Radiation-induced alterations in rat mesangial cell Tgfb1 and Tgfb3 gene expression are not associated with altered secretion of active Tgfb isoforms

Despite evidence of selective radiation-induced modulation of expression of rat mesangial cell Tgfb gene isoforms, it is unclear whether these changes in gene expression are accompanied by changes in protein secretion. To address this issue, primary cultures of rat mesangial cells (passage number 6- 11) were placed in serum-free medium 24 h prior to irradiation with single doses of 0.5-20 Gy of (137)Cs gamma rays. After irradiation, cells were maintained in serum-free medium for a further 24 h. Irradiation of quiescent mesangial cells resulted in a significant (P 相似文献   

氧化低密度脂蛋白促进培养的人肾小球系膜细胞LOX-1表达

目的:研究氧化低密度脂蛋白(Ox-LDL)对人肾小球系膜细胞植物血凝素样受体(lectin-like oxidized low-density lipoprotein receptor,LOX-1)表达。方法:不同浓度的Ox-LDL和培养的人肾小球系膜细胞共孵育,应用Real-time PCR和Western Blot方法检测Ox-LDL对人肾小球系膜细胞LOX-1表达的影响。结果:Ox-LDL剂量和时间依赖性促进人肾小球系膜细胞LOX-1mRNA和蛋白表达。Ox-LDL 40μg/mL刺激细胞0-24小时,于12小时达峰值。Ox-LDL 10、20、40、60μg/mL分别作用于细胞12小时,40μg/mL组达到峰值,为基础值的3.73倍。Ox-LDL 40μg/mL刺激细胞0-24小时,LOX-1蛋白24小时达高峰,Ox-LDL 10、20、40、60μg/mL分别作用细胞24小时,40μg/mL组细胞LOX-1蛋白达到峰值,为基础值的1.81倍。结论:Ox-LDL在一定浓度范围内剂量和时间依赖性促进人肾小球系膜细胞LOX-1表达。     

Differential expression of oxidative stress and extracellular matrix remodeling genes in low- or high-dose-rate photon-irradiated skin

Changes in the expression of genes implicated in oxidative stress and in extracellular matrix (ECM) remodeling and selected protein expression profiles in mouse skin were examined after exposure to low-dose-rate or high-dose-rate photon irradiation. ICR mice received whole-body γ rays to total doses of 0, 0.25, 0.5 and 1 Gy at dose rates of 50 cGy/h or 50 cGy/min. Skin tissues were harvested for characterization at 4 h after irradiation. For oxidative stress after low-dose-rate exposure, 0.25, 0.5 and 1 Gy significantly altered 27, 23 and 25 genes, respectively, among 84 genes assessed (P < 0.05). At doses as low as 0.25 Gy, many genes responsible for regulating the production of reactive oxygen species (ROS) were significantly altered, with changes >2-fold compared to 0 Gy. For an ECM profile, 18-20 out of 84 genes were significantly up- or downregulated after low-dose-rate exposure. After high-dose-rate irradiation, of 84 genes associated with oxidative stress, 16, 22 and 22 genes were significantly affected after 0.25, 0.5 and 1 Gy, respectively. Compared to low-dose-rate radiation, high-dose-rate exposure resulted in different ECM gene expression profiles. The most striking changes after low-dose-rate or high-dose-rate exposure on ECM profiles were on genes encoding matrix metalloproteinases (MMPs), e.g., Mmp2 and Mmp15 for low dose rate and Mmp9 and Mmp11 for high dose rate. Immunostaining for MMP-2 and MMP-9 proteins showed radiation dose rate-dependent differences. These data revealed that exposure to low total doses with low-dose-rate or high-dose-rate photon radiation induced oxidative stress and ECM-associated alterations in gene expression profiles. The expression of many genes was differentially regulated by different total dose and/or dose-rate regimens.     

