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SLC26A6-selective inhibitor identified in a small-molecule screen blocks fluid absorption in small intestine
Onur Cil, Peter M. Haggie, Joseph-Anthony Tapia Tan, Amber A. Rivera, Alan S. Verkman
Onur Cil, Peter M. Haggie, Joseph-Anthony Tapia Tan, Amber A. Rivera, Alan S. Verkman
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Research Article Gastroenterology Therapeutics

SLC26A6-selective inhibitor identified in a small-molecule screen blocks fluid absorption in small intestine

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Abstract

SLC26A6 (also known as putative anion transporter 1 [PAT1]) is a Cl–/HCO3– exchanger expressed at the luminal membrane of enterocytes where it facilitates intestinal Cl– and fluid absorption. Here, high-throughput screening of 50,000 synthetic small molecules in cells expressing PAT1 and a halide-sensing fluorescent protein identified several classes of inhibitors. The most potent compound, the pyrazolo-pyrido-pyrimidinone PAT1inh-B01, fully inhibited PAT1-mediated anion exchange (IC50 ~350 nM), without inhibition of the related intestinal transporter SLC26A3 (also known as DRA). In closed midjejunal loops in mice, PAT1inh-B01 inhibited fluid absorption by 50%, which increased to >90% when coadministered with DRA inhibitor DRAinh-A270. In ileal loops, PAT1inh-B01 blocked fluid absorption by >80%, whereas DRAinh-A270 was without effect. In colonic loops, PAT1inh-B01 was without effect, whereas DRAinh-A270 completely blocked fluid absorption. In a loperamide constipation model, coadministration of PAT1inh-B01 with DRAinh-A270 increased stool output compared with DRAinh-A270 alone. These results provide functional evidence for complementary and region-specific roles of PAT1 and DRA in intestinal fluid absorption, with PAT1 as the predominant anion exchanger in mouse ileum. We believe that PAT1inh-B01 is a novel tool to study intestinal ion and fluid transport and perhaps a drug candidate for small intestinal hyposecretory disorders such as cystic fibrosis–related meconium ileus and distal intestinal obstruction syndrome.

Authors

Onur Cil, Peter M. Haggie, Joseph-Anthony Tapia Tan, Amber A. Rivera, Alan S. Verkman

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