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Involvement of the JNK/FOXO3a/Bim pathway in neuronal apoptosis after hypoxic-ischemic brain damage in neonatal rats

PLoS ONE
DOI: 10.1371/journal.pone.0132998
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Abstract

c-Jun N-terminal kinase (JNK) plays a key role in the regulation of neuronal apoptosis. Previous studies have revealed that forkhead transcription factor (FOXO3a) is a critical effector of JNK-mediated tumor suppression. However, it is not clear whether the JNK/FOXO3a pathway is involved in neuronal apoptosis in the developing rat brain after hypoxia-ischemia (HI). In this study, we generated an HI model using postnatal day 7 rats. Fluorescence immunolabeling and Western blot assays were used to detect the distribution and expression of total and phosphorylated JNK and FOXO3a and the pro-apoptotic proteins Bim and CC3. We found that JNK phosphorylation was accompanied by FOXO3a dephosphorylation, which induced FOXO3a translocation into the nucleus, resulting in the upregulation of levels of Bim and CC3 proteins. Furthermore, we found that JNK inhibition by AS601245, a specific JNK inhibitor, significantly increased FOXO3a phosphorylation, which attenuated FOXO3a translocation into the nucleus after HI. Moreover, JNK inhibition downregulated levels of Bim and CC3 proteins, attenuated neuronal apoptosis and reduced brain infarct volume in the developing rat brain. Our findings suggest that the JNK/FOXO3a/Bim pathway is involved in neuronal apoptosis in the developing rat brain after HI. Agents targeting JNK may offer promise for rescuing neurons from HI-induced damage.

Figures

  • Fig 1. Expression and distribution of p-JNK and JNK proteins in the P7 rat brain after HI as detected byWestern blot analysis and fluorescence immunolabeling. Samples were obtained from the cortex. Equal levels of protein samples (100 μg) were loaded, and GAPDH served as a loading control. The values are expressed as the relative optical density and represented as the mean±SD (n = 5). Total JNK protein was not obviously changed at different time points compared with sham controls (A). However, p-JNK protein levels transiently decreased at 0.5 h, increased at 6 and 24 h, peaked at 48 h, and lasted until 72 h (A). The JNK and p-JNK expression levels in the HI groups and sham controls were quantified. The data were obtained by densitometry and normalized to GAPDH. *p<0.05, **p<0.01 compared with the sham control (B). (HI, hypoxia-ischemia). The cell type specificity of p-JNK with double
  • Fig 2. HI promotes FOXO3a dephosphorylation, which induces FOXO3a translocation into the nucleus and upregulates the expression of Bim and CC3. Samples were obtained from the cortex. Equal levels of protein samples (100 μg) were loaded, and GAPDH served as a loading control. The values are expressed as the relative optical density and represented as the mean±SD (n = 5). Total FOXO3a levels remained unchanged at the indicated time points (A). However, p-FOXO3a levels decreased from 0.5 to 48 h and returned to baseline at 72 h after HI (A). Nuclear FOXO3a protein levels obviously increased from 0.5 to 48 h in a time-dependent manner and remained at a high level at 72 h (C). In contrast, the cytoplasmic protein level decreased from 0.5 to 72 h
  • Fig 3. JNK inhibitor AS601245 significantly rescued the decrease in p-FOXO3a and attenuated FOXO3a translocation into nucleus after HI with no influence on p-Akt. Samples were obtained from the cortex. A JNK in vitro kinase assay showed a significant increase in phosphorylated GST-c-Jun (pGST-c-Jun) in the cortex at 48 h after HI compared with sham controls (A). AS601245 pretreatment effectively blocked JNK activity at 48 h after HI compared with the DMSO-treated cortex (A). p-FOXO3a protein levels significantly increased with AS601245 pretreatment at 48 h after HI compared with the DMSOtreated cortex (C). However, total FOXO3a levels remained unchanged (C). Nuclear FOXO3a protein was reduced in the AS601245-treated cortex compared with the DMSO-treated cortex (E). In contrast, the cytosolic protein was increased in the AS601245-treated cortex compared with the DMSO-
  • Fig 4. JNK inhibitor AS601245 decreased levels of Bim and CC3 proteins and reduced neuronal apoptosis and brain infarct volume in P7 rat after HI. Samples were obtained from the cortex. Bim and CC3 protein levels were significantly reduced at 48 h in the AS601245-treated cortex compared with the DMSO-treated cortex (A). Cell apoptosis was detected by TUNEL staining with the In Situ Cell Death Detection Kit (Merck Millipore) according to the manufacturer's protocol. Ten fields were chosen randomly at 400x magnification to count the apoptotic and total cells. The apoptotic index (AI) was calculated as follows: AI = (number of apoptotic cells/total number counted) ×100%. TUNEL-positive cells were not detected in the sham controls (C). However, the positive cells were increased at 6 h (data not shown) and 24 h (data not shown) and peaked at 48 h (D) after HI. Meanwhile, AS601245 pretreatment obviously reduced cellular apoptosis at 48 h after HI (F) and decreased the infarct volume 7 days after HI significantly (Fig 4H), compared with the DMSO controls (Fig 4E and 4H,). The cell apoptosis index in the AS601245-treated brain cortex was decreased by 59% compared with the DMSOtreated brain cortex (Fig 4G). The infarct volume in the AS601245-treated brain was decreased by 58% compared with the DMSO controls (Fig 4I).

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APA

Li, D., Li, X., Wu, J., Li, J., Zhang, L., Xiong, T., … Mu, D. (2015, July 14). Involvement of the JNK/FOXO3a/Bim pathway in neuronal apoptosis after hypoxic-ischemic brain damage in neonatal rats. PLoS ONE. Public Library of Science. https://doi.org/10.1371/journal.pone.0132998

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