Clostridium difficile toxins A and B decrease intestinal SLC26A3 protein expression

Clostridium difficile toxins A and B decrease intestinal SLC26A3 protein expression

Clostridium difficile infection (CDI) is the primary cause of nosocomial diarrhea in the United States. Although C. difficile toxins A and B are the primary mediators of CDI, the overall pathophysiology underlying C. difficile-associated diarrhea remains poorly understood. Studies have shown that a...

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Veröffentlicht in:American journal of physiology: Gastrointestinal and liver physiology 2018-07, Vol.315 (1), p.307
Hauptverfasser: Coffing, Hayley, Priyamvada, Shubha, Anbazhagan, Arivarasu N, Salibay, Christine, Engevik, Melinda, Versalovic, James, Yacyshyn, Mary Beth, Yacyshyn, Bruce, Tyagi, Sangeeta, Saksena, Seema, Gill, Ravinder K, Alrefai, Waddah A, Dudeja, Pradeep K
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Sprache:eng
Schlagworte:
Adenoma
Cell culture
Clostridium difficile
Diarrhea
Electrolytes
Epithelial cells
Hospitals
Infections
Inflammation
Intestine
mRNA
Na+/H+-exchanging ATPase
Phenotypes
Protein transport
Toxins
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container_issue 1
container_start_page 307
container_title American journal of physiology: Gastrointestinal and liver physiology
container_volume 315
creator Coffing, Hayley
Priyamvada, Shubha
Anbazhagan, Arivarasu N
Salibay, Christine
Engevik, Melinda
Versalovic, James
Yacyshyn, Mary Beth
Yacyshyn, Bruce
Tyagi, Sangeeta
Saksena, Seema
Gill, Ravinder K
Alrefai, Waddah A
Dudeja, Pradeep K
description Clostridium difficile infection (CDI) is the primary cause of nosocomial diarrhea in the United States. Although C. difficile toxins A and B are the primary mediators of CDI, the overall pathophysiology underlying C. difficile-associated diarrhea remains poorly understood. Studies have shown that a decrease in both NHE3 (Na+/H+ exchanger) and DRA (downregulated in adenoma, Cl−/HCO−3 exchanger), resulting in decreased electrolyte absorption, is implicated in infectious and inflammatory diarrhea. Furthermore, studies have shown that NHE3 is depleted at the apical surface of intestinal epithelial cells and downregulated in patients with CDI, but the role of DRA in CDI remains unknown. In the current studies, we examined the effects of C. difficile toxins TcdA and TcdB on DRA protein and mRNA levels in intestinal epithelial cells (IECs). Our data demonstrated that DRA protein levels were significantly reduced in response to TcdA and TcdB in IECs in culture. This effect was also specific to DRA, as NHE3 and PAT-1 (putative anion transporter 1) protein levels were unaffected by TcdA and TcdB. Additionally, purified TcdA and TcdA + TcdB, but not TcdB, resulted in a decrease in colonic DRA protein levels in a toxigenic mouse model of CDI. Finally, patients with recurrent CDI also exhibited significantly reduced expression of colonic DRA protein. Together, these findings indicate that C. difficile toxins markedly downregulate intestinal expression of DRA which may contribute to the diarrheal phenotype of CDI.
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subjects Adenoma
Cell culture
Clostridium difficile
Diarrhea
Electrolytes
Epithelial cells
Hospitals
Infections
Inflammation
Intestine
mRNA
Na+/H+-exchanging ATPase
Phenotypes
Protein transport
Toxins
title Clostridium difficile toxins A and B decrease intestinal SLC26A3 protein expression
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