Quercetin suppresses hypoxia-induced accumulation of hypoxia-inducible factor-1alpha (HIF-1alpha) through inhibiting protein synthesis

Quercetin, a ubiquitous bioactive plant flavonoid, has been shown to inhibit the proliferation of cancer cells and induce the accumulation of hypoxia-inducible factor-1alpha (HIF-1alpha) in normoxia. In this study, under hypoxic conditions (1% O(2)), we examined the effect of quercetin on the intracellular level of HIF-1alpha and extracellular level of vascular endothelial growth factor (VEGF) in a variety of human cancer cell lines. Surprisingly, we observed that quercetin suppressed the HIF-1alpha accumulation during hypoxia in human prostate cancer LNCaP, colon cancer CX-1, and breast cancer SkBr3 cells. Quercetin treatment also significantly reduced hypoxia-induced secretion of VEGF. Suppression of HIF-1alpha accumulation during treatment with quercetin in hypoxia was not prevented by treatment with 26S proteasome inhibitor MG132 or PI3K inhibitor LY294002. Interestingly, hypoxia (1% O(2)) in the presence of 100 microM quercetin inhibited protein synthesis by 94% during incubation for 8 h. Significant quercetin concentration-dependent inhibition of protein synthesis and suppression of HIF-1alpha accumulation were observed under hypoxic conditions. Treatment with 100 microM cycloheximide, a protein synthesis inhibitor, replicated the effect of quercetin by inhibiting HIF-1alpha accumulation during hypoxia. These results suggest that suppression of HIF-1alpha accumulation during treatment with quercetin under hypoxic conditions is due to inhibition of protein synthesis.     

Angiogenesis by transplantation of HIF-1 alpha modified EPCs into ischemic limbs

Hypoxia inducible factor-1 alpha (HIF-1 alpha) is a key determinant of oxygen-dependent gene regulation in angiogenesis. HIF-1 alpha overexpression may be beneficial in cell therapy of hypoxia-induced pathophysiological processes, such as ischemic heart disease. To address this issue, human peripheral blood mononuclear cells (PBMNCs) were induced to differentiate into endothelial progenitor cells (EPCs), and then were transfected with either an HIF-1 alpha-expressing or a control vector and cultured under normoxia or hypoxia. Hypoxia-induced HIF-1 alpha mRNA and protein expression was increased after HIF-1 alpha transfection. This was accompanied by VEGF mRNA induction and increased VEGF secretion. Hypoxia-stimulated VEGF mRNA induction was significantly abrogated by HIF-1 alpha-specific siRNA. Functional studies showed that HIF-1 alpha overexpression further promoted hypoxia-induced EPC differentiation, proliferation and migration. The expressions of endothelial cell markers CD31, VEGFR2 (Flk-1) and eNOS as well as VEGF and NO secretions were also increased. Furthermore, in an in vivo model of hindlimb ischemia, HIF-1 alpha-transfected EPCs homed to the site of ischemia. A higher revascularization potential was also demonstrated by increased capillary density at the injury site. Our results revealed that endothelial progenitor cells ex vivo modification by hypoxia inducible factor-1 alpha gene transfection is feasible and may offer significant advantages in terms of EPC expansion and treatment efficacy.     

低氧条件下大鼠肺动脉平滑肌细胞中活性氧与低氧诱导因子-1α和细胞增殖的关系

在低氧条件下,观察大鼠肺动脉平滑肌细胞（pulmonary arterial smooth muscle cells,PASMCs）中活性氧（reactive oxygen species,ROS）的变化,探讨ROS的变化是否通过调控低氧诱导因子-4α（hypoxia-inducible factor 1α, HIF-1α）的表达影响PASMCs的增殖。采用组织块法原代培养大鼠PASMCs,分成3组：常氧组（21％O2,24h）,低氧组（5％O2,24h）,低氧＋Mn-TBAP组（5％O2,24h,Mn-TBAP是一种ROS清除剂）。用激光共聚焦显微镜荧光染色法检测细胞内ROS的变化;用RT-PCR和免疫组织化学方法分别测定HIF-1α mRNA和蛋白的表达;用MTT法检测细胞增殖程度。结果显示：（1）低氧组PASMCs内ROS水平明显高于常氧组（P〈0．05）,低氧＋Mn-TBAP组ROS水平明显低于低氧组（P〈0．05）,但仍高于常氧组（P〈0．05）;（2）低氧组及低氧＋Mn-TBAP组的HIF-1α mRNA和蛋白表达均高于常氧组（P〈0．05）,且低氧组表达高于低氧＋Mn-TBAP组（P〈0．05）;（3）低氧组细胞增殖明显高于常氧组和低氧＋Mn-TBAP组（P〈0．05）,低氧＋Mn-TBAP组细胞增殖高于常氧组（P〈0．05）。结果表明：在低氧条件下大鼠PASMCs中ROS水平明显升高,RROS的变化能够调节HIF-1α的表达,进而影响平滑肌细胞的增殖,提示ROS可能在肺动脉高压的发病机制和低氧信号转导中具有重要作用。     

