Rho GTPases对肿瘤血管生成相关分子的作用

探讨RhoGTPases的 3个主要分子RhoA、Rac1和Cdc4 2对肿瘤血管生成相关分子的作用 .构建负显性RhoA、Rac1和Cdc4 2的真核表达质粒 ,在Lipofectamine2 0 0 0 介导下转染胃癌细胞AGS ,应用ELISA检测细胞培养上清中VEGF的含量 ,应用Western印迹检测肿瘤血管生成相关分子HIF 1α、P5 3和PTEN的表达水平 .成功地构建了负显性RhoA、Rac1和Cdc4 2的真核表达质粒 ,转染胃癌细胞AGS并经G4 18筛选出单克隆 .ELISA表明转染细胞培养上清中VEGF的含量可被明显抑制 ;Western印迹表明 ,负显性RhoGTPases在蛋白水平上可下调HIF 1α表达水平 ,上调P5 3的表达水平 .结果表明 ,Rho家族的 3个主要分子可能通过调节血管生成相关分子的表达来促进肿瘤血管生成 .     

Retinoblastoma-independent regulation of cell proliferation and senescence by the p53-p21 axis in lamin A /C-depleted cells

The expression of A-type lamin is downregulated in several cancers, and lamin defects are the cause of several diseases including a form of accelerated aging. We report that depletion of lamin A/C expression in normal human cells leads to a dramatic downregulation of the Rb family of tumor suppressors and a defect in cell proliferation. Lamin A/C-depleted cells exhibited a flat morphology and accumulated markers of cellular senescence. This senescent phenotype was accompanied by engagement of the p53 tumor suppressor and induction of the p53 target gene p21 and was prevented by small hairpin RNAs against p53, p21, or by the oncoprotein Mdm2. The expression of E2F target genes, normally required for cell cycle progression, was downregulated after lamin A/C depletion but restored after the inactivation of p53. A similar senescence response was observed in myoblasts from a patient with a lamin A mutation causing muscular dystrophy. We thus reveal a previously unnoticed mechanism of controlling cell cycle genes expression, which depends on p53 but does not require the retinoblastoma family of tumor suppressors and that can be relevant to understand the pathogenesis of laminopathies and perhaps aging.     

ARHGEF10L contributes to liver tumorigenesis through RhoA-ROCK1 signaling and the epithelial-mesenchymal transition

Aberrant activity of Rho small G-proteins and their regulators plays an important role in tumorigenesis. Rho guanine nucleotide exchange factor 10-Like (ARHGEF10L) is a member of the RhoGEF family that promotes the active GTP-bound state of Rho GTPases. This study used the Illumina GoldenGate microassay, Sequenom MassARRAY and TaqMan to analyze possible correlations between tag single nucleotide polymorphisms (tag SNPs) in the ARHGEF10L locus and various tumor risks. The genotyping analyses demonstrated a strong association of rs2244444 and rs12732894 with liver cancer. Western blotting and immunohistochemistry also revealed increased expression of ARHGEF10L in hepatocellular carcinoma tissues. Furthermore, increased cell proliferation, cell migration and RhoA activity; increased expression of Rho-associated coiled-coil kinase-1 (ROCK1), phospho- Ezrin/Radixin/Moesin (ERM), vimentin, N-cadherin and Slug, and decreased E-cadherin expression were detected in hepatocellular carcinoma cell Bel-7402 and HepG2 cells with transfection of ARHGEF10L-expressing plasmids. Opposite results were obtained in the two cell lines with transfection of anti-ARHGEF10L siRNA. Tumor-bearing mice were generated with Bel-7402 cells transfected with lentivirus vectors packaging short hairpin ARHGEF10L RNA. The xenograft tumors with the inhibited ARHGEF10L expression showed decreased tumor growth and expression of vimentin, N-cadherin and Slug. Additionally, decreased phospho-ERM expression was detected in Bel-7402 and HepG2 cells with transfection of anti-ROCK1 siRNA and increased expression of ROCK1 was detected in hepatocellular carcinoma tissues. E-cadherin, vimentin, N-cadherin and Slug are markers of the epithelial-to-mesenchymal transition (EMT). ROCK1, phospho-ERM and EMT have been reported to promote tumor cell proliferation, metastasis and angiogenesis. Our study suggests that increased expression of ARHGEF10L stimulates hepatocellular tumorigenesis by activating the RhoA-ROCK1- phospho ERM pathway and EMT.     

