Department of Neurology, University of Duisburg-Essen Medical School, Essen, Germany.
Regenerative and Restorative Medical Research Center, Istanbul Medipol University, Istanbul, Turkey.
Mol Neurobiol. 2017 Oct;54(8):6061-6073. doi: 10.1007/s12035-016-0137-3. Epub 2016 Oct 3.
In view of the failure of pharmacological therapies, alternative strategies promoting post-stroke brain repair are needed. Post-conditioning is a potentially promising therapeutic strategy, which induces acute neuroprotection against ischemic injury. To elucidate longer lasting actions of ischemic post-conditioning, mice were exposed to a 60-min stroke and post-conditioning by an additional 10-min stroke that was induced 10 min after reperfusion onset. Animals were sacrificed 24 h or 28 days post-stroke. Post-conditioning reduced infarct volume and neurological deficits 24 h post-stroke, enhancing blood-brain barrier integrity, reducing brain leukocyte infiltration, and reducing oxidative stress. On the molecular level, post-conditioning yielded increased Hsp70 expression, whereas nuclear factor (NF)-κB and proteasome activities were decreased. Reduced infarct volume and proteasome inhibition were reversed by Hsp70 knockdown, suggesting a critical role of the Hsp70 proteasome pathway in ischemic post-conditioning. The survival-promoting effects of ischemic post-conditioning, however, were not sustainable as neuroprotection and neurological recovery were lost 28 days post-stroke. Although angioneurogenesis was not increased by post-conditioning, the favorable extracellular milieu facilitated intracerebral transplantation of neural progenitor cells 6 h post-stroke, resulting in persisted neuroprotection and neurological recovery. Thus, post-conditioning might support brain repair processes, but in view of its transient, neuroprotection is unlikely useful as stroke therapy in its current form.
鉴于药物治疗的失败,需要寻求其他策略来促进中风后的大脑修复。后处理是一种有前途的治疗策略,可诱导对缺血性损伤的急性神经保护。为了阐明缺血后处理的更持久作用,将小鼠暴露于 60 分钟的中风中,并在再灌注开始后 10 分钟进行另外 10 分钟的中风后处理。动物在中风后 24 小时或 28 天被处死。后处理可减少中风后 24 小时的梗塞体积和神经功能缺损,增强血脑屏障完整性,减少脑白细胞浸润和氧化应激。在分子水平上,后处理导致 Hsp70 表达增加,而核因子 (NF)-κB 和蛋白酶体活性降低。Hsp70 敲低逆转了梗塞体积的减少和蛋白酶体抑制,表明 Hsp70 蛋白酶体途径在缺血后处理中起关键作用。然而,缺血后处理的促生存作用并不持久,因为中风后 28 天神经保护和神经恢复丧失。尽管后处理没有增加血管神经生成,但有利的细胞外环境促进了神经祖细胞在中风后 6 小时的脑内移植,从而导致持续的神经保护和神经恢复。因此,后处理可能支持大脑修复过程,但就其短暂性而言,神经保护不太可能作为目前形式的中风治疗有用。
