磷酸二酯酶4（PDE4）通路抑制对大鼠实验性中风的影响。

Effects of PDE4 pathway inhibition in rat experimental stroke.

作者信息

Yang Fan, Sumbria Rachita K, Xue Dong, Yu Chuanhui, He Dan, Liu Shuo, Paganini-Hill Annlia, Fisher Mark

机构信息

Departments of Anatomy & Neurobiology, School of Pharmacy, Keck Graduate Institute, Claremont, California.

出版信息

J Pharm Pharm Sci. 2014;17(3):362-70. doi: 10.18433/j3s02v.

DOI:10.18433/j3s02v

PMID:25224348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4364446/

Abstract

PURPOSE

The first genomewide association study indicated that variations in the phosphodiesterase 4D (PDE4D) gene confer risk for ischemic stroke. However, inconsistencies among the studies designed to replicate the findings indicated the need for further investigation to elucidate the role of the PDE4 pathway in stroke pathogenesis. Hence, we studied the effect of global inhibition of the PDE4 pathway in two rat experimental stroke models, using the PDE4 inhibitor rolipram. Further, the specific role of the PDE4D isoform in ischemic stroke pathogenesis was studied using PDE4D knockout rats in experimental stroke.

METHODS

Rats were subjected to either the ligation or embolic stroke model and treated with rolipram (3mg/kg; i.p.) prior to the ischemic insult. Similarly, the PDE4D knockout rats were subjected to experimental stroke using the embolic model.

RESULTS

Global inhibition of the PDE4 pathway using rolipram produced infarcts that were 225% (p<0.01) and 138% (p<0.05) of control in the ligation and embolic models, respectively. PDE4D knockout rats subjected to embolic stroke showed no change in infarct size compared to wild-type control.

CONCLUSIONS

Despite increase in infarct size after global inhibition of the PDE4 pathway with rolipram, specific inhibition of the PDE4D isoform had no effect on experimental stroke. These findings support a role for the PDE4 pathway, independent of the PDE4D isoform, in ischemic stroke pathogenesis.

摘要

目的

第一项全基因组关联研究表明，磷酸二酯酶4D（PDE4D）基因的变异会增加缺血性中风的风险。然而，旨在重复这些发现的研究结果并不一致，这表明需要进一步研究以阐明PDE4信号通路在中风发病机制中的作用。因此，我们使用PDE4抑制剂咯利普兰，研究了在两种大鼠实验性中风模型中对PDE4信号通路进行整体抑制的效果。此外，我们还使用实验性中风的PDE4D基因敲除大鼠，研究了PDE4D亚型在缺血性中风发病机制中的具体作用。

方法

将大鼠分为结扎或栓塞性中风模型组，并在缺血损伤前用咯利普兰（3mg/kg；腹腔注射）进行治疗。同样，使用栓塞模型对PDE4D基因敲除大鼠进行实验性中风研究。

结果

在结扎和栓塞模型中，使用咯利普兰对PDE4信号通路进行整体抑制后，梗死面积分别为对照组的225%（p<0.01）和138%（p<0.05）。与野生型对照相比，接受栓塞性中风的PDE4D基因敲除大鼠的梗死面积没有变化。

结论

尽管用咯利普兰对PDE4信号通路进行整体抑制后梗死面积增加，但对PDE4D亚型的特异性抑制对实验性中风没有影响。这些发现支持了PDE4信号通路在缺血性中风发病机制中的作用，且该作用独立于PDE4D亚型。

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