NP7 protects from cell death induced by oxidative stress in neuronal and glial midbrain cultures from parkin null mice

Parkin mutations produce Parkinson’s disease (PD) in humans and nigrostriatal dopamine lesions related to increased free radicals in mice. We examined the effects of NP7, a synthetic, marine derived, free radical scavenger which enters the brain, on H₂O₂ toxicity in cultured neurons and glia from wild-type (WT) and parkin null mice (PK-KO).NP7, 5-10 μM, prevented the H₂O₂ induced apoptosis and necrosis of midbrain neuronal and glial cultures from WT and PK-KO mice. NP7 suppressed microglial activation and the H₂O₂ induced drop-out of dopamine neurons_. Furthermore, NP7 prevented the increased phosphorylation of ERK and AKT induced by H₂O₂. NP7 may be a promising neuroprotector against oxidative stress in PD.     

P13 K、p-AKT及HIF-1α在胰腺癌中的表达及意义

目的 检测P13K、p-AKT及HIF-1α三种蛋白在胰腺癌组织中的表达并探讨其与临床病理因素的关系及三者之间的相关性.方法 采用免疫组织化学SP法检测43例胰腺癌组织、9例胰腺炎组织和8例正常胰腺组织中P13K、p-AKT及HIF.1a三种蛋白的表达.结果 P13K、p-AKT的阳性表达主要位于肿瘤细胞胞浆,HIF-1α的阳性表达主要位于细胞核或细胞浆.P13K、p-AKT及HIF-1α在胰腺癌组织中的阳性表达率分别为62.79%、67.44%和69.77%,三者均显著高于在正常胰腺组织和慢性胰腺炎组织中的表达,差异有统计学意义(P<0.01).P13K、p-AKT及HIF-1α的异常表达均与胰腺癌的淋巴结转移和TNM分期有关(P<0.05),与患者的性别、年龄、部位、分化程度和病理分型无关(P>0.05).P13K、p-AKT及HIF-1α三者间的表达呈正相关.结论 P13K、p-AKT及HIF-1α的表达在胰腺癌的生长、浸润转移中起重要作用,P13K-AKT信号通路激活可能促进HIF-1α的表达.     

PI3K、p-AKT及HIF—1α在胰腺癌中的表达及意义

目的检测PI3K、p-AKT及HIF-1α三种蛋白在胰腺癌组织中的表达并探讨其与临床病理因素的关系及三者之间的相关性。方法采用免疫组织化学SP法检测43例胰腺癌组织、9例胰腺炎组织和8例正常胰腺组织中PI3K、p-AKT及HIF-1α三种蛋白的表达。结果PI3K、p-AKT的阳性表达主要位于肿瘤细胞胞浆,HIF-1α的阳性表达主要位于细胞核或细胞浆。PI3K、p-AKT及HIF-1α在胰腺癌组织中的阳性表达率分别为62．79％、67．44％和69．77％,三者均显著高于在正常胰腺组织和慢性胰腺炎组织中的表达,差异有统计学意义（P〈0．01）。PI3K、p-AKT及HIF-1α的异常表达均与胰腺癌的淋巴结转移和TNM分期有关（P〈0．05）,与患者的性别、年龄、部位、分化程度和病理分型无关（P〉0．05）。PI3K、p-AKT及HIF-1α三者间的表达呈正相关。结论PI3K、p-AKT及HIF-1α的表达在胰腺癌的生长、浸润转移中起重要作用,PI3K-AKT信号通路激活可能促进HIF-1α的表达。     

Metabolic reprogramming in colon cancer reversed by DHTS through regulating PTEN/AKT/HIF1α mediated signal pathway

Background

Metabolic reprogramming and hypoxia contribute to the resistance of conventional chemotherapeutic drugs in kinds of cancers. In this study, we investigated the effect of dihydrotanshinone I (DHTS) on reversing dysregulated metabolism of glucose and fatty acid in colon cancer and elucidated its mechanism of action.

Down-regulating GRP78 reverses pirarubicin resistance of triple negative breast cancer by miR-495-3p mimics and involves the p-AKT/mTOR pathway

Due to the lack of known therapeutic targets for triple-negative breast cancer (TNBC), chemotherapy is the only available pharmacological treatment. Pirarubicin (tetrahydropyranyl Adriamycin, THP) is the most commonly used anthracycline chemotherapy agent. However, TNBC has a high recurrence rate after chemotherapy, and the mechanisms of chemoresistance and recurrence are not entirely understood. To study the chemoresistance mechanisms, we first screened compounds on a pirarubicin-resistant cell line (MDA-MB-231R) derived from MDA-MB-231. The drug resistance index of MDA-MB-231R cells was approximately five times higher than that of MDA-MB-231 cells. MDA-MB-231R cells have higher GRP78 and lower miR-495-3p expression levels than MDA-MB-231 cells. Transfecting MDA-MB-231R cells with a siGRP78 plasmid reduced GRP78 expression, which restored pirarubicin sensitivity. Besides, transfecting MDA-MB-231R cells with miR-495-3p mimics increased miR-495-3p expression, which also reversed pirarubicin chemoresistance. Cell counting kit-8 (CCK-8), EdU, wound healing, and Transwell assays showed that the miR-495-3p mimics also inhibited cell proliferation and migration. Based on our results, miR-495-3p mimics could down-regulate GRP78 expression via the p-AKT/mTOR signaling pathway in TNBC cells. Remarkably, chemo-resistant and chemo-sensitive TNBC tissues had opposite trends in GRP78 and miR-495-3p expressions. The lower the GRP78 and the higher the miR-495-3p expression, the better prognosis in TNBC patients. Therefore, the mechanism of pirarubicin resistance might involve the miR-495-3p/GRP78/Akt axis, which would provide a possible strategy for treating TNBC.     

