PI3K/AKT通路在动物葡萄糖代谢中的研究进展

葡萄糖代谢稳态对维持动物健康水平至关重要.磷脂酰肌醇3-激酶(phosphoinositide 3-kinase,PI3K)是受体酪氨酸激酶(receptor tyrosine kinase,RTK)和G蛋白偶联受体(G protein-coupled receptor,GPCR)共同调控的下游效应因子.它能够磷酸化磷...     

膜外核苷酸焦磷酸酯酶/磷酸二酯酶家族的研究进展

膜外核苷酸焦磷酸酯酶/磷酸二酯酶家族(E-NPPs)是哺乳动物体内一族结构相似的膜蛋白,目前共发现该家族的7个成员。该家族名称的由来是因为最初发现的NPP1、NPP2、NPP3均具有水解核苷酸及其衍生物的焦磷酸酯键/磷酸二酯键的活性,而进一步的研究表明,E-NPPs的一些成员还具有重要的磷脂酶活性。它们广泛参与核苷酸循环、骨矿化、磷脂信号调控、细胞运动、细胞增殖等多种生理过程,其表达异常时会导致肿瘤、骨矿化异常、Ⅱ型糖尿病等疾病的发生。     

糖尿病前期和新诊断2型糖尿病患者血清血管内皮生长因子B水平与胰岛素抵抗的相关性

目的:探讨在糖尿病前期和新诊断2型糖尿病(T2DM)患者血清血管内皮生长因子B(VEGF-B)与胰岛素抵抗(IR)的关系。方法:选取2011年7月至2013年12月在我院内分泌科门诊就诊的患者419例,其中160例糖耐量正常(NGT)、142例糖尿病前期、117例新诊断T2DM患者,采用ELISA法测定血清VEGF-B水平,进一步分析血清VEGF-B水平与胰岛功能、胰岛素敏感性、肥胖及糖脂代谢相关代谢指标间的相关性。结果:血清VEGF-B水平在NGT (130.8 pg/mL [IQR 61.3-227.5])、糖尿病前期(146.7pg/mL [84.1-214.9])和T2DM(135.3 pg/mL [58.3-214.8])三组间无显著差异(P0.05)。相关分析显示血清VEGF-B水平与体重指数(BMI)、腰臀比(WHR)、血脂谱、胰岛功能及胰岛素敏感性均无相关性(P0.05)。结论:在糖尿病前期和新诊断T2DM患者,血清VEGF-B水平与肥胖、血脂谱、胰岛功能和胰岛素敏感性均无显著相关性,VEGF-B在人胰岛素抵抗及T2DM的发生中可能作用有限,仍需进一步研究明确其在代谢中的作用。     

尼古丁通过PI3K/Akt/mTOR通路抑制自噬诱导BEAS-2B细胞凋亡

吸烟是慢性呼吸系统炎症疾病最主要危险因素.尼古丁是烟草烟雾中最主要成分,与尼古丁相关的慢性呼吸系统疾病的发病率与日俱增.因此,寻找与尼古丁相关的慢性呼吸系统炎症疾病的潜在靶点是急需解决的问题.本研究旨在探究尼古丁对BEAS-2B细胞凋亡的影响及其潜在作用机制.采用蛋白质印迹法检测各组中的细胞内凋亡、自噬和PI3K/Ak...     

