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Robustness of the non-neuronal cholinergic system in rat large intestine against luminal challenges
by
Diener, Martin
, Bader, Sandra
, Breves, Gerhard
, Gerbig, Stefanie
, Schwiertz, Andreas
, Spengler, Bernhard
in
Acetylcholine
/ Acetyltransferase
/ Carbohydrates
/ Choline
/ Choline O-acetyltransferase
/ Cholinergic transmission
/ Colon
/ Conductance
/ Dietary fiber
/ Epithelium
/ Esters
/ Fatty acids
/ Fermentation
/ Fluorescein
/ Gene expression
/ Homeostasis
/ Intestinal microflora
/ Large intestine
/ Microbiota
/ mRNA
/ Propionic acid
/ Short-circuit current
/ Vancomycin
2019
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Robustness of the non-neuronal cholinergic system in rat large intestine against luminal challenges
by
Diener, Martin
, Bader, Sandra
, Breves, Gerhard
, Gerbig, Stefanie
, Schwiertz, Andreas
, Spengler, Bernhard
in
Acetylcholine
/ Acetyltransferase
/ Carbohydrates
/ Choline
/ Choline O-acetyltransferase
/ Cholinergic transmission
/ Colon
/ Conductance
/ Dietary fiber
/ Epithelium
/ Esters
/ Fatty acids
/ Fermentation
/ Fluorescein
/ Gene expression
/ Homeostasis
/ Intestinal microflora
/ Large intestine
/ Microbiota
/ mRNA
/ Propionic acid
/ Short-circuit current
/ Vancomycin
2019
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Robustness of the non-neuronal cholinergic system in rat large intestine against luminal challenges
by
Diener, Martin
, Bader, Sandra
, Breves, Gerhard
, Gerbig, Stefanie
, Schwiertz, Andreas
, Spengler, Bernhard
in
Acetylcholine
/ Acetyltransferase
/ Carbohydrates
/ Choline
/ Choline O-acetyltransferase
/ Cholinergic transmission
/ Colon
/ Conductance
/ Dietary fiber
/ Epithelium
/ Esters
/ Fatty acids
/ Fermentation
/ Fluorescein
/ Gene expression
/ Homeostasis
/ Intestinal microflora
/ Large intestine
/ Microbiota
/ mRNA
/ Propionic acid
/ Short-circuit current
/ Vancomycin
2019
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Robustness of the non-neuronal cholinergic system in rat large intestine against luminal challenges
Journal Article
Robustness of the non-neuronal cholinergic system in rat large intestine against luminal challenges
2019
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Overview
Acetylcholine and atypical esters of choline such as propionyl- and butyrylcholine are produced by the colonic epithelium and are released when epithelial receptors for short-chain fatty acids (SCFA) are stimulated by propionate. It is assumed that the SCFA used by the choline acetyltransferase (ChAT), the central enzyme for the production of these choline esters, originate from the colonic lumen, where they are synthesized during the bacterial fermentation of carbohydrates. Therefore, it seemed to be of interest to study whether the non-neuronal cholinergic system in the colonic epithelium is affected by maneuvers intended to stimulate or to inhibit colonic fermentation by changing the intestinal microbiota. In two series of experiments, rats were either fed with a high fiber diet (15.5% (w/v) crude fibers in comparison to 4.6% (w/w) in the control diet) or treated orally with the antibiotic vancomycin. High fiber diet induced an unexpected decrease in the luminal concentration of SCFA in the colon, but an increase in the caecum, suggesting an upregulation of colonic SCFA absorption, whereas vancomycin treatment resulted in the expected strong reduction of SCFA concentration in colon and caecum. MALDI MS analysis revealed a decrease in the colonic content of propionylcholine by high fiber diet and by vancomycin. High fiber diet caused a significant downregulation of ChAT expression on protein and mRNA level. Despite a modest increase in tissue conductance during the high fiber diet, main barrier and transport properties of the epithelium such as basal short-circuit current (Isc), the flux of the paracellularly transported marker, fluorescein, or the Isc induced by epithelial acetylcholine release evoked by propionate remained unaltered. These results suggest a remarkable stability of the non-neuronal cholinergic system in colonic epithelium against changes in the luminal environment underlying its biological importance for intestinal homeostasis.
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