Coordination of ENT2-dependent adenosine transport and signaling dampens mucosal inflammation
Carol M. Aherne, Colm B. Collins, Caroline R. Rapp, Kristine E. Olli, Loni Perrenoud, Paul Jedlicka, Jessica L. Bowser, Tingting W. Mills, Harry Karmouty-Quintana, Michael R. Blackburn, Holger K. Eltzschig
Carol M. Aherne, Colm B. Collins, Caroline R. Rapp, Kristine E. Olli, Loni Perrenoud, Paul Jedlicka, Jessica L. Bowser, Tingting W. Mills, Harry Karmouty-Quintana, Michael R. Blackburn, Holger K. Eltzschig
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Research Article Gastroenterology

Coordination of ENT2-dependent adenosine transport and signaling dampens mucosal inflammation

Abstract

Intestinal epithelial barrier repair is vital for remission in inflammatory bowel disease (IBD). Extracellular adenosine signaling has been implicated in promoting restoration of epithelial barrier function. Currently, no clinically approved agents target this pathway. Adenosine signaling is terminated by uptake from the extracellular space via equilibrative nucleoside transporters (ENTs). We hypothesized that ENT inhibition could dampen intestinal inflammation. Initial studies demonstrated transcriptional repression of ENT1 and ENT2 in IBD biopsies or in murine IBD models. Subsequent studies in mice with global Ent1 or Ent2 deletion revealed selective protection of Ent2–/– mice. Elevated intestinal adenosine levels in conjunction with abolished protection following pharmacologic blockade of A2B adenosine receptors implicate adenosine signaling as the mechanism of gut protection in Ent2–/– mice. Additional studies in mice with tissue-specific deletion of Ent2 uncovered epithelial Ent2 as the target. Moreover, intestinal protection provided by a selective Ent2 inhibitor was abolished in mice with epithelium-specific deletion of Ent2 or the A2B adenosine receptor. Taken together, these findings indicate that increased mucosal A2B signaling following repression or deletion of epithelial Ent2 coordinates the resolution of intestinal inflammation. This study suggests the presence of a targetable purinergic network within the intestinal epithelium designed to limit tissue inflammation.

Authors

Carol M. Aherne, Colm B. Collins, Caroline R. Rapp, Kristine E. Olli, Loni Perrenoud, Paul Jedlicka, Jessica L. Bowser, Tingting W. Mills, Harry Karmouty-Quintana, Michael R. Blackburn, Holger K. Eltzschig

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Figure 4

Deletion of Ent2 protects from inflammation and injury in DSS colitis.

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Deletion of Ent2 protects from inflammation and injury in DSS colitis. M...
Matched Ent2-deficient mice (Ent2–/–) or WT controls (Ent2+/+, mice on a B6/129 background) were exposed to DSS. (A) Weights were obtained for each group of mice and are displayed as percentage of body weight on day 0. (B) Following sacrifice, colons were harvested and measured. (C) Mice were administered FITC-dextran by oral gavage (0.6 mg/g at 80 mg/ml) 4 hours prior to sacrifice on day 7. Serum was harvested at sacrifice, and fluorescence measurement was used to determine FITC levels. n = 5–7 mice/group from 1 independent experiment. (D) Following sacrifice on day 7, whole colonic tissue was snap frozen. Total RNA was extracted and RT-PCR. performed. mRNA transcript levels were calculated relative to β-actin and are expressed as fold change compared with DSS-treated WT mice. Data represent 5–8 mice per group from 1 independent experiment. (E) Representative histological sections from whole colon harvested on day 7 after DSS (scale bars: 100 μm; images acquired at ×10). (F) Histological analysis of whole colon harvested on day 7 after DSS provided by a pathologist blinded to the groups and the study. Unless otherwise stated, there were n = 7–9 mice/group. presented are representative of at least 3 independently performed experiments. Graphs show data as the mean ± SEM. Two-way ANOVA with post hoc Bonferroni’s t test was used to determine statistical weight change; in all other cases, unpaired Student’s t test was used. *P < 0.5, **P < 0.001.