AQP1促进肺动脉平滑肌细胞的增殖与迁移（应作者要求撤稿）

该文应作者要求已撤稿。肺动脉平滑肌细胞（PASMCs）的迁移和增殖是肺动脉重塑进而造成肺动脉高压的主要病理基础。水通道蛋白1（AQP1）具有促进上皮细胞、内皮细胞迁移的作用,但机制不清。由于AQP1也表达于血管平滑肌细胞,推测AQP1可能参与缺氧诱导的PASMCs增殖及迁移。通过PCR和免疫印迹分析,检测AQP的表达以及缺氧对AQP表达水平的影响,并通过细胞迁移以及增殖实验观察AQP1在缺氧诱导的PASMCs迁移与增殖中的作用。AQP1在PASMCs和主动脉平滑肌细胞（AoSMCs）均表达,但缺氧只增加PASMCs中AQP1的表达,以及促进PASMCs的迁移与增殖。敲除AQP1可抑制PASMCs的增殖以及缺氧诱导的细胞增殖和迁移。过表达AQP1促进PASMCs的增殖和迁移。缺氧促进β联蛋白在PASMCs内的表达。敲除β联蛋白后,抑制AdAQP1所介导的PASMCs迁移与增殖。这些结果表明,缺氧可促进AQP1在肺动脉内的表达,AQP1可通过β联蛋白对PASMCs的增殖和迁移进行调节。     

RNA干扰沉默低氧诱导因子-1α对低氧下大鼠肺动脉平滑肌细胞增殖的影响

本研究应用基因克隆技术,将合成的发卡样特异性低氧诱导因子-1α（hypoxia inducible factor-1alpha,HIF-1α）干扰寡核苷酸（siRNA）序列插入真核表达载体中,构建出特异性HIF-1α基因RNA干扰（RNAi）真核表达载体。采用组织块种植法,原代培养大鼠肺动脉平滑肌细胞（pulmonary artery smooth muscle cells,PASMCs）,将构建出的特异性HIF-1αRNAi真核表达载体转染到PASMCs;分别在常氧和低氧下进行细胞培养,采用RT-PCR检测PASMCsHIF-1αmRNA表达水平,用MTT和流式细胞仪检测细胞增殖水平,探讨低氧条件下HIF-1αRNAi真核表达载体对PASMCs增殖的影响。结果表明,低氧培养48h后,正常PASMCs和转染了HIF-1αsiRNA阴性表达载体的细胞增殖显著,HIF-1αmRNA表达水平也显著升高;而转染了HIF-1αsiRNA阳性表达质粒的细胞增殖不显著,HIF-1αmRNA表达水平较低。结果提示：HIF-1αRNAi真核表达载体能显著干扰培养的PASMCsHIF-1αmRNA表达,同时抑制低氧环境下PASMCs的增殖。     

Hypoxia Induces Transforming Growth Factor-β1 Gene Expression in the Pulmonary Artery of Rats via Hypoxia-inducible Factor-1α

The present study was undertaken to investigate the dynamic expression of hypoxia induciblefactor-1 α (HIF-1α) and transforming growth factor-β1 (TGF-β1) in hypoxia-induced pulmonary hypertensionof rats.It was found that mean pulmonary arterial pressure (mPAP) increased significantly after 7 d ofhypoxia.Pulmonary artery remodeling index and right ventricular hypertrophy became evident after 14 d ofhypoxia.HIF-1α mRNA staining was less positive in the control,hypoxia for 3 d and hypoxia for 7 d,butbegan to enhance significantly after 14 d of hypoxia,then remained stable.Expression of HIF-1 α protein inthe control was less positive,but was up-regulated in pulmonary arterial tunica intima of all hypoxic rats.TGF-β1 mRNA expression in pulmonary arterial walls was increased significantly after 14 d of hypoxia, butshowed no obvious changes after 3 or 7 d of hypoxia.In pulmonary tunica adventitia and tunica media,TGF-β1 protein staining was less positive in control rats,but was markedly enhanced after 3 d of hypoxia,reaching its peak after 7 d of hypoxia,and then weakening after 14 and 21 d of hypoxia.Western blottingshowed that HIF- 1α protein levels increased significantly after 7 d of hypoxia and then remained at a highlevel. TGF-β1 protein level was markedly enhanced after 3 d of hypoxia,reaching its peak after 7 d ofhypoxia,and then decreasing after 14 and 21 d of hypoxia.Linear correlation analysis showed that HIF-1αmRNA, TGF-β1 mRNA, TGF-β1 protein were positively correlated with mPAP,vessel morphometry andright ventricular hypertrophy index.TGF-β1 protein (tunica adventitia) was negatively correlated withHIF-lα mRNA.Taken together,our results suggest that changes in HIF-lα and TGF-β1 expression afterhypoxia play an important role in hypoxia-induced pulmonary hypertension of rats.     

