Coordinated epithelial NHE3 inhibition and barrier dysfunction are required for TNF-mediated diarrhea in vivo
Daniel R. Clayburgh, Mark W. Musch, Michael Leitges, Yang-Xin Fu, Jerrold R. Turner
Daniel R. Clayburgh, Mark W. Musch, Michael Leitges, Yang-Xin Fu, Jerrold R. Turner
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Research Article Gastroenterology

Coordinated epithelial NHE3 inhibition and barrier dysfunction are required for TNF-mediated diarrhea in vivo

Abstract

Acute T cell–mediated diarrhea is associated with increased mucosal expression of proinflammatory cytokines, including the TNF superfamily members TNF and LIGHT. While we have previously shown that epithelial barrier dysfunction induced by myosin light chain kinase (MLCK) is required for the development of diarrhea, MLCK inhibition does not completely restore water absorption. In contrast, although TNF-neutralizing antibodies completely restore water absorption after systemic T cell activation, barrier function is only partially corrected. This suggests that, while barrier dysfunction is critical, other processes must be involved in T cell–mediated diarrhea. To define these processes in vivo, we asked whether individual cytokines might regulate different events in T cell–mediated diarrhea. Both TNF and LIGHT caused MLCK-dependent barrier dysfunction. However, while TNF caused diarrhea, LIGHT enhanced intestinal water absorption. Moreover, TNF, but not LIGHT, inhibited Na+ absorption due to TNF-induced internalization of the brush border Na+/H+ exchanger NHE3. LIGHT did not cause NHE3 internalization. PKCα activation by TNF was responsible for NHE3 internalization, and pharmacological or genetic PKCα inhibition prevented NHE3 internalization, Na+ malabsorption, and diarrhea despite continued barrier dysfunction. These data demonstrate the necessity of coordinated Na+ malabsorption and barrier dysfunction in TNF-induced diarrhea and provide insight into mechanisms of intestinal water transport.

Authors

Daniel R. Clayburgh, Mark W. Musch, Michael Leitges, Yang-Xin Fu, Jerrold R. Turner

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Figure 6

cAMP signaling is not involved in TNF-mediated water secretion.

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cAMP signaling is not involved in TNF-mediated water secretion. (A) Meas...
(A) Measurement of cAMP levels in the jejunal epithelium of mice 30 or 60 minutes after injection with either TNF or LIGHT shows that neither treatment increases epithelial cAMP. Cholera toxin is shown as a positive control. (B) BSA flux was measured in control animals, after the addition of 20 μM forskolin to the perfusion solution or after injection of 5 μg TNF. The PKA inhibitors KT5720 (500 nM) and myristoylated PKI (1 μM) were added to the perfusion solution as indicated. TNF, but not forskolin, significantly increased BSA flux. PKA inhibitors had no effect on BSA flux. (C) Both forskolin and TNF treatment resulted in net water secretion. PKA inhibitors restored net water absorption to control levels after forskolin treatment but had no effect on TNF-induced net water secretion, indicating that cAMP signaling is not involved in TNF-mediated water secretion.