Na+-Dependent Chloride Transporter (NKCC1)-Null Mice Exhibit Less Gray and White Matter Damage after Focal Cerebral Ischemia

Abstract

We previously demonstrated that pharmacological inhibition of Na⁺−K⁺−Cl⁻ cotransporter isoform 1 (NKCC1) is neuroprotective in in vivo and in vitro ischemic models. In this study, we investigated whether genetic ablation of NKCC1 provides neuroprotection after ischemia. Focal ischemia was induced by 2 hours occlusion of the left middle cerebral artery (MCAO) followed by 10 or 24 hours reperfusion. Two hours MCAO and ten or twenty-four hours reperfusion caused infarction (˜85 mm³) in NKCC1 wild-type (NKCC1^+/+) mice. Infarction volume in NKCC1^−/− mice was reduced by ˜30% to 46%. Heterozygous mutant (NKCC1^+/–) mice showed ˜28% reduction in infarction ( P>0.05). Two hours MCAO and twenty-four hours reperfusion led to a significant increase in brain edema in NKCC1^+/+ mice. In contrast, NKCC1^+/– and NKCC1^−/− mice exhibited ˜50% less edema ( P+/+ mice after 2 hours MCAO and 10 hours reperfusion. However, NKCC1^−/− mice exhibited significantly less APP accumulation ( P+ accumulation in cultured NKCC1^+/+ cortical neurons. OGD-mediated cell death and Na⁺ influx were significantly reduced in NKCC1^−/− neurons ( P+/+ neurons and astrocytes ( P<0.05). These results imply that stimulation of NKCC1 activity is important in ischemic neuronal damage.