[No authors listed]
Acute ischemic stroke is a devastating disease with very limited therapeutics. Growing appreciation of dysregulated autophagy contributes to the progression of brain ischemic injury, making it to be an appealing intervention target. In terms of its well-characterized consequences, the signal molecules required for autophagy activation are rather poorly defined. Here, we found the induction of chloride channel-3 (ClC-3) directly activated autophagy, which played an important role in limiting cerebral ischemia/reperfusion (I/R) injury. Further mechanism exploration discovered that the up-regulation of ClC-3 was critical for the interaction of Beclin1 and Vps34. After ClC-3 knockdown using adeno-associated virus vectors in vivo, the autophagy activation was partially inhibited through disrupting the formation of Beclin1 and Vps34 complex. Consistent with these observations, ClC-3 knockdown could also significantly aggravated cerebral I/R injury through suppressing autophagy in vivo, which further confirmed the neuroprotective roles of ClC-3. Collectively, we provided an novel evidence for ClC-3 serving as a crucial regulator of autophagy; and our results indicated that the induction of ClC-3 may serve as a self-protective mechanism against cerebral I/R injury.
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