Insulin-like growth factor (IGF)-like peptide and 20-hydroxyecdysone regulate the growth and development of the male genital disk through different mechanisms in the silkmoth,Bombyx mori

It is well established that ecdysteroids play pivotal roles in the regulation of insect molting and metamorphosis. However, the mechanisms by which ecdysteroids regulate the growth and development of adult organs after pupation are poorly understood. Recently, we have identified insulin-like growth factor (IGF)-like peptides (IGFLPs), which are secreted after pupation under the control of 20-hydroxyecdysone (20E). In the silkmoth, Bombyx mori, massive amounts of Bombyx-IGFLP (BIGFLP) are present in the hemolymph during pupal-adult development, suggesting its importance in the regulation of adult tissue growth. Thus, we hypothesized that the growth and development of adult tissues including imaginal disks are regulated by the combined effects of BIGFLP and 20E. In this study, we investigated the growth-promoting effects of BIGFLP and 20E using the male genital disks of B. mori cultured ex vivo, and further analyzed the cell signaling pathways mediating hormone actions. We demonstrate that 20E induces the elongation of genital disks, that both hormones stimulate protein synthesis in an additive manner, and that BIGFLP and 20E exert their effects through the insulin/IGF signaling pathway and mitogen-activated protein kinase pathway, respectively. These results show that the growth and development of the genital disk are coordinately regulated by both BIGFLP and 20E.     

GTF2H2通过介导AKT信号通路影响肝癌细胞Hep3B的增殖和迁移*

目的:探讨通用转录因子II H亚基2(GTF2H2)是否影响肝癌细胞Hep3B的增殖和迁移及其潜在的分子机制。方法:通过转染GTF2H2-siRNA构建GTF2H2敲低的Hep3B肝癌细胞模型;实时定量聚合酶链反应(q-RT-PCR)和蛋白质印迹实验检测肝癌细胞Hep3B的GTF2H2敲低效果;细胞计数实验(MTS)检测GTF2H2敲低的肝癌细胞Hep3B的增殖能力;Transwell细胞迁移实验检测GTF2H2敲低的肝癌细胞Hep3B的迁移能力;蛋白质印迹分析实验检测GTF2H2敲低后是否影响肿瘤相关分子信号通路。结果: GTF2H2敲低组的Hep3B细胞的增殖能力较对照组的Hep3B细胞增强,迁移能力亦有增强;蛋白质印迹实验显示GTF2H2敲低后,p-AKT通路蛋白的表达明显升高。结论:GTF2H2可能通过介导AKT分子信号通路,影响肝癌细胞Hep3B的增殖和迁移能力。     

MiR-1297下调PTEN的表达参与子宫内膜癌变

已有研究证明,抑癌子PTEN（phosphatase and tensin homolog）缺失或表达下调可引起子宫内膜癌变;在喉鳞状细胞癌中miR-1297可下调PTEN的表达。然而,miR-1297下调PTEN的机制,以及是否miR-1297靶向抑制PTEN参与子宫内膜癌变尚未见报道。本研究证明,miR-1297靶向抑制PTEN基因的表达参与子宫内膜癌变。收集临床病理检查确诊为子宫内膜腺癌的癌组织及癌旁组织18例。实时定量PCR（RT-qPCR）及Western印迹结果显示,与癌旁子宫内膜比较,子宫内膜癌组织miR-1297高表达,而PTEN则呈低表达或缺失。内膜癌和癌旁内膜组织中,miR-1297与PTEN表达水平的散点图分析揭示,miR-1297的表达水平与PTEN的表达水平呈明显的负相关（内膜癌：miR-1297与PTEN的相关系数r=-0.6928,P=0.0438;癌旁组织：相关系数r=-0.4085,P < 0.0001)。报告酶活性测定显示,与对照比较,pGL3-PTEN-3′-UTR-1/2/3加miR-1297模拟物共转染后,荧光素酶活性在转染的Ishikawa和ECC-1细胞中分别降低了约21%（P=0.0196）和17%（P=0.0306）;相反,转染miR-1297抑制物后,两种细胞的荧光素酶活性分别升高约59%（Ishikawa：P=0.0014）和50%（ECC-1： P=0.0025）。结果提示,miR-1297可通过特异识别PTEN mRNA的3′-UTR,抑制PTEN的表达。基因转染结合Western印迹结果证明,在原代子宫内膜细胞中,过表达miR-1297模拟物导致PTEN蛋白表达下调,而其下游底物分子--磷酸化的AKT（p-AKT）表达上调;而过表达miR-1297抑制物后,PTEN表达上调,p-AKT表达下调。Connexin V/PI双染结合流式分析证明,与对照细胞（3%细胞凋亡）比较,在子宫内膜癌细胞系Ishikawa中,敲减miR-1297表达后细胞调亡明显增加（至10%）,这可能与抑制miR-1297后PTEN的表达上调有关。上述结果提示,miR-1297在子宫内膜癌高表达,而PTEN低表达。上述结果还提示,miR-1297作为一个促癌子可通过特异识别PTEN mRNA的3′-UTR,抑制PTEN的表达,促进AKT磷酸化/激活,从而促进内膜癌的发生,这可能是子宫内膜癌变的发生原因之一。