Literature DB >> 33481771

Gut bacteria-derived 5-hydroxyindole is a potent stimulant of intestinal motility via its action on L-type calcium channels.

Barbora Waclawiková1, Amber Bullock1, Markus Schwalbe1, Carmen Aranzamendi1, Sieger A Nelemans2, Gertjan van Dijk3, Sahar El Aidy1.   

Abstract

Microbial conversion of dietary or drug substrates into small bioactive molecules represents a regulatory mechanism by which the gut microbiota alters intestinal physiology. Here, we show that a wide variety of gut bacteria can metabolize the dietary supplement and antidepressant 5-hydroxytryptophan (5-HTP) to 5-hydroxyindole (5-HI) via the tryptophanase (TnaA) enzyme. Oral administration of 5-HTP results in detection of 5-HI in fecal samples of healthy volunteers with interindividual variation. The production of 5-HI is inhibited upon pH reduction in in vitro studies. When administered orally in rats, 5-HI significantly accelerates the total gut transit time (TGTT). Deciphering the underlying mechanisms of action reveals that 5-HI accelerates gut contractility via activation of L-type calcium channels located on the colonic smooth muscle cells. Moreover, 5-HI stimulation of a cell line model of intestinal enterochromaffin cells results in significant increase in serotonin production. Together, our findings support a role for bacterial metabolism in altering gut motility and lay the foundation for microbiota-targeted interventions.

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Year:  2021        PMID: 33481771      PMCID: PMC7857600          DOI: 10.1371/journal.pbio.3001070

Source DB:  PubMed          Journal:  PLoS Biol        ISSN: 1544-9173            Impact factor:   8.029


  86 in total

1.  5-hydroxyindole causes convulsions and increases transmitter release in the CA1 region of the rat hippocampus.

Authors:  Guido Mannaioni; Raffaella Carpenedo; Flavio Moroni
Journal:  Br J Pharmacol       Date:  2003-01       Impact factor: 8.739

2.  Basic local alignment search tool.

Authors:  S F Altschul; W Gish; W Miller; E W Myers; D J Lipman
Journal:  J Mol Biol       Date:  1990-10-05       Impact factor: 5.469

Review 3.  Tryptophanase: structure, catalytic activities, and mechanism of action.

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Journal:  Adv Enzymol Relat Areas Mol Biol       Date:  1975

4.  Down-regulation of L-type calcium channels in inflamed circular smooth muscle cells of the canine colon.

Authors:  X Liu; N J Rusch; J Striessnig; S K Sarna
Journal:  Gastroenterology       Date:  2001-02       Impact factor: 22.682

Review 5.  Neurohumoral control of gastrointestinal motility.

Authors:  M B Hansen
Journal:  Physiol Res       Date:  2003       Impact factor: 1.881

Review 6.  Adjunctive 5-Hydroxytryptophan Slow-Release for Treatment-Resistant Depression: Clinical and Preclinical Rationale.

Authors:  Jacob P R Jacobsen; Andrew D Krystal; K Ranga R Krishnan; Marc G Caron
Journal:  Trends Pharmacol Sci       Date:  2016-09-28       Impact factor: 14.819

7.  Crosstalk between muscularis macrophages and enteric neurons regulates gastrointestinal motility.

Authors:  Paul Andrew Muller; Balázs Koscsó; Gaurav Manohar Rajani; Korey Stevanovic; Marie-Luise Berres; Daigo Hashimoto; Arthur Mortha; Marylene Leboeuf; Xiu-Min Li; Daniel Mucida; E Richard Stanley; Stephanie Dahan; Kara Gross Margolis; Michael David Gershon; Miriam Merad; Milena Bogunovic
Journal:  Cell       Date:  2014-07-17       Impact factor: 41.582

8.  SSRI Augmentation by 5-Hydroxytryptophan Slow Release: Mouse Pharmacodynamic Proof of Concept.

Authors:  Jacob Pr Jacobsen; Meghan L Rudder; Wendy Roberts; Elizabeth L Royer; Taylor J Robinson; Adrianna Oh; Ivan Spasojevic; Benjamin D Sachs; Marc G Caron
Journal:  Neuropsychopharmacology       Date:  2016-03-02       Impact factor: 7.853

9.  Risk of developing colorectal cancer and benign colorectal neoplasm in patients with chronic constipation.

Authors:  A Guérin; R Mody; B Fok; K L Lasch; Z Zhou; E Q Wu; W Zhou; N J Talley
Journal:  Aliment Pharmacol Ther       Date:  2014-05-15       Impact factor: 8.171

10.  Saturated long-chain fatty acid-producing bacteria contribute to enhanced colonic motility in rats.

Authors:  Ling Zhao; Yufen Huang; Lin Lu; Wei Yang; Tao Huang; Zesi Lin; Chengyuan Lin; Hiuyee Kwan; Hoi Leong Xavier Wong; Yang Chen; Silong Sun; Xuefeng Xie; Xiaodong Fang; Huanming Yang; Jian Wang; Lixin Zhu; Zhaoxiang Bian
Journal:  Microbiome       Date:  2018-06-14       Impact factor: 14.650
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  4 in total

Review 1.  Gut microbiota-motility interregulation: insights from in vivo, ex vivo and in silico studies.

Authors:  Barbora Waclawiková; Agnese Codutti; Karen Alim; Sahar El Aidy
Journal:  Gut Microbes       Date:  2022 Jan-Dec

Review 2.  The Role of Serotonin Neurotransmission in Gastrointestinal Tract and Pharmacotherapy.

Authors:  Tomasz Guzel; Dagmara Mirowska-Guzel
Journal:  Molecules       Date:  2022-03-03       Impact factor: 4.411

Review 3.  Role of gut microbiota-derived signals in the regulation of gastrointestinal motility.

Authors:  Zhipeng Zheng; Jingyi Tang; Yingnan Hu; Wei Zhang
Journal:  Front Med (Lausanne)       Date:  2022-07-22

4.  Optimization of a GC-MS method for the profiling of microbiota-dependent metabolites in blood samples: An application to type 2 diabetes and prediabetes.

Authors:  Patrycja Mojsak; Katarzyna Maliszewska; Paulina Klimaszewska; Katarzyna Miniewska; Joanna Godzien; Julia Sieminska; Adam Kretowski; Michal Ciborowski
Journal:  Front Mol Biosci       Date:  2022-09-23
  4 in total

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