Abstract

Extracellular acidification, playing a promoting role in the process of acute pancreatitis, has been reported to activate Cl− channels in several types of cells. However, whether extracellular acidification aggravates acute pancreatitis via activating Cl− channels remains unclear. Here, we investigated the effects of extracellular acidification on Cl− channels in rat pancreatic acinar AR42J cells using whole-cell patch-clamp recordings. We found that extracellular acidification induced a moderately outward-rectified Cl− current, with a selectivity sequence of I− > Br− ≥ Cl− > gluconate−, while intracellular acidification failed to induce the currents. The acid-sensitive currents were inhibited by Cl− channel blockers, 4,4′-Diisothiocyanatostilbene-2,2′-disulfonic acid disodium salt hydrate and 5-Nitro-2-(3-phenylpropylamino) benzoic acid. After ClC-3 was silenced by ClC-3 shRNA, the acid-sensitive Cl− currents were attenuated significantly, indicating that ClC-3 plays a vital role in the induction of acid-sensitive Cl− currents. Extracellular acid elevated the intracellular level of reactive oxygen species (ROS) significantly, prior to inducing Cl− currents. When ROS production was scavenged, the acid-sensitive Cl− currents were abolished. Whereas, the level of acid-induced ROS was unaffected with silence of ClC-3. Our findings above demonstrate that extracellular acidification induces a Cl− current in pancreatic acinar cells via promoting ROS generation, implying an underlying mechanism that extracellular acidification might aggravate acute pancreatitis through Cl− channels.

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