Integration of vagal afferent responses to duodenal loads and exogenous CCK in rats

Gary J. Schwartz; Gervais Tougas; Timothy H. Moran

doi:10.1016/0196-9781(95)00033-G

Integration of vagal afferent responses to duodenal loads and exogenous CCK in rats

Gary J. Schwartz, Gervais Tougas, Timothy H. Moran

School of Medicine

Research output: Contribution to journal › Article › peer-review

63 Scopus citations

Abstract

The neurophysiological responses to 0.1 ml duodenal balloon inflation, 0.5 ml duodenal loads of normal saline, and 100 pmol close celiac arterial infusions of cholecystokinin (CCK) were obtained from 14 left cervical vagal afferent fibers in 14 rats. Duodenal, but not gastric, loads increased discharge rates in these slowly adapting fibers. CCK alone excited these fibers, and CCK pretreatment amplified subsequent duodenal load responses. Furthermone, duodenal loads generated greater responses when combined with CCK infusions. The small (<3 mm) receptive fields of these fibers were localized to the ventral wall of the proximal duodenum, with C fiber conduction velocities (<2m/s). These results demonstrate for the first time rat duodenal load-sensitive vagal afferents. They can integrate signals arising from CCK and duodenal loads, and may mediate aspects of the role of CCK in the inhibition of gastric emptying and the control of food intake.

Original language	English (US)
Pages (from-to)	707-711
Number of pages	5
Journal	Peptides
Volume	16
Issue number	4
DOIs	https://doi.org/10.1016/0196-9781(95)00033-G
State	Published - 1995

Keywords

Distension
Mechanoreception
Neurophysiology
Satiety
Vagus
Visceral afferents

ASJC Scopus subject areas

Biochemistry
Physiology
Endocrinology
Cellular and Molecular Neuroscience

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10.1016/0196-9781(95)00033-G

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title = "Integration of vagal afferent responses to duodenal loads and exogenous CCK in rats",

abstract = "The neurophysiological responses to 0.1 ml duodenal balloon inflation, 0.5 ml duodenal loads of normal saline, and 100 pmol close celiac arterial infusions of cholecystokinin (CCK) were obtained from 14 left cervical vagal afferent fibers in 14 rats. Duodenal, but not gastric, loads increased discharge rates in these slowly adapting fibers. CCK alone excited these fibers, and CCK pretreatment amplified subsequent duodenal load responses. Furthermone, duodenal loads generated greater responses when combined with CCK infusions. The small (<3 mm) receptive fields of these fibers were localized to the ventral wall of the proximal duodenum, with C fiber conduction velocities (<2m/s). These results demonstrate for the first time rat duodenal load-sensitive vagal afferents. They can integrate signals arising from CCK and duodenal loads, and may mediate aspects of the role of CCK in the inhibition of gastric emptying and the control of food intake.",

keywords = "Distension, Mechanoreception, Neurophysiology, Satiety, Vagus, Visceral afferents",

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AU - Schwartz, Gary J.

AU - Tougas, Gervais

AU - Moran, Timothy H.

PY - 1995

Y1 - 1995

N2 - The neurophysiological responses to 0.1 ml duodenal balloon inflation, 0.5 ml duodenal loads of normal saline, and 100 pmol close celiac arterial infusions of cholecystokinin (CCK) were obtained from 14 left cervical vagal afferent fibers in 14 rats. Duodenal, but not gastric, loads increased discharge rates in these slowly adapting fibers. CCK alone excited these fibers, and CCK pretreatment amplified subsequent duodenal load responses. Furthermone, duodenal loads generated greater responses when combined with CCK infusions. The small (<3 mm) receptive fields of these fibers were localized to the ventral wall of the proximal duodenum, with C fiber conduction velocities (<2m/s). These results demonstrate for the first time rat duodenal load-sensitive vagal afferents. They can integrate signals arising from CCK and duodenal loads, and may mediate aspects of the role of CCK in the inhibition of gastric emptying and the control of food intake.

AB - The neurophysiological responses to 0.1 ml duodenal balloon inflation, 0.5 ml duodenal loads of normal saline, and 100 pmol close celiac arterial infusions of cholecystokinin (CCK) were obtained from 14 left cervical vagal afferent fibers in 14 rats. Duodenal, but not gastric, loads increased discharge rates in these slowly adapting fibers. CCK alone excited these fibers, and CCK pretreatment amplified subsequent duodenal load responses. Furthermone, duodenal loads generated greater responses when combined with CCK infusions. The small (<3 mm) receptive fields of these fibers were localized to the ventral wall of the proximal duodenum, with C fiber conduction velocities (<2m/s). These results demonstrate for the first time rat duodenal load-sensitive vagal afferents. They can integrate signals arising from CCK and duodenal loads, and may mediate aspects of the role of CCK in the inhibition of gastric emptying and the control of food intake.

KW - Distension

KW - Mechanoreception

KW - Neurophysiology

KW - Satiety

KW - Vagus

KW - Visceral afferents

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Integration of vagal afferent responses to duodenal loads and exogenous CCK in rats

Abstract

Keywords

ASJC Scopus subject areas

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