Gastric Peptides and Their Regulation of Hunger and Satiety

Overview

Journal Curr Gastroenterol Rep

Specialty Gastroenterology

Date 2012 Sep 25

PMID 23001831

Citations 5

Authors

Andreas Stengel

Yvette Tache

Affiliations

Soon will be listed here.

Abstract

Ingestion of food affects the secretion of hormones from specialized endocrine cells scattered within the intestinal mucosa. Upon release, these hormones mostly decrease food intake by signaling information to the brain. Although enteroendocrine cells in the small intestine were thought to represent the predominant gut-brain regulators of food intake, recent advances also established a major role for gastric hormones in these regulatory pathways. First and foremost, the gastric endocrine X/A-like cell was in the focus of many studies due to the production of ghrelin, which is until now the only known orexigenic hormone that is peripherally produced and centrally acting. Although X/A-cells were initially thought to only release one hormone that stimulates food intake, this view has changed with the identification of additional peptide products also derived from this cell, namely desacyl ghrelin, obestatin, and nesfatin-1. Desacyl ghrelin may play a counter-regulatory role to the food intake stimulatory effect of ghrelin. The same property was suggested for obestatin; however, this hypothesis could not be confirmed in numerous subsequent studies. Moreover, the description of the stomach as the major source of the novel anorexigenic hormone nesfatin-1 derived from the NUCB2 gene further corroborated the assumption that the gastric X/A-like cell products are not only stimulant but also inhibitors of feeding, thereby acting as so far unique dual regulator of food intake located in a logistically important place where the gastrointestinal tract has initial contact with food.

Citing Articles

Follow the Metaplasia: Characteristics and Oncogenic Implications of Metaplasia's Pattern of Spread Throughout the Stomach.

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PMID: 34869328 PMC: 8633114. DOI: 10.3389/fcell.2021.741574.

How we decide what to eat: Toward an interdisciplinary model of gut-brain interactions.

Plassmann H, Schelski D, Simon M, Koban L Wiley Interdiscip Rev Cogn Sci. 2021; 13(1):e1562.

PMID: 33977675 PMC: 9286667. DOI: 10.1002/wcs.1562.

A RAPID Method for Blood Processing to Increase the Yield of Plasma Peptide Levels in Human Blood.

Teuffel P, Goebel-Stengel M, Hofmann T, Prinz P, Scharner S, Korner J J Vis Exp. 2016; (110).

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Nesfatin-130-59 Injected Intracerebroventricularly Differentially Affects Food Intake Microstructure in Rats Under Normal Weight and Diet-Induced Obese Conditions.

Prinz P, Teuffel P, Lembke V, Kobelt P, Goebel-Stengel M, Hofmann T Front Neurosci. 2015; 9:422.

PMID: 26635512 PMC: 4655236. DOI: 10.3389/fnins.2015.00422.

Nesfatin-1 as a new potent regulator in reproductive system.

Kim J, Yang H Dev Reprod. 2015; 16(4):253-64.

PMID: 25949098 PMC: 4282246. DOI: 10.12717/DR.2012.16.4.253.

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