An analysis of high glucose and glucosamine-induced gene expression and oxidative stress in renal mesangial cells

Renal mesangial cells play an important role in the development of diabetic kidney disease. We have previously demonstrated that some of the effects of high glucose on mesangial extracellular matrix (ECM) protein expression are mediated by the hexosamine biosynthesis pathway (HBP) in which fructose-6-phosphate is converted to glucosamine-6-phosphate by the rate-limiting enzyme glutamine:fructose-6-phosphate amidotransferase (GFAT). Using Affymetrix murine expression U430 2.0 oligochips, we examined the global effects of high glucose (HG) and glucosamine (GlcN) on mRNA expression of a mouse mesangial cell line (MES-13). We sought to determine the portion of mRNA expression in MES-13 cells, which is mediated both by high glucose and glucosamine, i.e., via the HBP. Of the 34,000 genes on the chip, approximately 55.7 - 60.8% genes are detected in MES-13 cells. Culturing MES-13 cells for 48 h with HG alters the expression of approximately 389 genes at our preset threshold levels (at least 2-fold change) where 263 genes are up-regulated and 126 genes are down-regulated. GlcN also increases the expression of 106 genes and decreases 94 genes during the same period of incubation. Seventy-two genes in the chip are commonly regulated by HG and GlcN, in which 33 genes are up and 39 genes are down. The mRNA level of thioredoxin interacting protein (TXNIP), an inhibitor of thioredoxin activity, is maximally increased approximately 18.8 and 9.9-fold respectively by HG and GlcN. The differential expression of several genes found in the microarray analysis is further validated by real-time quantitative PCR. Significant biological processes commonly targeted by HG and GlcN are the TXNIP-thioredoxin system, oxidative stress, endoplasmic reticulum (ER) stress, extracellular matrix genes, and interferon-inducible genes. Stable overexpression of TXNIP in MES-13 cells increases glucose and glucosamine-mediated ECM gene expression and oxidative stress. We conclude from these results that the HBP mediates several effects of high glucose on mesangial cell metabolism, which promotes reactive oxygen species generation to cause cellular oxidative stress, ECM gene expression and apoptosis.     

Expression profiles of apoptosis genes in mammary epithelial cells

To investigate apoptosis in HC11 mammary epithelial cells, we compared the gene expression profiles of actively growing and serum-starved apoptotic cells using a mouse apoptosis gene array and 33P-labeled cDNA prepared from the RNA of the two cultures. Analysis of the arrays showed that expression of several genes such as clusterin, secreted frizzled related protein mRNA (sFRP-1), CREB-binding protein (CBP), and others was higher in the apoptotic cells whereas expression of certain genes including survivin, cell division cycle 2 homolog A (CDC2), and cyclin A was lower. These expression patterns were confirmed by RT-PCR and/or Northern analyses. We compared the expression of some of these genes in the mouse mammary gland under various physiological conditions. The expression levels of genes (clusterin, CBP, and M6P-R) up-regulated in apoptotic conditions were higher at involution than during lactation. On the other hand, genes (Pin, CDC2) downregulated in apoptotic conditions were relatively highly expressed in virgin and pregnant mice. We conclude that certain genes such as clusterin, sFRP-1, GAS1 and CBP are induced in apoptotic mammary epithelial cells, and others are repressed. Moreover, the apoptosis array is an efficient technique for comparing gene expression profiles in different states of the same cell type.     