Silencing of calpain expression reduces the metastatic potential of human osteosarcoma cells

Osteosarcoma, the most common primary bone tumor in young adults, is characterized by local invasion and distant metastasis. But detailed mechanisms of tumorigenicity and metastasis of osteosarcoma are not well known. We report the involvement of calpains, a family of calcium-activated, cysteine proteases, in the invasive and metastatic processes of human osteosarcoma cells. By using siRNA treatment, the expression of μ- and m-calpains were downregulated in human Saos-2 osteosarcoma cells. Both the adhesive and invasive potentials were significantly attenuated in calpain siRNA-transfected human Saos-2 osteosarcoma cells. MMPs are the main factors involved in malignant tumor invasion and metastasis. siRNA of calpains also significantly inhibited the secretion of MMP-2 in Saos-2 cells. These results suggest that μ- and m-calpains are important in the invasion and metastasis of human osteosarcoma cells, and calpains might be targeted to reduce tumor progression.     

p21活化激酶的生物学活性及其与肿瘤的关系

p21活化激酶(p21-activatedkinase,PAK),为一类进化上保守的丝氨酸/苏氨酸蛋白激酶。PAK在许多组织中广泛表达,作为小G蛋白Rho家族Cdc42和Rac1的下游靶蛋白,可以被生长因子及其他胞外信号通过GTP酶依赖的信号通路或非GTP酶依赖的信号通路活化,发挥多种生物学效应。PAK作为一种重要的生物学调节因子,在哺乳动物一系列细胞功能中具有重要作用,如:细胞运动、细胞生存、细胞周期、血管生成、基因转录调节及癌细胞的侵袭转移。通过对PAK家族成员信号转导机制的研究,为癌症治疗提供分子靶标。     

Regulation of angiogenesis and tumor growth by p110 alpha and AKT1 via VEGF expression

Recent studies demonstrate that PI3K activation and PTEN mutation are frequently found in many human cancer cells and tissues. However, the mechanism of PI3K signaling in human cancer tumorigenesis remains to be elucidated. In this study we specifically downregulated p110alpha expression in ovarian cancer cells using siRNA interference. We found that p110alpha downregulation greatly decreased ovarian tumor growth and angiogenesis, and that p110alpha siRNA inhibited VEGF expression through decreasing hypoxia-inducible factor 1alpha expression in both ovarian cancer cells and tumor tissues. To determine the downstream targets of PI3K in regulating tumor growth and angiogenesis, we find that AKT1 is a major downstream mediator for regulating tumor growth, angiogenesis, and VEGF expression. These data show that p110alpha and AKT1 play an important role in tumor growth by inducing angiogenesis and by increasing HIF-1alpha and VEGF expression. This work provides a better understanding of the molecular mechanism of human cancer induced by the activation of PI3K signaling.     

The E3 ligase HACE1 is a critical chromosome 6q21 tumor suppressor involved in multiple cancers

Transformation and cancer growth are regulated by the coordinate actions of oncogenes and tumor suppressors. Here, we show that the novel E3 ubiquitin ligase HACE1 is frequently downregulated in human tumors and maps to a region of chromosome 6q21 implicated in multiple human cancers. Genetic inactivation of HACE1 in mice results in the development of spontaneous, late-onset cancer. A second hit from either environmental triggers or genetic heterozygosity of another tumor suppressor, p53, markedly increased tumor incidence in a Hace1-deficient background. Re-expression of HACE1 in human tumor cells directly abrogates in vitro and in vivo tumor growth, whereas downregulation of HACE1 via siRNA allows non-tumorigenic human cells to form tumors in vivo. Mechanistically, the tumor-suppressor function of HACE1 is dependent on its E3 ligase activity and HACE1 controls adhesion-dependent growth and cell cycle progression during cell stress through degradation of cyclin D1. Thus, HACE1 is a candidate chromosome 6q21 tumor-suppressor gene involved in multiple cancers.     

