Inactivation of paracellular cation-selective claudin-2 channels attenuates immune-mediated experimental colitis in mice
Preeti Raju, … , Sachiko Tsukita, Jerrold R. Turner
Preeti Raju, … , Sachiko Tsukita, Jerrold R. Turner
Published June 9, 2020
Citation Information: J Clin Invest. 2020;130(10):5197-5208. https://doi.org/10.1172/JCI138697.
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Research Article Cell biology Gastroenterology

Inactivation of paracellular cation-selective claudin-2 channels attenuates immune-mediated experimental colitis in mice

Abstract

The tight junction protein claudin-2 is upregulated in disease. Although many studies have linked intestinal barrier loss to local and systemic disease, these have relied on macromolecular probes. In vitro analyses show, however, that these probes cannot be accommodated by size- and charge-selective claudin-2 channels. We sought to define the impact of claudin-2 channels on disease. Transgenic claudin-2 overexpression or IL-13–induced claudin-2 upregulation increased intestinal small cation permeability in vivo. IL-13 did not, however, affect permeability in claudin-2–knockout mice. Claudin-2 is therefore necessary and sufficient to effect size- and charge-selective permeability increases in vivo. In chronic disease, T cell transfer colitis severity was augmented or diminished in claudin-2–transgenic or –knockout mice, respectively. We translated the in vitro observation that casein kinase-2 (CK2) inhibition blocks claudin-2 channel function to prevent acute, IL-13–induced, claudin-2–mediated permeability increases in vivo. In chronic immune-mediated colitis, CK2 inhibition attenuated progression in claudin-2–sufficient, but not claudin-2–knockout, mice, i.e., the effect was claudin-2 dependent. Paracellular flux mediated by claudin-2 channels can therefore promote immune-mediated colitis progression. Although the mechanisms by which claudin-2 channels intensify disease remain to be defined, these data suggest that claudin-2 may be an accessible target in immune-mediated disorders, including inflammatory bowel disease.

Authors

Preeti Raju, Nitesh Shashikanth, Pei-Yun Tsai, Pawin Pongkorpsakol, Sandra Chanez-Paredes, Peter R. Steinhagen, Wei-Ting Kuo, Gurminder Singh, Sachiko Tsukita, Jerrold R. Turner

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Figure 4

Despite reduced immune-mediated colitis severity, survival is compromised in claudin-2–knockout mice.

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Despite reduced immune-mediated colitis severity, survival is compromise...
(A) Survival of Cldn2+/+ Rag1–/– (Cldn2+/+, blue line) and Cldn2–/– Rag1–/– (Cldn2–/–, red line) mice following T cell transfer. n = 14–17 per genotype. Kaplan-Meier log-rank test. Data are representative of 5 independent experiments (B) Representative gross images of nonobstructed colons (arrows) of Cldn2+/+ Rag1–/– and Cldn2–/– Rag1–/– mice, as well as obstructed (arrow) and ischemic (arrowhead) colon from a Cldn2–/– Rag1–/– mouse. Scale bar: 0.5 cm. (C) Representative histopathology of obstructed Cldn2–/– Rag1–/– mouse colon. Scale bar: 50 μm. (D) Picrosirius red stains of Cldn2+/+ Rag1–/– and Cldn2–/– Rag1–/– mouse colons on day 56. Scale bar: 50 μm. (E) Fibrosis scores of colons from Cldn2+/+ Rag1–/– (blue circles) and Cldn2–/– Rag1–/– (red circles) mice on day 56. n = 4 per genotype. Two-tailed t test. (F) Small intestine motility in Cldn2+/+, Cldn2Tg (green circles), and Cldn2+/+ mice assessed as dye content of each fraction and geometric mean of dye distribution. n = 6 per genotype. ANOVA with Bonferroni’s correction. (G) Colonic motility assessed as dye content of each fraction and geometric mean of dye distribution. n = 6 per genotype. ANOVA with Bonferroni’s correction. **P < 0.01.