Induction of thioredoxin by ultraviolet-A radiation prevents oxidative-mediated cell death in human skin fibroblasts

The present study analyzes the expression of the thioredoxin/thioredoxin reductase (Trx/TR) system in UVA-irradiated human skin fibroblasts. Irradiation increases the intracellular level of Trx and a time-dependent increase of Trx mRNA is observed. Our data indicate that Trx translocates from the cytoplasm to the nucleus. In addition, UV exposure results in an increase in TR synthesis. In order to evaluate the function of Trx/TR system, we investigated the antioxidant role of Trx in transient transfected cells. The ROS accumulation in UVA irradiated cells was assessed using flow cytometry. A 3-fold decrease in ROS production was observed in transiently transfected fibroblasts. These results indicate that Trx acts as an antioxidant protein in UVA irradiated fibroblasts. As ROS are inducers of cell death, this raises the question as to whether Trx is able to protect cells from apoptosis and/or necrosis induced by UVA. Six hours after UVA-irradiation, 29.92% of cells were annexin-V positive. This population was significantly reduced in Trx-transfected cells (8.58%). Moreover, this work demonstrates that Trx prevents the loss of the membrane potential of the mitochondria, the depletion of cellular ATP content, and the loss of cell viability induced by irradiation.     

Irradiation of rat mesangial cells alters the expression of gene products associated with the development of renal fibrosis.

To determine the ability of radiation to modulate mesangial cell expression of various molecules involved in promoting extracellular matrix (ECM) accumulation [fibronectin, plasminogen activator-inhibitor 1 (Pai1), and tissue inhibitor of metalloproteinase-2 (Timp2)] and degradation (Tgfb, plasminogen activators u-PA or t-PA, matrix metalloproteinases Mmp2 and Mmp9), primary cultures of rat mesangial cells (passage number 6-11) were placed in serum-free medium 24 h prior to irradiation with single doses of 0.5-20 Gy (137)Cs gamma rays. After irradiation, cells were maintained in serum-free medium for a further 48 h. Irradiation of quiescent mesangial cells resulted in significant (P < 0.05) time- and dose-dependent increases in Fn and Pai1 mRNA and/or immunoreactive protein. Despite an increase in Tgfb1 mRNA, there was little evidence for an increase in total Tgfb protein. Indeed, active levels remained unaltered after irradiation. Irradiation led to differential changes in MMP expression; active Mmp2 levels increased, while Mmp9 levels appeared unaltered. In addition, secretion of plasminogen activators into the medium was unchanged after irradiation, while secretion of Timp2 increased. We conclude that irradiating mesangial cells leads to altered production of various molecules involved in accumulation and degradation of extracellular matrix.     

辐射诱导转录子RIGb cDNA对HeLa细胞增殖的抑制作用

核酸序列同源性分析和RT -PCR确定辐射诱导转录子RIGb是染色质重构基因CHD6表达的一个剪接转录子.Northern杂交结果表明,0 . 5Gyγ射线诱导RIGbmRNA表达增加,但4Gy大剂量照射对其表达无明显的影响.正常成人组织Northern杂交结果显示,RIGb基因在心脏、肝脏和睾丸中有高表达.细胞生长曲线分析结果表明,转染和稳定表达RIGb的人宫颈癌细胞(HeLa)的增殖生长受到明显抑制,细胞周期分析发现G1/S期阻滞.     

Activation of antioxidative enzymes induced by low-dose-rate whole-body gamma irradiation: adaptive response in terms of initial DNA damage

An adaptive response induced by long-term low-dose-rate irradiation in mice was evaluated in terms of the amount of DNA damage in the spleen analyzed by a comet assay. C57BL/ 6N female mice were irradiated with 0.5 Gy of (137)Cs gamma rays at 1.2 mGy/h; thereafter, a challenge dose (0.4, 0.8 or 1.6 Gy) at a high dose rate was given. Less DNA damage was observed in the spleen cells of preirradiated mice than in those of mice that received the challenge dose only; an adaptive response in terms of DNA damage was induced by long-term low-dose-rate irradiation in mice. The gene expression of catalase and Mn-SOD was significantly increased in the spleen after 23 days of the low-dose-rate radiation (0.5 Gy). In addition, the enzymatic activity of catalase corresponded to the gene expression level; the increase in the activity was observed at day 23 (0.5 Gy). These results suggested that an enhancement of the antioxidative capacities played an important role in the reduction of initial DNA damage by low-dose-rate radiation.     

