Department of Neurosurgery, The First Hospital of Jilin University, No. 71, Xinmin Road, Chaoyang District, Changchun, 130021, Jilin Province, People's Republic of China.
Department of Radiology, The First Hospital of Jilin University, No. 71, Xinmin Road, Chaoyang District, Changchun, 130021, People's Republic of China.
Mol Neurobiol. 2018 Mar;55(3):2494-2505. doi: 10.1007/s12035-017-0484-8. Epub 2017 Apr 7.
We aimed to determine the effect and mechanism of microRNA-21 (miR-21) on nerve cell regeneration and nerve functional recovery in diabetes mellitus combined with cerebral infarction (DM + CI) rats by targeting PDCD4. A total of 125 male Wistar rats were selected for DM + CI rat model construction and assigned into the blank, miR-21 mimics, mimics control, miR-21 inhibitor, inhibitor control, miR-21 inhibitor + si-PDCD4 and si-PDCD4 groups. And, 20 healthy rats were selected for the normal group. Triphenylterazolium chloride (TTC) staining and HE staining were used for determination of the area of CI and pathological changes, respectively. Behaviors of rats in the eight groups were determined by forelimb placement test and balance beam walking test. Immunohistochemical staining, double immunofluorescence staining assay, Western blotting, and qRT-PCR were used to detect expressions of miR-21, PDCD4, HNA, Nestin, NeuN, β-III-Tub, PTEN, FasL, and GFAP. DNA laddering and TUNEL staining was used for cell apoptosis. TTC and HE staining confirmed that 87.5% rats were induced into CI + DM models successfully. Results of forelimb placement test and balance beam walking test showed that miR-21 mimics, and si-PCDC4 improved the nerve defect of model rats. Comparing with the blank group at the same time, rats in the miR-21 inhibitor group displayed significant decrease in the forelimb placement test score, significant increase in the balance beam walking test score, and exacerbation of nerve defect, while rats in the miR-21 mimics and si-PCDC4 groups displayed significant increase in forelimb placement test score and significant decrease in the balance beam walking test score and improvement of nerve defect situation. The HNA, Nestin, and PDCD4 expressions were decreased and the NeuN, β-III-Tub, and GFAP expressions were increased in the miR-21 mimics and si-PDCD4 groups comparing with the blank group. The results of miR-21 inhibitor group were on the contrary. In comparison to the blank group, the miR-21 mimics group and the si-PDCD4 had lower miR-21 expressions and higher expressions of PDCD4, PTEN, and FasL, while the miR-21 inhibitor group was in the opposite trend. The results of qRT-PCR were the same with Western blotting. The expressions of fluorescence in other groups were higher than the normal group; compared with the blank group, the miR-21 mimics group and the si-PDCD4 group had lower fluorescence expression and DNA ladder. However, the fluorescence expressions and DNA ladder of miR-21 inhibitor group increased markedly in contrast with the blank group. Comparing with the blank group, BrdU/DEX fluorescence intensity significantly enhanced in the miR-21 mimics and si-PDCD4 groups and significantly reduced in the miR-21 inhibitor group. And, comparing with the blank group, in the miR-21 mimics group, the signal strength of luciferase carrying the wild-type PDCD4 was reduced by 25%. The present studies demonstrated that miR-21 could promote the nerve cell regeneration, suppress apoptosis of nerve cells in DM + CI rats and improves the nerve defect situation of DM + CI rats by inhibiting PDCD4.
我们旨在通过靶向 PDCD4 来确定 microRNA-21 (miR-21) 对糖尿病合并脑梗死 (DM + CI) 大鼠神经细胞再生和神经功能恢复的影响和机制。选择 125 只雄性 Wistar 大鼠构建 DM + CI 大鼠模型,并分为空白组、miR-21 模拟物组、模拟物对照组、miR-21 抑制剂组、抑制剂对照组、miR-21 抑制剂+si-PDCD4 组和 si-PDCD4 组。此外,选择 20 只健康大鼠作为正常组。用氯化三苯基四氮唑 (TTC) 染色和 HE 染色分别测定 CI 面积和病理变化。通过前肢放置试验和平衡梁行走试验测定 8 组大鼠的行为。免疫组织化学染色、双免疫荧光染色试验、Western blot 和 qRT-PCR 用于检测 miR-21、PDCD4、HNA、Nestin、NeuN、β-III-Tub、PTEN、FasL 和 GFAP 的表达。DNA 梯状电泳和 TUNEL 染色用于检测细胞凋亡。TTC 和 HE 染色证实,87.5%的大鼠成功诱导出 CI + DM 模型。前肢放置试验和平衡梁行走试验结果表明,miR-21 模拟物和 si-PCDC4 改善了模型大鼠的神经缺陷。与同一时间的空白组相比,miR-21 抑制剂组大鼠前肢放置试验评分显著降低,平衡梁行走试验评分显著升高,神经缺陷加重,而 miR-21 模拟物和 si-PCDC4 组大鼠前肢放置试验评分显著升高,平衡梁行走试验评分显著降低,神经缺陷情况得到改善。与空白组相比,miR-21 模拟物和 si-PDCD4 组的 HNA、Nestin 和 PDCD4 表达降低,NeuN、β-III-Tub 和 GFAP 表达升高。miR-21 抑制剂组的结果则相反。与空白组相比,miR-21 模拟物组和 si-PDCD4 组的 miR-21 表达降低,PDCD4、PTEN 和 FasL 表达升高,而 miR-21 抑制剂组则相反。qRT-PCR 结果与 Western blot 相同。其他各组的荧光表达均高于正常组;与空白组相比,miR-21 模拟物组和 si-PDCD4 组的荧光表达和 DNA 梯状降低,但 miR-21 抑制剂组的荧光表达和 DNA 梯状明显增加。与空白组相比,miR-21 模拟物组和 si-PDCD4 组 BrdU/DEX 荧光强度显著增强,miR-21 抑制剂组显著降低。与空白组相比,miR-21 模拟物组携带野生型 PDCD4 的荧光素酶的信号强度降低了 25%。本研究表明,miR-21 可能通过抑制 PDCD4 促进 DM + CI 大鼠神经细胞再生,抑制神经细胞凋亡,改善 DM + CI 大鼠的神经缺陷情况。