AD认知功能障碍的代谢紊乱机制:脑胰岛素抵抗及其介导的PI3K/Akt信号通路受损

阿尔茨海默病(Alzheimer’s disease, AD)是一种以进行性痴呆为主要特征的中枢神经系统退行性疾病,其认知功能障碍可能与Ⅱ型糖尿病(type 2 diabetes, T2DM)诱发的胰岛素抵抗所损伤的PI3K/Akt胰岛素信号级联通路相关。胰岛素是调节机体新陈代谢的重要激素,通过与神经细胞表面的胰岛素受体结合激活PI3K/Akt信号通路,以调控葡萄糖、脂质的代谢。任何中间媒介功能紊乱所导致的脑胰岛素水平和胰岛素敏感性的降低都会损坏PI3K/Akt信号通路,诱发脑能量代谢障碍、Aβ沉积、Tau蛋白过度磷酸化,引起并加重AD认知功能障碍。因此,本文以PI3K/Akt胰岛素信号通路为主线,揭示了T2DM中脑胰岛素抵抗(insulin resistance, IR)与AD之间的复杂机制,旨在加深对脑IR介导的AD病理过程的系统性理解,借此为延缓或治疗AD的认知功能障碍提供理论基础。     

缺氧诱导因子1与PI3K/Akt/mTOR信号转导通路

缺氧诱导因子1（HIF-1）是参与缺氧调节的核心因子,可调控一系列缺氧诱导基因的表达,与机体许多生理和病理过程也密切相关。尽管一些研究显示缺氧和非缺氧性刺激可通过PI3K/Akt/mTOR信号途径诱导HIF-1的表达和活性,PI3K信号途径是否参与对HIF-1的调节仍然是个有争议的研究热点。明确HIF-1和PI3K的相互作用关系,能进一步为肿瘤等相关疾病的防治提供新的思路和方法。本文主要就HIF-1和PI3K/Akt/mTOR关系作一简要综述。     

胰岛素和瘦素抵抗的重要调控因子:细胞因子信号转导抑制因子-3

细胞因子信号转导抑制因子-3(Suppressor of Cytokine Signaling-3,SOCS-3)是细胞信号转导生理抑制剂家族重要成员之一,主要参与负调控生长激素、白介素(IL),肿瘤坏死因子(TNF)等细胞因子信号转导.最近发现,SOCS-3在胰岛素和瘦素抵抗中具有重要调控功能,且与糖尿病关系密切,是未来糖尿病基因治疗的新靶点.该文综述了近年来SOCS-3结构及其对胰岛素和瘦素抵抗的调控机制研究进展,并探讨SOCS-3在糖尿病中的作用.     

PI3K/Akt信号通路与肺纤维化

肺纤维化(pulmonary fibrosis)是进行性、致命性的疾病。其致病机制不明,治疗效果差。PI3K/Akt信号通路主要与细胞的生长、增殖、分化、凋亡及血管形成等有关。近年来,随着对PI3K/Akt信号通路的深入研究,发现其活化后可激活下游中的一些因子参与肺纤维化,且与其他通路协同作用促进肺纤维化的形成。因此该通路有可能成为治疗肺纤维化的新靶点。将PI3K/Akt信号通路参与肺纤维化形成的研究进展作一综述。     

PI3K/Akt信号传导通路与肿瘤

信号转导通路的异常激活是肿瘤细胞的发生、发展重要步骤,PI3K/Akt 信号通路在人类绝大多数恶性肿瘤中被异常激活,其在肿瘤的增殖、存活、细胞运动、抵抗凋亡、血管发生和转移以及对化疗耐药、放疗抗拒中发挥了重要作用.因此,通过对PI3K/Akt 通路的研究进一步了解肿瘤的发生、发展机制,并寻求抗肿瘤药物的新靶点,本文就 PI3K/Akt 信号转导通路的结构特点、与肿瘤发生、发展的关系及其时放化疗的影响作一综述.     

Ⅴ型磷酸二酯酶的活性测定及其抑制剂的研究

研究以3',5'-环鸟苷酸(cGMP)为特异底物的Ⅴ型磷酸二酯酶(PDE5)活性及新合成的化合物CY Ⅰ、CYⅡ、CYⅢ和CYⅣ对该酶的抑制作用.以人血小板为原料,通过快速蛋白液相色谱系统(FPLC)分离纯化得到PDE5,利用3H-cGMP同位素两步分析法检测PDE5的活性.再以不同剂量的4种化合物作用于PDE5,观察它们对PDE5的抑制效应,从而筛选出PDE5的高效抑制剂.结果表明,CYⅡ对PDE5具有很好的抑制作用.     

