Literature DB >> 30510170

Clostridium difficile toxins induce VEGF-A and vascular permeability to promote disease pathogenesis.

Jun Huang1,2,3, Ciarán P Kelly1, Kyriaki Bakirtzi4, Javier A Villafuerte Gálvez1, Dena Lyras5, Steven J Mileto5, Sarah Larcombe5, Hua Xu1, Xiaotong Yang1,6, Kelsey S Shields1, Weishu Zhu7, Yi Zhang1,8, Jeffrey D Goldsmith9, Ishan J Patel1,10, Joshua Hansen1, Meijin Huang2, Seppo Yla-Herttuala11, Alan C Moss1, Daniel Paredes-Sabja12, Charalabos Pothoulakis5, Yatrik M Shah13, Jianping Wang14,15, Xinhua Chen16.   

Abstract

Clostridium difficile infection (CDI) is mediated by two major exotoxins, toxin A (TcdA) and toxin B (TcdB), that damage the colonic epithelial barrier and induce inflammatory responses. The function of the colonic vascular barrier during CDI has been relatively understudied. Here we report increased colonic vascular permeability in CDI mice and elevated vascular endothelial growth factor A (VEGF-A), which was induced in vivo by infection with TcdA- and/or TcdB-producing C. difficile strains but not with a TcdA-TcdB- isogenic mutant. TcdA or TcdB also induced the expression of VEGF-A in human colonic mucosal biopsies. Hypoxia-inducible factor signalling appeared to mediate toxin-induced VEGF production in colonocytes, which can further stimulate human intestinal microvascular endothelial cells. Both neutralization of VEGF-A and inhibition of its signalling pathway attenuated CDI in vivo. Compared to healthy controls, CDI patients had significantly higher serum VEGF-A that subsequently decreased after treatment. Our findings indicate critical roles for toxin-induced VEGF-A and colonic vascular permeability in CDI pathogenesis and may also point to the pathophysiological significance of the gut vascular barrier in response to virulence factors of enteric pathogens. As an alternative to pathogen-targeted therapy, this study may enable new host-directed therapeutic approaches for severe, refractory CDI.

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Year:  2018        PMID: 30510170      PMCID: PMC6559218          DOI: 10.1038/s41564-018-0300-x

Source DB:  PubMed          Journal:  Nat Microbiol        ISSN: 2058-5276            Impact factor:   17.745


  52 in total

1.  p38 MAP kinase activation by Clostridium difficile toxin A mediates monocyte necrosis, IL-8 production, and enteritis.

Authors:  M Warny; A C Keates; S Keates; I Castagliuolo; J K Zacks; S Aboudola; A Qamar; C Pothoulakis; J T LaMont; C P Kelly
Journal:  J Clin Invest       Date:  2000-04       Impact factor: 14.808

2.  Leakage-resistant blood vessels in mice transgenically overexpressing angiopoietin-1.

Authors:  G Thurston; C Suri; K Smith; J McClain; T N Sato; G D Yancopoulos; D M McDonald
Journal:  Science       Date:  1999-12-24       Impact factor: 47.728

3.  Protein kinase C signaling regulates ZO-1 translocation and increased paracellular flux of T84 colonocytes exposed to Clostridium difficile toxin A.

Authors:  Ming L Chen; Charalabos Pothoulakis; J Thomas LaMont
Journal:  J Biol Chem       Date:  2001-11-29       Impact factor: 5.157

4.  In vivo detection of morphological and microvascular changes of the colon in association with colitis using fiberoptic confocal imaging (FOCI).

Authors:  Wendy J McLaren; Peter Anikijenko; Steven G Thomas; Peter M Delaney; Roger G King
Journal:  Dig Dis Sci       Date:  2002-11       Impact factor: 3.199

5.  Clostridium difficile toxin A causes early damage to mitochondria in cultured cells.

Authors:  D He; S J Hagen; C Pothoulakis; M Chen; N D Medina; M Warny; J T LaMont
Journal:  Gastroenterology       Date:  2000-07       Impact factor: 22.682

6.  Angiogenesis and prostate cancer: identification of a molecular progression switch.

Authors:  W J Huss; C F Hanrahan; R J Barrios; J W Simons; N M Greenberg
Journal:  Cancer Res       Date:  2001-03-15       Impact factor: 12.701

7.  VEGF, basic-FGF, and TGF-beta in Crohn's disease and ulcerative colitis: a novel mechanism of chronic intestinal inflammation.

Authors:  S Kanazawa; T Tsunoda; E Onuma; T Majima; M Kagiyama; K Kikuchi
Journal:  Am J Gastroenterol       Date:  2001-03       Impact factor: 10.864

8.  Differential effects of varying concentrations of clostridium difficile toxin A on epithelial barrier function and expression of cytokines.

