实验性血栓栓塞性卒中后二甲胺四环素的性别无关神经保护作用。

Md Nasrul Hoda, Weiguo Li, Ajmal Ahmad, Safia Ogbi, Marina A Zemskova, Maribeth H Johnson, Adviye Ergul, William D Hill, David C Hess, Irina Y Sazonova
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引用次数: 49

摘要

背景:米诺环素提供神经血管保护,减少急性脑损伤。然而,二甲胺四环素对女性是否有效尚不清楚。我们测试二甲胺四环素在两性和老年动物使用一种新的栓塞性中风模型的小鼠,密切模仿急性血栓栓塞性中风在人类。方法:将血栓栓塞性脑卒中小鼠分为成年雄性、老年雄性、成年雌性、老年雌性和成年去卵巢雌性五组。卒中发作后立即给予磷酸盐水(载药)或二甲胺四环素(6mg /kg)治疗。评估行为结果、梗死体积和脑血流量。分析米诺环素对MMP-9表达及活性的影响。结果:各实验组均出现可重复性梗死。正如预期的那样,成年女性对脑缺血损伤的抵抗力明显强于男性。这一优势被衰老和卵巢切除术所废除。米诺环素显著降低梗死面积(P < 0.0001),改善神经系统评分(P < 0.0001)。此外,二甲胺四环素治疗显著降低老年小鼠中风后24小时的死亡率(P = 0.037)(25%对54%)。脑卒中上调脑内MMP-9水平,急性米诺环素治疗降低其在两性中的表达(P < 0.0001)。结论:在血栓栓塞性脑卒中模型中,米诺环素具有神经保护作用,与小鼠性别和年龄无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sex-independent neuroprotection with minocycline after experimental thromboembolic stroke.

Sex-independent neuroprotection with minocycline after experimental thromboembolic stroke.

Sex-independent neuroprotection with minocycline after experimental thromboembolic stroke.

Sex-independent neuroprotection with minocycline after experimental thromboembolic stroke.

Background: Minocycline provides neurovascular protection reducing acute cerebral injury. However, it is unclear whether minocycline is effective in females. We tested minocycline in both sexes and aged animals using a novel embolic stroke model in mice that closely mimics acute thromboembolic stroke in humans.

Methods: Five groups of mice were subjected to thromboembolic stroke: adult males, aged males, adult females, aged females, and adult ovariectomized females. They were treated with phosphate saline (vehicle) or minocycline (6 mg/kg) immediately after stroke onset. Behavioral outcomes, infarct volumes and cerebral blood flow were assessed. The effect of minocycline on expression and activity of MMP-9 was analyzed.

Results: The model resulted in reproducible infarct in the experimental groups. As expected, adult females were significantly more resistant to cerebral ischemic injury than males. This advantage was abolished by aging and ovariectomy. Minocycline significantly reduced the infarct volume (P < 0.0001) and also improved neurologic score (P < 0.0001) in all groups. Moreover, minocycline treatment significantly reduced mortality at 24 hours post stroke (P = 0.037) for aged mice (25% versus 54%). Stroke up-regulated MMP-9 level in the brain, and acute minocycline treatment reduced its expression in both genders (P < 0.0001).

Conclusion: In a thromboembolic stroke model minocycline is neuroprotective irrespective of mouse sex and age.

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