Screening and test of CD40 related signal transduction pathway in AGS cells and construction of gene silencing vector

This study is designed to screen the CD40 related signal transduction pathway in AGS cells and construction of gene silencing vector. Analysis results showed 414 differential genes expression, including upregulation of 209 genes and downregulation of 205 genes. Basing on the ratio of signal in experimental group to signal in control group, 45 genes (38 genes upregulation and seven genes downregulation) with significant (P < 0.01) change in expression levels were screened according to the screening standard (signal log ratio ≥1 or ≤?1). These genes involved into metabolism, cell cycle and apoptosis, signal transduction and stress response. Furthermore, PI3K mRNA expression level in PI3K siRNA transfected AGS cells was 0.2335 ± 0.0116 72 h after transfection. This value was significantly (P < 0.05) lower than that in blank and negative control groups. PI3K protein expression in PI3K siRNA transfected AGS cells was significantly (P < 0.05) lower than that in blank and PI3K siRNA/N transfected groups. Therefore, PI3K siRNA gene silencing vector can significantly inhibit PI3K mRNA and protein expression in AGS cells.     

Rho GAPs and GEFs: Controling switches in endothelial cell adhesion

Within blood vessels, endothelial cell–cell and cell–matrix adhesions are crucial to preserve barrier function, and these adhesions are tightly controlled during vascular development, angiogenesis, and transendothelial migration of inflammatory cells. Endothelial cellular signaling that occurs via the family of Rho GTPases coordinates these cell adhesion structures through cytoskeletal remodelling. In turn, Rho GTPases are regulated by GTPase-activating proteins (GAPs) and guanine nucleotide exchange factors (GEFs). To understand how endothelial cells initiate changes in the activity of Rho GTPases, and thereby regulate cell adhesion, we will discuss the role of Rho GAPs and GEFs in vascular biology. Many potentially important Rho regulators have not been studied in detail in endothelial cells. We therefore will first overview which GAPs and GEFs are highly expressed in endothelium, based on comparative gene expression analysis of human endothelial cells compared with other tissue cell types. Subsequently, we discuss the relevance of Rho GAPs and GEFs for endothelial cell adhesion in vascular homeostasis and disease.     

Ligation or cross-linking of CD40 has different effects on AGS gastric cancer cells

A gastric cancer (GC) cell line, AGS, has high-level expression of CD40, a tumor necrosis factor receptor (TNFR) family member. CD40 is present on the surfaces of a large variety of cells, including B cells, endothelial cells, dendritic cells and some carcinoma cells, and delivers signals regulating diverse cellular responses, such as proliferation, differentiation, growth suppression, and cell death. In this research, we studied the effects of different forms of CD40 stimulation on AGS cells by flow cytometry, Western blotting and siRNA transfection. We found that different forms of CD40 stimulation, either recombinant soluble CD40L (sCD40L, ligation) or agonist anti-CD40 antibody (cross-linking), induced different effects in AGS gastric cancer cells, proliferation or apoptosis. We also showed that VEGF provided a significant contribution to sCD40L-induced proliferation, while agonist anti-CD40 antibody induced GADD45 upregulation and promoted apoptosis.     

Involvement of plasmin-mediated extracellular activation of progalanin in angiogenesis

