期刊
NATURE REVIEWS GASTROENTEROLOGY & HEPATOLOGY
卷 17, 期 6, 页码 338-351出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/s41575-020-0271-2
关键词
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资金
- NIH [R01GM101218, R01DK103901, R01AA027065]
- Washington University School of Medicine Digestive Disease Research Core Center [NIDDK P30 DK052574]
- Center for the Study of Itch of the Department of Anaesthesiology at Washington University School of Medicine
- NH&MRC of Australia [APP1156427, APP1156416]
The gastrointestinal tract is the only internal organ to have evolved with its own independent nervous system, known as the enteric nervous system (ENS). This Review provides an update on advances that have been made in our understanding of how neurons within the ENS coordinate sensory and motor functions. Understanding this function is critical for determining how deficits in neurogenic motor patterns arise. Knowledge of how distension or chemical stimulation of the bowel evokes sensory responses in the ENS and central nervous system have progressed, including critical elements that underlie the mechanotransduction of distension-evoked colonic peristalsis. Contrary to original thought, evidence suggests that mucosal serotonin is not required for peristalsis or colonic migrating motor complexes, although it can modulate their characteristics. Chemosensory stimuli applied to the lumen can release substances from enteroendocrine cells, which could subsequently modulate ENS activity. Advances have been made in optogenetic technologies, such that specific neurochemical classes of enteric neurons can be stimulated. A major focus of this Review will be the latest advances in our understanding of how intrinsic sensory neurons in the ENS detect and respond to sensory stimuli and how these mechanisms differ from extrinsic sensory nerve endings in the gut that underlie the gut-brain axis. The enteric nervous system (ENS) is essential for life and controls the function of the gastrointestinal tract. Here, an overview of sensory transduction and neural circuits in the ENS is provided, yielding insights into the generation of gastrointestinal motility.
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