Acute pylorectomy failed to block the gastric vagal afferent response to 100 pmol CCK or 2-ml gastric loads. Atropine sulfate administration (15 mg/rat) failed to block the gastric vagal afferent response to 100 pmol CCK or 2-ml gastric loads. These data suggest that 1) the vagal afferent response to CCK is mediated through CCK's interactions with vagal, rather than pyloric, CCK-A receptors, and 2) the vagal afferent responses to CCK and to gastric loads are mediated by dissociable, possibly independent, transduction mechanisms.
This article has been cited by other articles:
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  B. C. De Jonghe, A. Hajnal, and M. Covasa Decreased gastric mechanodetection, but preserved gastric emptying, in CCK-1 receptor-deficient OLETF rats Am J Physiol Gastrointest Liver Physiol, October 1, 2006; 291(4): G640 - G649. [Abstract] [Full Text] [PDF]
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 S. Aja Serotonin-3 receptors in gastric mechanisms of cholecystokinin-induced satiety Am J Physiol Regulatory Integrative Comp Physiol, July 1, 2006; 291(1): R112 - R114. [Full Text] [PDF]
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T. H. Moran and K. P. Kinzig Gastrointestinal satiety signals II. Cholecystokinin Am J Physiol Gastrointest Liver Physiol, February 1, 2004; 286(2): G183 - G188. [Abstract] [Full Text] [PDF]
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S. M. Simasko and R. C. Ritter Cholecystokinin activates both A- and C-type vagal afferent neurons Am J Physiol Gastrointest Liver Physiol, December 1, 2003; 285(6): G1204 - G1213. [Abstract] [Full Text] [PDF]
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T. L. Powley and R. J. Phillips Musings on the Wanderer: What's New in Our Understanding of Vago-Vagal Reflexes?: I. Morphology and topography of vagal afferents innervating the GI tract Am J Physiol Gastrointest Liver Physiol, December 1, 2002; 283(6): G1217 - G1225. [Abstract] [Full Text] [PDF]
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Y. Li, J. Zhu, and C. Owyang Electrical physiological evidence for highand low-affinity vagal CCK-A receptors Am J Physiol Gastrointest Liver Physiol, August 1, 1999; 277(2): G469 - G477. [Abstract] [Full Text] [PDF]
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G. J. Schwartz, C. F. Salorio, C. Skoglund, and T. H. Moran Gut vagal afferent lesions increase meal size but do not block gastric preload-induced feeding suppression Am J Physiol Regulatory Integrative Comp Physiol, June 1, 1999; 276(6): R1623 - R1629. [Abstract] [Full Text] [PDF]
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C. Mathis, T. H. Moran, and G. J. Schwartz Load-sensitive rat gastric vagal afferents encode volume but not gastric nutrients Am J Physiol Regulatory Integrative Comp Physiol, February 1, 1998; 274(2): R280 - R286. [Abstract] [Full Text] [PDF]
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