Progalanin is released from the small cell lung carcinoma line SBC-3A and converted to its active form by plasmin. To elucidate the role of progalanin activation in the extracellular compartment, matrix metalloproteinase (MMP) activity was studied in SBC-3A cells treated with progalanin siRNA, and angiogenesis was measured in tumor tissue originating from SBC-3A cell transplantation into mice. Progalanin siRNA caused downregulation of progalanin expression for approximately 8 days. MMP activity and angiogenesis were reduced in tumors induced by transplantation of progalanin siRNA-treated SBC-3A cells. In contrast, MMP-9 and MMP-2 activity and angiogenesis increased in tumors originating from progalanin siRNA-treated SBC-3A cells in the presence of galanin and progalanin. Furthermore, injection of tranexamic acid, a plasmin inhibitor, more markedly reduced MMP-9 and MMP-2 activity and angiogenesis in tumors originating from progalanin siRNA-treated SBC-3A cells and in tumor tissue originating from progalanin siRNA-treated SBC-3A cells in the presence of progalanin. The reduction of MMP-9 and MMP-2 activity with tranexamic acid was restored by galanin, but not by progalanin. Moreover, tranexamic acid reduced angiogenesis in control siRNA-treated SBC-3A cells. These results suggest that the activation of progalanin by plasmin in the extracellular compartment was involved in MMP-9 and MMP-2 activation and in angiogenesis in tumor tissue.     

Proteomics-based strategy to delineate the molecular mechanisms of RhoGDI2-induced metastasis and drug resistance in gastric cancer

Rho GDP dissociation inhibitor 2 (RhoGDI2) was initially identified as a regulator of the Rho family of GTPases. Our recent works suggest that RhoGDI2 promotes tumor growth and malignant progression, as well as enhances chemoresistance in gastric cancer. Here, we delineate the mechanism by which RhoGDI2 promotes gastric cancer cell invasion and chemoresistance using two-dimensional gel electrophoresis (2-DE) on proteins derived from a RhoGDI2-overexpressing SNU-484 human gastric cancer cell line and control cells. Differentially expressed proteins were identified using matrix-assisted laser desorption ionization-time-of-flight mass spectrometry (MALDI-TOF-MS). In total, 47 differential protein spots were identified; 33 were upregulated, and 14 were downregulated by RhoGDI2 overexpression. Upregulation of SAE1, Cathepsin D, Cofilin1, CIAPIN1, and PAK2 proteins was validated by Western blot analysis. Loss-of-function analysis using small interference RNA (siRNA) directed against candidate genes reveals the need for CIAPIN1 and PAK2 in RhoGDI2-induced cancer cell invasion and Cathepsin D and PAK2 in RhoGDI2-mediated chemoresistance in gastric cancer cells. These data extend our understanding of the genes that act downstream of RhoGDI2 during the progression of gastric cancer and the acquisition of chemoresistance.     

Glioma angiogenesis: Towards novel RNA therapeutics

Brain tumors exhibit marked and aberrant blood vessel formation indicating angiogenic endothelial cells as a potential target for brain tumor treatment. The brain tumor blood vessels are used for nutrient delivery, and possibly for cancer cell migration. The process of angiogenesis is complex and involves multiple players. The current angiogenesis inhibitors used in clinical trials mostly target single angiogenic proteins and so far show limited effects on tumor growth. Besides the conventional angiogenesis inhibitors, RNA-based inhibitors such as small-interfering RNAs (siRNAs) are being analyzed for their capacity to silence the message of proteins involved in neovascularization. More recently, a new family of non-coding RNAs, named angiomirs [microRNAs (miRNAs) involved in angiogenesis] has emerged. These small RNAs have the advantage over siRNAs in that they have the potential of silencing multiple messages at the same time and therefore they might become therapeutically relevant in a “one-hit multiple-target” context against brain tumor angiogenesis. In this review we will discuss the emerging technologies in anti-angiogenesis emphasizing on RNA-based therapeutics.Key words: glioma, angiogenesis, anti-angiogenesis therapy, siRNA, miRNA, endothelial cells, blood vessels     

Inhibition of endothelial cell proliferation and tumor angiogenesis by up-regulating NDRG2 expression in breast cancer cells

