Intestinal luminal nitrogen metabolism: Role of the gut microbiota and consequences for the host
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Davila, Anne Marie
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Intestinal luminal nitrogen metabolism: Role of the gut microbiota and consequences for the host
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Abstract
Alimentary and endogenous proteins are mixed in the small intestinal lumen with the microbiota.
Although experimental evidences suggest that the intestinal microbiota is able to incorporate and degrade
some of the available amino acids, it appears that the microbiota is also able to synthesize amino acids
raising the view that amino acid exchange between the microbiota and host can proceed in both directions.
Although the net result of such exchanges remains to be determined, it is likely that a significant
part of the amino acids recovered from the alimentary proteins are used by the microbiota. In the large
intestine, where the density of bacteria is much higher than in the small intestine and the transit time
much longer, the residual undigested luminal proteins and peptides can be degraded in amino acids
by the microbiota. These amino acids cannot be absorbed to a significant extent by the colonic epithelium,
but are precursors for the synthesis of numerous metabolic end products in reactions made by
the microbiota. Among these products, some like short-chain fatty acids and organic acids are energy
substrates for the colonic mucosa and several peripheral tissues while others like sulfide and ammonia
can affect the energy metabolism of colonic epithelial cells. More work is needed to clarify the overall
effects of the intestinal microbiota on nitrogenous compound metabolism and consequences on gut and
more generally host health.
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URI: https://repositorio.uchile.cl/handle/2250/129268
DOI: doi 10.1016/j.phrs.2012.11.005
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Pharmacological Research 68 (2013) 95– 107
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