缺血性脑卒中向心脏发出间接细胞死亡信号。

Ischemic stroke brain sends indirect cell death signals to the heart.

机构信息

From the Department of Neurosurgery and Brain Repair, University of South Florida College of Medicine, Tampa, FL (H.I., N.T., J.V., Y.K., C.V.B.); Department of Ophthalmology, Hyogo College of Medicine, Nishinomiya, Japan (H.I., O.M.); and Department of Stem Cell Biology and Histology and Department of Anatomy and Anthropology, Tohoku University Graduate School of Medicine, Sendai, Japan (M.D.).

出版信息

Stroke. 2013 Nov;44(11):3175-82. doi: 10.1161/STROKEAHA.113.001714. Epub 2013 Sep 5.

DOI:10.1161/STROKEAHA.113.001714

PMID:24008571

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3859251/

Abstract

BACKGROUND AND PURPOSE

Ischemic stroke is a leading cause of mortality and morbidity in the world and may be associated with cardiac myocyte vulnerability. However, it remains uncertain how an ischemic brain contributes to cardiac alternations. Here, we used experimental stroke models to reveal the pathological effects of the ischemic brain on the heart.

METHODS

For the in vitro study, primary rat neuronal cells were subjected to 90-minute oxygen-glucose deprivation (OGD). Two hours after OGD, the supernatant was collected and cryopreserved until further biological assays. Primary rat cardiac myocytes were exposed to ischemic-reperfusion injury and subsequently to the supernatant derived from either the OGD or non-OGD-exposed primary rat neuronal cells for 2, 6, 24, or 48 hours. Thereafter, we measured cell viability and mitochondrial activity in rat cardiac myocytes. For the in vivo study, we subjected adult rats to transient middle cerebral artery occlusion, and their brains and hearts were harvested for immunohistochemical analyses at 3 months later.

RESULTS

The supernatant from the OGD, but not the non-OGD-exposed primary rat neuronal cells, caused significant reduction in cell viability and mitochondrial activity in rat cardiac myocytes. Ischemic stroke animals displayed phenotypic expression of necrosis, apoptosis, and autophagy in their hearts, which paralleled the detection of these same cell death markers in their brains.

CONCLUSIONS

Ischemic stroke was accompanied by cardiac myocyte death, indicating a close pathological link between brain and heart. These results suggest a vigilant assessment of the heart condition in stroke patients, likely requiring the need to treat systemic cardiac symptoms after an ischemic brain episode.

摘要

背景与目的

缺血性中风是世界范围内导致死亡和发病的主要原因，可能与心肌细胞易损性有关。然而，目前尚不清楚缺血性大脑如何导致心脏改变。在这里，我们使用实验性中风模型来揭示缺血性大脑对心脏的病理影响。

方法

在体外研究中，原代大鼠神经元细胞经历 90 分钟的氧葡萄糖剥夺（OGD）。OGD 后 2 小时，收集上清液并冷冻保存，直至进一步进行生物学检测。原代大鼠心肌细胞经历缺血再灌注损伤，随后暴露于源自 OGD 或非 OGD 暴露的原代大鼠神经元细胞的上清液中 2、6、24 或 48 小时。此后，我们测量大鼠心肌细胞的细胞活力和线粒体活性。在体内研究中，我们使成年大鼠经历短暂性大脑中动脉闭塞，并在 3 个月后收获其大脑和心脏，进行免疫组织化学分析。

结果

OGD 上清液，但不是非 OGD 暴露的原代大鼠神经元细胞上清液，导致大鼠心肌细胞活力和线粒体活性显著降低。缺血性中风动物的心脏表现出坏死、凋亡和自噬的表型表达，与大脑中这些相同的细胞死亡标志物的检测结果相平行。

结论

缺血性中风伴有心肌细胞死亡，表明大脑和心脏之间存在密切的病理联系。这些结果表明，中风患者的心脏状况需要进行警惕性评估，可能需要在缺血性脑事件后治疗全身心脏症状。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/77a5/3859251/4f22972397d0/nihms-520643-f0001.jpg

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