Regulation of proteinase-activated receptor 1 by inflammatory mediators in human vascular endothelial cells

Thrombin plays a critical role in haemostasis, inflammation, and cell proliferation, mediated by proteinase-activated receptor 1 (PAR-1; thrombin receptor). The physiological and pathological regulation of PAR-1 by inflammatory mediators has not yet been fully elucidated. The aim of this study is to investigate the effects of inflammatory mediators on mRNA and protein expression of PAR-1 in early passage human vascular endothelial cells. Endothelial cells were activated by inflammatory mediators, such as tumour necrosis factor alpha (TNFalpha), interferon gamma (IFN gamma), and bacterial substance lipopolysaccharide (LPS), and the PAR-1 expression was verified by flow cytometry or RT-PCR. By stimulating endothelial cells with TNFalpha, IFN gamma, and LPS, the PAR-1 expression on the cell surface remained almost unchanged for 48 h. After stimulation with 20-300 U/ml TNFalpha, the total cellular PAR-1 expression (both on cell surface and in the cytoplasm) significantly decreased at 24h and thereafter recovered to the basal level at 48 h. The stimulation with 100 U/ml TNFalpha transiently down-regulated the PAR-1 mRNA expression to approximately 0.3-fold of the basal level at 30 min, but it rebounded 3-fold above the basal level at 6h, and again decreased to 0.5-fold of the basal level at 12h, and finally returned to the basal level at 24h. In contrast, IFN gamma or LPS did not affect the PAR-1 mRNA expression.     

Regulation of CD20 expression by radiation-induced changes in intracellular redox status

Increasing the levels of CD20 expression in cells that harbor low CD20 levels may enhance their responsiveness to CD20-specific antibody therapies. Here, we examined the regulation of CD20 expression after treatment with 0.5-2.0 Gy X-irradiation and hydrogen peroxide (H(2)O(2)), in the presence or absence of known antioxidants, in the Burkitt lymphoma cell lines Daudi and Raji. Irradiation of cells enhanced cell-surface CD20 expression; the kinetics and extent of this change were cell-type specific and time-dependent. The kinetics of reactive oxygen species generation and changes in mitochondrial membrane potential after irradiation were also correlated with changes in CD20 expression. Raji and Daudi cells treated with H(2)O(2) showed a 2-to 2.5-fold increase in CD20 expression at 12 and 20 h, respectively. Buthionine sulfoximine, which depletes glutathione, also increased surface CD20, whereas antioxidants, such as PEG-catalase, PEG-SOD, vitamin C, and amifostine, decreased CD20 expression induced by radiation or H(2)O(2). The antioxidant-mediated decrease in CD20 expression induced by radiation or H(2)O(2) suggests a mechanism involving redox regulation. These results demonstrate the critical role of radiation-induced oxidative stress in CD20 expression and may have implications for defining and improving the efficacy of CD20-targeted antibody therapy and radioimmunotherapy.     

The cell cycle-coupled expression of topoisomerase IIalpha during S phase is regulated by mRNA stability and is disrupted by heat shock or ionizing radiation.