HBXIP基因对乙肝病毒X蛋白诱导细胞凋亡的影响

探讨乙型肝炎病毒X蛋白结合蛋白(hepatitisBXinteractingprotein ,HBXIP)基因在乙型肝炎病毒X蛋白(HBX)诱导肝癌细胞凋亡时对细胞周期的影响.构建HBXIP基因真核表达载体pcDNA3 hbxip ,进行瞬时基因转染,将克隆有HBx基因的pCMV X (分别为1μg、2 μg和3μg)和pcDNA3 hbxip质粒分别和共转染至人H74 0 2肝癌细胞中(总体积分别为5 0 μl) .发现瞬时转染3μgpCMV X质粒后,肝癌细胞凋亡发生率为34 4 % ,肝癌细胞的细胞周期相关蛋白p2 7表达水平发生明显上调;与对照组相比,瞬时转染1μg、2 μg和3μg时,细胞周期蛋白D和细胞周期蛋白E的表达水平均发生明显上调,但随着HBX水平的增加细胞周期蛋白D和细胞周期蛋白E的表达水平发生明显下降;在稳定转染pCMV X质粒的H74 0 2 X肝癌细胞中无明显的细胞凋亡发生,研究发现p2 7的表达水平发生了明显下调,而细胞周期蛋白D和细胞周期蛋白E的表达水平发生了明显上调;当pcDNA3 hbxip质粒与pCMV X质粒进行共瞬时转染时,细胞凋亡发生率由pcDNA3质粒与pCMV X质粒共转染时的2 9 2 %下降为13 3% ,p2 7的表达水平发生了下调,但细胞周期蛋白D和细胞周期蛋白E的表达水平无明显变化.研究结果表明,瞬时转染一定剂量的x基因可导致肝癌细胞发生凋亡,细胞周期相关蛋白p2 7、细胞周期蛋白D和     

Ethylene modulates gene expression in cells of the marine sponge Suberites domuncula and reduces the degree of apoptosis.

Sponges (phylum Porifera) live in an aqueous milieu that contains dissolved organic carbon. This is degraded photochemically by ultraviolet radiation to alkenes, particularly to ethylene. This study demonstrates that sponge cells (here the demosponge Suberites domuncula has been used), which have assembled to primmorphs, react to 5 microM ethylene with a significant up-regulation of intracellular Ca(2+) concentration and with a reduction of starvation-induced apoptosis. In primmorphs from S. domuncula the expression of two genes is up-regulated after exposure to ethylene. The cDNA of the first gene (SDERR) isolated from S. domuncula encodes a potential ethylene-responsive protein, termed ERR_SUBDO; its putative M(r) is 32,704. Data bank search revealed that the sponge polypeptide shares high similarity (82% on amino acid level) with the corresponding plant molecule, the ethylene-inducible protein from Hevea brasiliensis. Until now no other metazoan ethylene-responsive proteins have been identified. The second gene, whose expression is up-regulated in response to ethylene is a Ca(2+)/calmodulin-dependent protein kinase II. Its cDNA, SDCCdPK, encodes a M(r) 54,863 putative kinase that shares 69% similarity with the corresponding enzyme from Drosophila melanogaster. The expression of both genes in primmorphs from S. domuncula is increased by approximately 5-fold after a 3-day incubation period with ethylene. It is concluded that also metazoan cells, with sponge cells as a model, may react to ethylene with an activation of cell metabolism including gene induction.     

应用DNA芯片鉴定HPV18 E6-siRNA诱导HeLa 细胞凋亡的分子机制

高危型人乳头瘤病毒（human papillomavirus,HPV）的E6基因在宫颈癌的发生中起关键作用,特异siRNA能有效抑制宫颈癌HeLa 细胞内HPV18 E6基因的表达,诱导肿瘤细胞凋亡.为进一步探讨HPV18 E6-siRNA诱导HeLa 细胞凋亡的分子机制,针对HPV18-E6基因设计siRNA序列,利用人源U6启动子为模板,经PCR表达框架法体外扩增,转染宫颈癌HeLa细胞抑制HPV18 -E6基因表达,从而诱导肿瘤细胞凋亡.对转染前后HeLa细胞总RNA样品进行荧光标记后,与Agilent Human 1A寡核苷酸芯片杂交、扫描、数据分析及标准化处理,确定表达差异的基因并经荧光定量PCR对部分基因进行验证,结合PANTHER数据分析系统,将这些基因按照生物学功能进行归类,查阅GenBank数据库及相关文献,对其结果进行深入分析及讨论.在检测的18 716个基因和EST中,共筛出差异表达基因359个,其中307个基因表达上调,52个基因表达下调,主要包括细胞周期相关基因CCNG1、p21;凋亡相关基因CASP4、CASP6、IGFBP3、DFFA;泛素蛋白酶解途径相关基因E6-AP、UBE2C;角化细胞分化相关基因KRT4、KRT6E、KRT18;抑癌基因RECK、VHL等.研究结果表明,HPV18 -E6基因抑制引起的细胞凋亡效应主要是通过P53信号途径和泛素蛋白酶解信号途径调节细胞周期相关基因和凋亡相关基因的表达,从而抑制HeLa细胞增殖、促进细胞凋亡.同时,抑癌基因的激活,角化细胞分化和免疫相关基因的表达上调,都说明了E6抑制后肿瘤细胞恶性转化程度的下降.     