The N-myc downstream-regulated gene 2 (NDRG2) is involved in tumor cell differentiation and apoptosis, but its function in tumor angiogenesis remains to be established. Here, we employed adenovirus overexpressing NDRG2 (Ad-NDRG2) to efficiently up-regulate target gene expression in the NDRG2-low-expressing, breast cancer cell line MCF-7. Moreover, VEGF secretion was decreased in MCF-7 cells infected by Ad-NDRG2, and medium conditioned by these infected cells could significantly inhibit the proliferation, tube formation and invasion of human umbilical vein endothelial cells (HUVECs). Further study indicated that the angiogenesis promoting factors VEGF and HIF-1α were down-regulated, whereas the angiogenesis suppressing factors p53 and VHL were up-regulated in MCF-7 cells infected by Ad-NDRG2. Finally, in a nude mouse model, intratumoral injections of Ad-NDRG2 every 3 days for 20 days significantly inhibited the growth and angiogenesis of xenografted MCF-7 tumors. In summary, these data indicate that NDRG2 may be involved in angiogenesis by impacting the expression of angiogenesis related factors. Thus, specific overexpression of NDRG2 by adenovirus represents a promising approach for the treatment of tumor angiogenesis.     

p53siRNA therapy reduces cell proliferation, migration and induces apoptosis in triple negative breast cancer cells

p53 protein is probably the best known tumor suppressor. Earlier reports proved that human breast cancer cells expressing mutant p53 displayed resistance to apoptosis. This study is intended to investigate, the potential applications of RNA interference (RNAi) to block p53 expression, as well as its subsequent effect on cell growth, apoptosis and migration on a triple negative human breast cancer cell line (Hs578T). p53siRNA significantly reduced cell index (CI) compared to the control and we observed an inhibition of cellular migration in the interval of time between 0 and 30 h, as shown in the data obtained by dynamic evaluation using the xCELLigence System. Also, by using PCR-array technology, a panel of 84 key genes involved in apoptosis was investigated. Our studies indicate that the knockdown of p53 expression by siRNA modulates several genes involved in cell death pathways and apoptosis, showing statistically significant gene expression differences for 22 genes, from which 18 were upregulated and 4 were downregulated. The present research also emphasizes the important role of BCL-2 pro-apoptotic family of genes (Bim, Bak, and Bax) in activating apoptosis and reducing cell proliferation by p53siRNA treatment. Death receptors cooperate with BCL-2 pro-apoptotic genes in reducing cell proliferation. The limited success may be due to the activation of the antiapoptotic gene Mcl-1, and it may be associated with the resistance of triple negative breast cancer cells to cancer treatment. Thus, targeting p53siRNA pathways using siRNA may serve as a promising therapeutic strategy for the treatment of breast cancers.     

MEKK2基因siRNA重组腺病毒表达载体的构建及其对MEKK2的表达抑制

设计并合成针对人MEKK2基因3个不同部位siRNA靶点的模板DNA序列,将合成的互补片段退火后克隆入pRNAT-H1.1/Adeno穿梭载体中,并使其在大肠杆菌BJ5183中与腺病毒骨架质粒pAdEasy-1进行同源重组。将经鉴定正确的重组腺病毒质粒转染293A细胞,包装得到具有感染能力的pAd-MEKK2-siRNA重组腺病毒。病毒体外转导人胃腺癌AGS细胞,Western blot印迹法检测其对MEKK2表达的抑制。经酶切和测序鉴定均证实pAd-MEKK2-siRNA重组腺病毒载体构建成功,其插入序列正确无误。Western blot印迹检测结果显示,重组腺病毒表达载体可抑制MEKK2基因的表达,以pAd-MEKK2-siRNA2（针对MEKK2 cDNA 992-1 010的片段）抑制效果为最佳,pAd-MEKK2-siRNA1（针对MEKK2 cDNA 1 456-1 474的片段）和pAd-MEKK2-siRNA3（针对MEKK2 cDNA 1 351-1 369的片段）则未见明显的抑制效果。DNA Ladder和细胞存活测定结果表明,敲减MEKK2的表达后,AGS细胞接受H2O2刺激后的凋亡受到较强抑制、细胞存活数增加,明显高于野生型细胞和转导siRNA阴性对照腺病毒细胞接受H2O2刺激后的,差异具有统计学意义（P〈0.05）,而后两者之间差异无统计学意义（P〉0.05）。该研究成功地构建了针对MEKK2基因的siRNA重组腺病毒载体,为进一步深入研究MEKK2基因在人胃腺癌细胞中的作用和功能奠定了基础。