PI3K/Akt/mTOR信号通路与自噬及肿瘤的关系

自噬是一种以胞质内出现双层膜结构包裹长寿命蛋白和细胞器的自噬体为特征的细胞“自我消化”过程,在维持细胞内稳态、发育、肿瘤发生和感染中发挥重要作用。近来,诸多研究表明,自噬作为一把“双刃剑”,对肿瘤的发生发展既有促进作用,也有抑制作用。PI3K/Akt/mTOR通路由PI3激酶(PI3K)、蛋白激酶B（PKB/Akt）和哺乳动物类雷帕霉素靶蛋白（mTOR）3个作用分子组成,是一个中心的调节机构,对肿瘤细胞的生长与增殖有促进作用,同时对自噬进行抑制。本文就PI3K/Akt/mTOR通路与自噬及肿瘤发生发展的关系作一综述。     

Up-regulation of IAPs by PI-3K: a cell survival signal-mediated anti-apoptotic mechanism

Under normal cell physiology, a balance between cell survival and apoptosis is crucial for homeostasis. Many studies have demonstrated that apoptosis is modulated by cell survival stimuli. Active Akt, a common mediator of cell survival signals, has been shown to inhibit apoptosis by attenuating activity of pro-apoptotic factors Bad and caspase-9. However, the anti-apoptotic mechanisms mediated by various cell survival signals are poorly understood. Human prostate cancer LNCaP cells, known to contain constitutively activated Akt as a result of a frame-shift mutation in PTEN, an inhibitor of PI-3K/Akt pathway, were observed to be completely resistant to TRAIL-induced apoptosis. In agreement with the known action of Akt, blockade of the PI-3K/Akt pathway rendered LNCaP cells highly susceptible to TRAIL. Importantly, active PI-3K/Akt prevented processing/activation of caspase-3, a phenomenon associated with the function of inhibitor of apoptosis proteins (IAPs). In fact, inhibition of PI-3K activity using Wortmannin significantly decreased the protein levels of IAPs, concomitantly promoting processing/activation of caspase-3 and TRAIL-induced apoptosis. My data indicate that in addition to blocking Bad and caspase-9 through Akt, PI-3K also inhibits caspase-3 through up-regulating IAPs, thereby attenuates apoptosis.     

Hypoxia-induced HIF-1 alpha accumulation is augmented in a co-culture of keloid fibroblasts and human mast cells: involvement of ERK1/2 and PI-3K/Akt

Keloids represent a prolonged inflammatory fibrotic state with areas that display distinctive histological features characterized by an abundant extracellular matrix stroma, a local infiltration of inflammatory cells including mast cells, and a milieu of enriched cytokines. Previous studies from our laboratory demonstrated an intrinsic higher level of HIF-1alpha and VEGF protein expression in keloid tissues compared with their adjacent unremarkable skins. To further investigate the mechanisms underlying the elevated expression of HIF-1alpha and VEGF in keloids, we exposed a co-culture of keloid fibroblasts and mast cells (HMC-1) to hypoxic conditions and studied the expression of HIF-1alpha and its target gene, VEGF. Our results showed that hypoxia-dependent HIF-1alpha protein accumulation and VEGF expression is augmented in keloid fibroblasts when co-cultured with HMC-1 cells under the condition where direct cell-cell contact is allowed. But such augmentation is not observed in the transwell co-culture system whereas fibroblasts and HMC-1 cells were separated by a porous membrane. Our results also indicated that the enhancement of hypoxia-mediated activation of ERK1/2 and Akt requires direct cell-cell interaction between mast cells and keloid fibroblasts, and activation of both ERK1/2 and Akt is involved in the hypoxia-dependent HIF-1alpha protein accumulation and VEGF expression in the co-culture system. These findings suggest that under hypoxic conditions mast cells may contribute, at least in part, to an elevated expression of HIF-1alpha and VEGF protein in keloids via direct cell-cell interaction with fibroblasts.     

