Abstract
Introduction: Hypertension is caused by multi-factors, and the pathogenesis is linked to, generally, the increases in the protein expressions and functions of renal sodium transport proteins along the nephron. One of the major side effects of clozapine (common antipsychotic drug) is hypertension. The mechanism is unknown. Hypothesis: the pathogenesis of the clozapine-induced hypertension is associated with increases of renal sodium transport proteins. Methods: we examined the blood pressures (BP) and protein expressions of major sodium transport proteins profiled along the renal tubules in the C57Bl6/J male mice (9 weeks old, n=4-5/group) treated with clozapine at three doses of 5,10 and 20 mg/ kg for 1 week via intraperitoneal injection. Result: blood pressures (tail-cuff, BP98A, softron, Japan) were higher in clozapine at 20mg/kg/day than vehicle (SBP: 130±1.64 vs 109±1.39, DBP: 87 ±4.12 vs 69±2.10 mmHg, n=5/group) and not altered at 5 & 10 mg/kg/day. There were no differences in BW, serum/urine creatinine and electrolytes except for a slight increase in serum sodium at dose of 20 mg/kg (152.8±0.71 vs 150.6±0.40, mmol/L).In renal homogenates, total protein abundance of NaPi2 (western blotting,199±26% of vehicle) NKCC2(184±20), NCC(213±14),and ENaC-α(217±47),were higher at 20 mg/kg than vehicle. No increases were found in protein expressions of NHE3, αNKA, ENaC-β and ENaC-γ. The expressions of renin, AT1R and ACE at 20mg/kg were similar between groups while ACE2 was decreased (42±10). No increases were found in protein expressions of pNKCC2 in 5&10mg/kg(100±50,45±15); NCC was increased at 5 mg/kg (175±9); α NKA was increased in 5mg/kg (216±5) and 10mg/kg (163±2) groups.In plasma membrane enriched fraction (17k), NKCC2(204±43) and ENaC-α(381±28)were higher at 20 mg/kg than vehicle. In intracellular membrane enriched fraction (200k), NKCC2(521±127) was higher than vehicle. Phosphorylated NKCC2 was increased in renal homogenates(331±35),17k(427±87) 200k(521±127) but WNK4 was not changed. Conclusions: increases of renal sodium transport proteins, mainly pNKCC2 and NKCC2, contribute to the dose-related increase of BP in mice treated with clozapine and may play an important role in the pathogenesis of the clozapine-induced hypertension.
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