Gene expression profiling in apoptotic k562 cells treated by homoharringtonine

Gene chip technology was used to determine the gene expression profiles in apoptotic K562 cells induced by homoharringtonine. The expression of forty-four mRNAs was found to be changed significantly were identified after screening with a gene chip capable of detecting 14,218 different human mRNA species simultaneously. Of these genes, 17 were up-regulated and 27 were down-regulated. Most of them were found to be related to apoptosis, oncogenes, or tumor suppression. Several genes with altered gene expression, such as human transforming growth factor-beta inducible early protein gene （TIEG）, vitamin D3 upregulated protein 1 gene （VDUP1）, RNA binding motif protein 4 gene （RBM4） and v-myc myelocytomatosis viral oncogene homolog （C-MFC）, were confirmed by Northern blot analysis. According to the dynamic gene expression pattern in these apoptotic cells, the activated transforming growth factor-β and tumor necrosis factor signaling pathways play an important role in homoharringtonine-induced apoptosis. TIEG was significantly altered after apoptosis induction, it should be critical for apoptosis signal transmission.     

The Potential Neuroprotection Mechanism of GDNF in the 6-OHDA-Induced Cellular Models of Parkinson’s Disease

The glial cell line-derived neurotrophic factor (GDNF) potential as a therapeutic agent for the treatment of Parkinson’s Disease (PD) has been extensively explored. However, the mechanism of the GDNF neuroprotective effects is still unclear. In this study, the neuroprotective mechanism of the GDNF in the PD cellular models, which was obtained by the 6-hydroxydopamine (6-OHDA)-induced dopaminergic (DA) cell line MN9D damage was investigated by microarray. Interestingly, 54 constitutively increased or decreased genes were detected, 17 of which have not been reported previously. The expression of 5 up-regulated and 5 down-regulated genes which displayed the most obvious changes compared to the no GDNF treatment cells and was previously proven to be related to cell survival was validated by real-time PCR and western blot. Moreover, the up-regulated gene Ager and down-regulated gene Ccnl2 which were related to the PI-3K/Akt signaling pathway, but not researched in the neuron-cells, were investigated by overexpression and RNA interference. Overexpression of Ager or knockdown the expression of Ccnl2 decreased the damage to MN9D cells caused by 6-OHDA and reduced their apoptosis. All these results suggested that the protective effects of the GDNF on the 6-OHDA damaged MN9D cells could be understood by enhancing the expression of the apoptosis inhibiting genes and decreasing the expression of the apoptosis promoting genes. Thus, this study might provide a number of specific candidates and potential targets to investigate the protective mechanism of GDNF in DA neurons.     