Cell adhesion aside from integrin system can abrogate anoikis in rat liver cells by down-regulation of FasL expression,not by activation of PI-3K/Akt and ERK signaling pathway

Epithelial cells require contact with extracellular matrix (ECM) to inhibit detachment-induced apoptosis (anoikis). The ERK and PI-3K/Akt signaling pathways have been identified to inhibit anoikis. We present here a different story. An adult rat liver cell line, ARLJ301-3, underwent apoptosis within 4h under suspension conditions even with active forms of Akt and ERK1/2. Once ARLJ301-3 cells are plated on tissue culture plates coated with synthetic polymer, such as poly-(N-p-vinyl benzyl-O-beta-D-galactopyranosyl-D-gluconamide) (PVLA), poly-L-lysine or polystyrene, instead of functional ECM such as fibronectin, they could survive and proliferate without activation of Akt and ERK1/2. The expression of Fas receptor ligand (FasL) is specifically detected in cells under suspension conditions or treated with cytochalasin-D. We present here the first report that FasL expression is up-regulated by the cytoskeletal disruption directed by cytochalasin-D treatment or cell detachment from ECM.     

PI3K/Akt信号通路相关的生物学调控机制研究进展

PI3K/Akt信号通路是由酶联受体介导的信号转导通路,该通路不仅参与多种生长因子、细胞因子和细胞外基质等的信号转导,同时还参与细胞增殖、分化、凋亡和葡萄糖转运等多种细胞功能的调节,特别是在细胞凋亡、细胞存活以及调控细胞糖代谢等方面具有重要作用。本研究综述了PI3K-Akt信号通路的结构组成、通路活化、通信过程、调控机制及其生物学功能等方面的研究进展,为进一步研究PI3K/Akt信号通路的生物学调控作用机制提供启示。     

前列腺癌雄激素受体和PI3K/Akt信号通路相互作用研究进展

前列腺癌的发生、进展依赖于雄激素,因此去势手术成为治疗晚期前列腺癌的标准疗法。但是去势后大多前列腺癌最终将转化为雄激素非依赖性前列腺癌,甚至进展为激素难治性前列腺癌,使得肿瘤的进展不受低水平雄激素的影响。即使如此,大多数激素非依赖性前列腺癌,依然阳性表达雄激素受体。因而雄激素受体在前列腺癌发生发展中起着重要作用。而PI3K/Akt信号通路能够通过维持细胞生存、抑制细胞凋亡、促进细胞代谢及血管生成等促进前列腺癌进展。本综述旨在总结前人研究,阐述雄激素受体和PI3K/Akt信号通路之间相互作用关系。研究表明Akt信号通路能够正性或者负性调控AR蛋白表达、蛋白的稳定性及其转录活性,从而维持细胞的生存、代谢。而AR即可以通过基因转录途径抑制Akt活化又能通过非转录基因途径激活Akt及其下游蛋白。因此,AR和Akt信号通路相互协同促进前列腺癌的发生及其向雄激素非依赖性前列腺癌进展。     

前列腺癌雄激素受体和PI3K/Akt 信号通路相互作用研究进展

前列腺癌的发生、进展依赖于雄激素,因此去势手术成为治疗晚期前列腺癌的标准疗法。但是去势后大多前列腺癌最终将转化为雄激素非依赖性前列腺癌,甚至进展为激素难治性前列腺癌,使得肿瘤的进展不受低水平雄激素的影响。即使如此,大多数激素非依赖性前列腺癌,依然阳性表达雄激素受体。因而雄激素受体在前列腺癌发生发展中起着重要作用。而PI3K/Akt信号通路能够通过维持细胞生存、抑制细胞凋亡、促进细胞代谢及血管生成等促进前列腺癌进展。本综述旨在总结前人研究,阐述雄激素受体和PI3K/Akt信号通路之间相互作用关系。研究表明Akt信号通路能够正性或者负性调控AR蛋白表达、蛋白的稳定性及其转录活性,从而维持细胞的生存、代谢。而AR即可以通过基因转录途径抑制Akt活化又能通过非转录基因途径激活Akt及其下游蛋白。因此,AR和Akt信号通路相互协同促进前列腺癌的发生及其向雄激素非依赖性前列腺癌进展。     

