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Vagal innervation of the stomach reassessed: brain-gut connectome uses smart terminals.

Authors
  • Powley, Terry L1
  • Jaffey, Deborah M1
  • McAdams, Jennifer1
  • Baronowsky, Elizabeth A1
  • Black, Diana1
  • Chesney, Logan1
  • Evans, Charlene1
  • Phillips, Robert J1
Type
Published Article
Journal
Annals of the New York Academy of Sciences
Publisher
Wiley (Blackwell Publishing)
Publication Date
Sep 30, 2019
Volume
1454
Issue
1
Pages
14–30
Identifiers
DOI: 10.1111/nyas.14138
PMID: 31268562
Source
Medline
Keywords
Language
English
License
Unknown

Abstract

Brain-gut neural communications have long been considered limited because of conspicuous numerical mismatches. The vagus, the parasympathetic nerve connecting brain and gut, contains thousands of axons, whereas the gastrointestinal (GI) tract contains millions of intrinsic neurons in local plexuses. The numerical paradox was initially recognized in terms of efferent projections, but the number of afferents, which comprise the majority (≈ 80%) of neurites in the vagus, is also relatively small. The present survey of recent morphological observations suggests that vagal terminals, and more generally autonomic and visceral afferent arbors in the stomach as well as throughout the gut, elaborate arbors that are extensive, regionally specialized, polymorphic, polytopic, and polymodal, commonly with multiplicities of receptors and binding sites-smart terminals. The morphological specializations and dynamic tuning of one-to-many efferent projections and many-to-one convergences of contacts onto afferents create a complex architecture capable of extensive peripheral integration in the brain-gut connectome and offset many of the disparities between axon and target numbers. Appreciating this complex architecture can help in the design of therapies for GI disorders. © 2019 New York Academy of Sciences.

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