不同氮素供应下水稻酚类物质代谢关键酶基因差异表达

运用实时荧光定量PCR技术探讨了不同供氮条件下强化感与弱化感水稻苯丙烷代谢途径中9个关键酶基因的表达差异。结果表明,与正常氮素供应相比,低氮胁迫引起强化感水稻‘P1312777’中与酚类代谢途径相关的9个关键酶基因表达量均上调,表达量增幅在1.9～5.4倍之间,且以PAL基因上调倍数最大。而弱化感水稻‘Lemont’则相反,只有2个基因(苯丙氨酸裂解酶基因和肉桂酰CoA基因)表达上调,但上调倍数分别是强化感水稻对应的基因的22%和74%,其余的7个基因表达均下调,降幅在29%～72%之间,表明低氮胁迫诱发的水稻化感抑草能力增强与其体内酚类物质合成代谢增强有关。     

Gene expression spectra in human leukemia HL-60 cells treated with EGCG

To decipher the molecular mechanism of EGCG induced HL-60 cell apoptosis, alterations of gene expression spectra in HL-60 cell line cells after treatment with EGCG were screened by cDNA chip, and analyzed with the GenePix 3.0 twice; and the cDNA chip results further identified by RT-PCR. Ninety-seven genes among the total 8398 (1.15%) showed consistent significant differential expression in the duplicated cDNA chip assessments. Thirty-nine genes (40.2%) were up-regulated and 58 genes (59.8%) were down-regulated; and the randomly selected four performed RT-PCR results agreed with the cDNA chip data. The results suggest that the apoptosis of HL-60 cells induced by EGCG is a progressive transformation process regulated by a variety of genes.     

Ribonuclease binase apoptotic signature in leukemic Kasumi-1 cells

Cytotoxic exogenous RNases triggering apoptotic response in malignant cells have potential as anticancer drugs; surprisingly, detailed characterization of the RNase-induced apoptosis has not been conducted so far. Here we show that a cytotoxic RNase from Bacillus intermedius (binase) induces extrinsic and intrinsic apoptotic pathways in leukemic Kasumi-1 cells. The experiments were performed using TaqMan Array Human Apoptosis 96-well Plate for gene expression analysis, and flow cytometry. Cytometric studies demonstrated dissipation of the mitochondrial membrane potential, opening of mitochondrial permeability transition pores, activation of caspases, increase of intracellular Ca²⁺ and decrease of reactive oxygen species levels. We found that expression of 62 apoptotic genes is up-regulated, including 16 genes that are highly up-regulated, and only one gene was found to be down-regulated. The highest, 16 fold increase of the expression level was observed for TNF gene. Highly up-regulated genes also include the non-canonical NF-κB signaling pathway and inflammatory caspases 1,4. The obtained results suggest that binase induces evolutionary acquired cellular response to a microbial agent and triggers unusual apoptosis pathway.     

Identification of differentially expressed genes contributing to radioresistance in lung cancer cells using microarray analysis

Radiotherapy has played a key role in the control of tumor growth in many cancer patients. It is usually difficult to determine what fraction of the tumor cell population is radioresistant after a course of radiotherapy. The response of tumor cells to radiation is believed to be accompanied by complex changes in the gene expression pattern. It may be possible to use these to sensitize radioresistant tumor cells and improve radiocurability. Based on the biological effects of ionizing radiation, in the present study, we developed one oligonucleotide microarray to analyze the expression of 143 genes in cells of two lung cancer cell lines with different radiosensitivities. Compared to NCI-H446 cells, expression of 18 genes significantly increased the basal levels in the radioresistant A549 cells, in which eight genes were up-regulated and 10 genes were down-regulated. In A549 cells irradiated with 5 Gy, 22 (19 up-regulated and three down-regulated) and 26 (eight up-regulated and 18 down-regulated) differentially expressed genes were found 6 and 24 h after irradiation, respectively. In NCI-H446 cells, the expression of 17 (nine up-regulated and eight down-regulated) and 18 (six up-regulated and 12 down-regulated) genes was altered 6 and 24 h after irradiation, respectively. RT-PCR was performed, and we found that MDM2, BCL2, PKCZ and PIM2 expression levels were increased in A549 cells and decreased in NCI-H446 cells after irradiation. Genes involved in DNA repair, such as XRCC5, ERCC5, ERCC1, RAD9A, ERCC4 and the gene encoding DNA-PK, were found to be increased to a higher level in A549 cells than in NCI-H446 cells. Antisense suppression of MDM2 resulted in increased radiosensitivity of A549 cells. Taken together, these results demonstrate the possibility that a group of genes involved in DNA repair, regulation of the cell cycle, cell proliferation and apoptosis is responsible for the different radioresistance of these two lung cancer cells. This list of genes may be useful in attempts to sensitize the radioresistant lung cancer cells.     

