Subarachnoid hemorrhage-associated brain injury and neurobehavioral deficits are reversed with synthetic adropin treatment through sustained Ser1179 phosphorylation of endothelial nitric oxide synthase

W. Dodd, Devan Patel, D. Laurent, Brandon Lucke-Wold, K. Hosaka, Richard D. Johnson, Nohra Chalouhi, Andrew A. Butler, Eduardo Candelario-Jalil, B. Hoh
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Abstract

Subarachnoid hemorrhage (SAH) is a life-threatening vascular condition without satisfactory treatment options. The secreted peptide adropin is highly expressed in the human brain and has neuroprotective effects in brain injury models, including actions involving the cerebrovasculature. Here, we report an endothelial nitric oxide synthase (eNOS)-dependent effect of synthetic adropin treatment that reverses the deleterious effects of SAH.We tested the molecular, cellular, and physiological responses of cultured brain microvascular endothelial cells and two mouse models of SAH to treatment using synthetic adropin peptide or vehicle.SAH decreases adropin expression in cultured brain microvascular endothelial cells and in murine brain tissue. In two validated mouse SAH models, synthetic adropin reduced cerebral edema, preserved tight junction protein expression, and abolished microthrombosis at 1 day post-SAH. Adropin treatment also prevented delayed cerebral vasospasm, decreased neuronal apoptosis, and reduced sensorimotor deficits at seven days post-SAH. Delaying initial treatment of adropin until 24 h post-SAH preserved the beneficial effect of adropin in preventing vasospasm and sensorimotor deficits. Mechanistically, adropin treatment increased eNOS phosphorylation (Ser1179) at 1 & 7 days post-SAH. Treating eNOS−/− mice with adropin failed to prevent vasospasm or behavioral deficits, indicating a requirement of eNOS signaling.Adropin is an effective treatment for SAH, reducing cerebrovascular injury in both the acute (1 day) and delayed (7 days) phases. These findings establish the potential of adropin or adropin mimetics to improve outcomes following subarachnoid hemorrhage.
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蛛网膜下腔出血相关脑损伤和神经行为障碍可通过内皮一氧化氮合酶持续的 Ser1179 磷酸化而在合成阿托品治疗后逆转
蛛网膜下腔出血(SAH)是一种危及生命的血管疾病,没有令人满意的治疗方案。分泌肽阿多品在人脑中高度表达,在脑损伤模型中具有神经保护作用,包括涉及脑血管的作用。我们测试了培养的脑微血管内皮细胞和两种小鼠 SAH 模型对合成阿拖品肽或药物治疗的分子、细胞和生理反应。SAH 会降低培养的脑微血管内皮细胞和小鼠脑组织中阿拖品肽的表达。在两种经过验证的小鼠 SAH 模型中,合成阿多巴肽能减轻脑水肿,保护紧密连接蛋白的表达,并在 SAH 后 1 天消除微血栓形成。阿托品治疗还能防止延迟性脑血管痉挛,减少神经元凋亡,并减轻脑梗死后七天的感觉运动障碍。将阿托品的初始治疗延迟至脑震荡后24小时后,阿托品在预防血管痉挛和感觉运动障碍方面的有益作用仍得以保留。从机理上讲,在脑震荡后 1 天和 7 天,阿托品可增加 eNOS 磷酸化(Ser1179)。用阿托品治疗eNOS-/-小鼠不能防止血管痉挛或行为障碍,这表明eNOS信号转导是必要的。阿托品是治疗SAH的有效药物,能减轻急性期(1天)和延迟期(7天)的脑血管损伤。这些研究结果证实了阿托品或阿托品模拟物改善蛛网膜下腔出血后预后的潜力。
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