Essential role of PI-3K, ERKs and calcium signal pathways in nickel-induced VEGF expression

Exposure to a highly nickel-polluted environment has the potential to cause a variety of adverse health effects, such as the respiratory tract cancers. Since numerous studies have demonstrated that nickel generally has weak mutagenic activity, research focus had turned to cell signalling activation leading to gene modulation and epigenetic changes as a plausible mechanism of carcinogenesis. Previous studies have revealed that nickel compounds can induce the expression of vascular endothelial growth factor (VEGF), which is a key mediator of angiogenesis both in physiological and pathologic conditions. In the present study, we investigated the potential roles of PI-3K, ERKs, p38 kinase and calcium signalling in VEGF induction by nickel in Cl 41 cells. Exposure of Cl 41 cells to nickel compounds led to VEGF induction in both time- and dose-dependent manners. Pre-treatment of Cl 41 cells with PI-3K inhibitor, wortmannin or Ly294002, resulted in a striking inhibition of VEGF induction by nickel compounds, implicating the role of PI-3K in the induction. However, mTOR, one of downstream molecules of PI-3K, may not contribute to the induction because pre-treatment of Cl 41 cells with its inhibitor, rapamycin, did not show obvious decrease in nickel-induced VEGF expression. Furthermore, pre-treatment of Cl 41 cells with MEK1/2-ERKs pathway inhibitor, PD98059, significantly inhibited VEGF induction by both NiCl₂ and Ni₃S₂, whereas p38 kinase inhibitor, SB202190, did not impair the induction. Pre-treatment of Cl 41 cells with intracellular calcium chelator, but not calcium channel blocker, inhibited VEGF induction by nickel. Collectively these data demonstrate that PI-3K, ERKs and cytosolic calcium, but not p38 kinase, play essential roles in VEGF induction by nickel compounds. The first two authors have contributed equally to this work.     

Chamomile Essential Oil: Chemical Constituents and Antitumor Activity in MDA-MB-231 Cells through PI3K/Akt/mTOR Signaling Pathway

Chamomile essential oil (CEO) is extracted from chamomile and mainly used in aromatherapy. The chemical constituents and its antitumor activity on Triple-negative breast cancer (TNBC) was explored in the present study. Gas chromatography-mass spectrometry (GC/MS) was employed to analyze the chemical constituents of CEO. The cell viability, migration and invasion of TNBC cell MDA-MB-231 were measured using MTT, wound scratch and Transwell assay, respectively. The protein expression of PI3K/Akt/mTOR signaling pathway was determined by Western blot. CEO is rich in terpenoids (63.51 %), among which the identified terpenoids and their derivatives are mainly Caryophyllene (29.57 %), d-Cadinene (12.81 %), Caryophyllene oxide (14.51 %), etc. Three concentration of CEO (1, 1.5, 2 μg/mL) significantly inhibited the proliferation, migration and invasion of MDA-MB-231 cells with a dose dependent manner. Moreover, the phosphorylation of PI3K, Akt and mTOR was inhibited by CEO. The results revealed that there was abundant terpenoids in the CEO which account for 63.51 %. CEO significantly inhibited the proliferation, migration and invasion of MDA-MB-231 cells, exhibiting antitumor effect on TNBC. The antitumor effect of CEO might attribute to its inhibition on PI3K/Akt/mTOR signaling pathway. However, further study should be conducted in more TNBC cell lines and animal models to provide further evidence for TNBC treatment by CEO.