Authors:  Shawinder S Johal; Katie Solomon; Sue Dodson; S Peter Borriello; Yashwant R Mahida
Journal:  J Infect Dis       Date:  2004-04-30       Impact factor: 5.226

9.  Hypoxia induces HIF-1alpha and VEGF expression in chondrosarcoma cells and chondrocytes.

Authors:  Chuzhao Lin; Richard McGough; Bassam Aswad; Joel A Block; Richard Terek
Journal:  J Orthop Res       Date:  2004-11       Impact factor: 3.494

10.  Vascular endothelial growth factor in inflammatory bowel disease.

Authors:  Andreas Kapsoritakis; Aekaterini Sfiridaki; Efstratios Maltezos; Kostantinos Simopoulos; Alexandra Giatromanolaki; Efthimios Sivridis; Michael I Koukourakis
Journal:  Int J Colorectal Dis       Date:  2003-05-22       Impact factor: 2.571
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  16 in total

Review 1.  Malnutrition, poor post-natal growth, intestinal dysbiosis and the developing lung.

Authors:  Mark A Underwood; Satyan Lakshminrusimha; Robin H Steinhorn; Stephen Wedgwood
Journal:  J Perinatol       Date:  2020-10-14       Impact factor: 2.521

2.  Neuroprotective Effects of VEGF in the Enteric Nervous System.

Authors:  Ines Hecking; Lennart Norman Stegemann; Verena Theis; Matthias Vorgerd; Veronika Matschke; Sarah Stahlke; Carsten Theiss
Journal:  Int J Mol Sci       Date:  2022-06-17       Impact factor: 6.208

3.  Inflammatory bowel disease and cardiovascular diseases: a concise review.

Authors:  Hao Wu; Tingzi Hu; Hong Hao; Michael A Hill; Canxia Xu; Zhenguo Liu
Journal:  Eur Heart J Open       Date:  2021-10-14

Review 4.  Faecal microbiota transplantation for Clostridioides difficile: mechanisms and pharmacology.

Authors:  Alexander Khoruts; Christopher Staley; Michael J Sadowsky
Journal:  Nat Rev Gastroenterol Hepatol       Date:  2020-08-25       Impact factor: 46.802

5.  Leishmania Infection Induces Macrophage Vascular Endothelial Growth Factor A Production in an ARNT/HIF-Dependent Manner.

Authors:  Tiffany Weinkopff; Hayden Roys; Anne Bowlin; Phillip Scott
Journal:  Infect Immun       Date:  2019-10-18       Impact factor: 3.441

6.  A Palmitoylethanolamide Producing Lactobacillus paracasei Improves Clostridium difficile Toxin A-Induced Colitis.

Authors:  Giuseppe Esposito; Chiara Corpetti; Marcella Pesce; Luisa Seguella; Giuseppe Annunziata; Alessandro Del Re; Martina Vincenzi; Roberta Lattanzi; Jie Lu; Walter Sanseverino; Giovanni Sarnelli
Journal:  Front Pharmacol       Date:  2021-04-27       Impact factor: 5.810

7.  Induced Pluripotent Stem Cell-Derived Brain Endothelial Cells as a Cellular Model to Study Neisseria meningitidis Infection.

Authors:  Sara F Martins Gomes; Alexander J Westermann; Till Sauerwein; Tobias Hertlein; Konrad U Förstner; Knut Ohlsen; Marco Metzger; Eric V Shusta; Brandon J Kim; Antje Appelt-Menzel; Alexandra Schubert-Unkmeir
Journal:  Front Microbiol       Date:  2019-05-29       Impact factor: 5.640

Review 8.  The relationship between the gut microbiome and host gene expression: a review.

Authors:  Robert G Nichols; Emily R Davenport
Journal:  Hum Genet       Date:  2020-11-22       Impact factor: 4.132

9.  Extra-Intestinal Effects of C. difficile Toxin A and B: An In Vivo Study Using the Zebrafish Embryo Model.

Authors:  Federica Tonon; Stefano Di Bella; Gabriele Grassi; Roberto Luzzati; Paolo Ascenzi; Alessandra di Masi; Cristina Zennaro
Journal:  Cells       Date:  2020-12-01       Impact factor: 6.600

10.  Fecal Mycobiota Combined With Host Immune Factors Distinguish Clostridioides difficile Infection From Asymptomatic Carriage.

Authors:  Yangchun Cao; Lamei Wang; Shanlin Ke; Javier A Villafuerte Gálvez; Nira R Pollock; Caitlin Barrett; Rebecca Sprague; Kaitlyn Daugherty; Hua Xu; Qianyun Lin; Junhu Yao; Yulin Chen; Ciarán P Kelly; Yang-Yu Liu; Xinhua Chen
Journal:  Gastroenterology       Date:  2021-03-05       Impact factor: 33.883
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