藏羚羊低氧诱导因子1α基因的克隆与组织表达

为探讨低氧诱导因子1α (hypoxia inducible factor l alpha,HIF-1α)在藏羚羊(Pantholops hodgsonii)高原低氧适应机制中的作用,采用RT-PCR和RACE技术克隆藏羚羊HIF-1α基因的cDNA序列,同时采用real-time PCR和Western blot方法...     

Hypoxia-induced transcriptional activation of vascular endothelial growth factor is inhibited by serum

Expression of vascular endothelial growth factor (VEGF) by cultured vascular smooth muscle cells was analyzed. Serum and hypoxia had nearly additive actions on VEGF mRNA expression. The function of the VEGF promoter in smooth muscle cells was analyzed using transient luciferase reporter assays. Serum and hypoxia stimulated expression of luciferase. The presence of hypoxia response element (HRE) was necessary for the hypoxic induction. AP-1 sequences located upstream of HRE and AP-2/Sp-1 sequences located downstream of HRE are not necessary. Hypoxic responses were best observed in serum-deprived cells. They were largely absent in serum-stimulated cells. Serum did not suppress the hypoxic response by interfering with the hypoxia sensor mechanism or with the signaling cascade that leads to the activation of HIF-1. It is concluded that growth-promoting cytokines regulate hypoxic gene induction in smooth muscle cells.     

Suppression of hypoxia inducible factor-1alpha (HIF-1alpha) by YC-1 is dependent on murine double minute 2 (Mdm2)

Inhibition of HIF-1alpha activity provides an important strategy for the treatment of cancer. Recently, 3-(5'-hydroxymethyl-2'-furyl)-1-benzyl indazole (YC-1) has been identified as an anti-HIF-1alpha drug in cancer therapy with unclear molecular mechanism. In the present study, we aimed to investigate the effect and mechanism of YC-1 on HIF-1alpha in a hepatocellular carcinoma cell line under hypoxic condition, which was generated by incubating cells with 0.1% O(2). The phenotypic and molecular changes of cells were determined by cell proliferation assay, apoptosis assay, luciferase promoter assay, and Western blot analysis. YC-1 arrested tumor cell growth in a dose-dependent manner, whereas it did not induce cell apoptosis. Hypoxia-induced upregulation of HIF-1alpha was suppressed by YC-1 administration. YC-1 inhibited HIF-1alpha protein synthesis under normoxia and affected protein stability under hypoxia. YC-1 suppressed the expression of total and phosphorylated forms of murine double minute 2 (Mdm2), whereas this inhibitory effect was blocked by overexpression of Mdm2. In conclusion, YC-1 suppressed both protein synthesis and stability of HIF-1alpha in HCC cells, and its inhibitory effects on HIF-1alpha were dependent on Mdm2.     

Regulation of vascular smooth muscle cell integrin expression by transforming growth factor beta1 and by platelet-derived growth factor-BB.

We have examined the ability of transforming growth factor-beta 1 (TGF-beta 1) and platelet-derived growth factor-BB (PDGF-BB) to regulate the expression of various integrins in cultured rabbit vascular smooth muscle cells (SMC). We found that expression of the alpha v beta 3 integrin complex was induced by both growth factors, although TGF-beta 1 appeared to be the more potent inducer. mRNA level of the beta 3 integrin subunit was undetectable in quiescent cells and enhanced by both growth factors, while the alpha v integrin subunit mRNA level did not change with growth factor addition. Therefore, appearance of the alpha v beta 3 integrin protein complex after growth factor stimulation was due to increased expression of the beta 3 integrin subunit mRNA. The TGF-beta 1 induced increase in beta 3 integrin mRNA was delayed, but did not require prior protein synthesis, since cycloheximide was unable to block the increase in beta 3 mRNA level. By contrast, PDGF-BB induced a more rapid increase in beta 3 integrin mRNA level that peaked by 6 h after growth factor addition and no detectable beta 3 integrin mRNA remained after 24 h. Interestingly, the PDGF-BB induced elevation of beta 3 integrin, although more rapid, was completely inhibited by cycloheximide. Expression of the alpha 5 integrin subunit in response to growth factors was very similar to beta 3. However, in contrast to beta 3 and alpha 5, neither TGF-beta 1 nor PDGF-BB were able to alter the expression of the beta 1 integrin subunit in vascular SMC. However, in TGF-beta 1 treated cells, there was a large increase in expression of a 190 kDa polypeptide that was associated with the beta 1 integrin subunit. This 190 kDa polypeptide was not detected in PDGF treated SMC or in TGF-beta 1 treated fibroblasts. The alpha 1 integrin subunit has a MW of approximately 190 kDa and is capable of complexing with beta 1. Analysis of the alpha 1 integrin subunit mRNA level indicated that it was indeed induced by TGF-beta 1, but not by PDGF-BB, suggesting that the 190 kDa polypeptide may be the alpha 1 integrin subunit. These results indicate that TGF-beta 1 and PDGF-BB are potent but distinct activators of integrin expression in vascular SMC.