Differential gene expression in gamma-irradiated BALB/3T3 fibroblasts under the influence of 3-aminobenzamide,an inhibitior of parp enzyme

3-Aminobenzamide (3AB) is an inhibitor of poly (ADP-ribose) polymerase (PARP), an enzyme implicated in the maintenance of genomic integrity, which is activated in response to radiation-induced DNA strand breaks. cDNA macroarray membranes containing 1536 clones were used to characterize the gene expression profiles displayed by mouse BALB/3T3 fibroblasts (A31 cell line) in response to ionizing irradiation alone or in combination with 3AB. A31 cells in exponential growth were pre-treated with 3AB 4mM 1h before gamma-irradiation (4Gy), remaining in culture during 6h until harvesting time. A31 cells treated with 3AB alone presented a down-regulation in genes involved in protein processing and cell cycle control, while an up-regulation of genes involved in apoptosis and related to DNA/RNA synthesis and repair was verified. A31 cells irradiated with 4Gy displayed 41 genes differentially expressed, being detected a down-regulation of genes involved in protein processing and apoptosis, and genes controlling the cell cycle. Concomitantly, another set of genes for protein processing and related to DNA/RNA synthesis and repair were found to be up-regulated. A positive or negative interaction effect between 3AB and radiation was verified for 29 known genes. While the combined treatment induced a synergistic effect on the expression of LCK proto-oncogene and several genes related to protein synthesis/processing, a negative interaction effect was found for the expression of genes related to cytoskeleton and extracellular matrix assembly (SATB1 and Anexin III), cell cycle control (tyrosine kinase), and genes participating in DNA/RNA synthesis and repair (RNA helicase, FLAP endonuclease-1, DNA-3 glycosylase methyladenine, splicing factor SC35 and Soh1). The present data open the possibility to investigate the direct participation of specific genes, or gene products acting in concert in the mechanism underlying the cell response to radiation-induced DNA damage under the influence of PARP inhibitor.     

5-Fluorouracil (5-FU) induced apoptosis in gastric cancer cell lines: role of the p53 gene

We examined chemosensitivity to 5-fluorouracil (5-FU) in four human gastric cancer cell lines, by analyzing the expression of p53 and its related genes. Treatment with 1mM 5-FU induced variable degrees of apoptosis in the cultured cells. The apoptotic indices 72 h after treatment were approximately 14% in MKN-74 (wild-type p53 gene), 12% in MKN-45 (wild-type), 3% in MKN-28 (mutated) and 0.5% in KATO-III cells (deleted), respectively. On the other hand, 50 M 5-FU had little effect on the induction of apoptosis in MKN-74 cells, the value being approximately 2% after 72 h. Induction of P53 expression was noted 3 h after initiating the treatment, followed by the induction of P21/Waf1 after 6 h in both MKN-74 and MKN-45 cells. The same expression mode was noted in MKN-74 treated with 50 M 5-FU. Conversely, the level of P53 expression was constant in MKN-28 cells and absent in KATO-III cells, in which P21/Waf1 had never been induced. The Bax/Bcl-2 expression ratio was gradually elevated for up to 72 h in MKN-74 and MKN-45 cells treated with 1mM 5-FU; in contrast, it was unchanged in MKN-28 and KATO-III cells, and MKN-74 treated with 50 M 5-FU. These results might indicate that (1) 1mM 5-FU induces apoptosis in cultured gastric cancer cells carrying the wild-type p53 gene, but not those carrying the mutated type or a gene deletion, and (2) the elevated Bax/Bcl-2 expression ratio plays a more crucial role than the higher expression of P21/Waf1 in the induction of p53- gene dependent apoptosis.