Topoisomerase II is a multifunctional protein required during DNA replication, chromosome disjunction at mitosis, and other DNA-related activities by virtue of its ability to alter DNA supercoiling. The enzyme is encoded by two similar but nonidentical genes: the topoisomerase IIalpha and IIbeta genes. In HeLa cells synchronized by mitotic shake-off, topoisomeraseII alpha mRNA levels were found to vary as a function of cell cycle position, being 15-fold higher in late S phase (14 to 18 h postmitosis) than during G1 phase. Also detected was a corresponding increase in topoisomerase IIalpha protein synthesis at 14 to 18 h postmitosis which resulted in significantly higher accumulation of the protein during S and G2 phases. Topoisomerase IIalpha expression was not dependent on DNA synthesis during S phase, which could be inhibited without effect on the timing or level of mRNA expression. Mechanistically, topoisomerase IIalpha expression appears to be coupled to cell cycle position mainly through associated changes in mRNA stability. When cells are in S phase and mRNA levels are maximal, the half-life of topoisomerase IIalpha mRNA was determined to be approximately 30 min. A similar decrease in mRNA stability was also induced by two external factors known to delay cell cycle progression. Treatment of S-phase cells, at the time of maximum topoisomerase IIalpha mRNA stability, with either ionizing radiation (5 Gy) or heat shock (45 degrees C for 15 min) caused the accumulated topoisomerase IIalpha mRNA to decay. This finding suggests a potential relationship between stress-induced decreases in topoisomerase IIalpha expression and cell cycle progression delays in late S/G2.     

Evidence for post-transcriptional regulation of cyclin B1 mRNA in the cell cycle and following irradiation in HeLa cells.

Cyclin B1 mRNA expression varies markedly through the cell cycle with its peak in G2/M and lowest level in G1. Cyclin B1 mRNA levels are also transiently reduced in HeLa cells after gamma-irradiation, coincident with the radiation-induced G2 block. In order to understand the mechanisms underlying these variations, we have measured cyclin B1 mRNA stability in HeLa cells during different phases of the cell cycle. The half-life of the mRNA measured after actinomycin D administration is 1.1-1.8 h in both early and late G1, 8 h in S and 13 h in G2/M. We therefore conclude that altered RNA stability is important in modulating cyclin B1 mRNA levels through the HeLa cell cycle. Furthermore, 3 h after irradiation of HeLa cells in S phase with 10 Gy, the half-life of cyclin B1 mRNA is reduced to 5 h; it is further reduced to 2-3 h at 14 h after irradiation. Thus, decreased stability contributes to the reduction in cyclin B1 mRNA following irradiation.     

Heparan mimetic regulates collagen expression and TGF-beta1 distribution in gamma-irradiated human intestinal smooth muscle cells.

Radiation-induced intestinal fibrosis is characterized by collagen accumulation, a process in which TGF-beta1 plays a key role. We analyzed the effects of gamma radiation on collagen expression and TGF-beta1 distribution in human intestinal smooth muscle cells (HISM). We investigated the activity of a carboxymethylated and sulfated dextran (RG-1503), exhibiting antifibrotic properties and promoting in vivo intestinal tissue repair, on irradiated HISM. After (60)Co irradiation (10 Gy), HISM were labeled with [(3)H] proline (+/-RG-1503). Radiolabeled collagen I, III, and V were quantified by SDS-PAGE. TGF-beta1 was quantified by ELISA in culture medium, pericellular and intracellular compartments. Irradiation induced a specific 2.85-fold increase in collagen III production by HISM. Collagen V decreased by 80% 72 h after irradiation. Pericellular TGF-beta1 was increased (up to twofold) in irradiated HISM. RG-1503 added before or after irradiation reversed both mRNA and protein levels of collagen III and V to control values. RG-1503 decreased the amount of TGF-beta1 in the cell layer below the control values. Irradiation of HISM induced the development of a fibrotic phenotype in terms of collagen production and TGF-beta1 distribution. The antifibrotic RG-1503 restored HISM physiological characteristics and may represent a promising therapeutic approach for radiation-induced intestinal fibrosis.     

Mutation induction by very low dose rate gamma rays in cultured mouse leukemia cells L5178Y

Induction of cell killing and mutation to 6-thioguanine resistance was studied in growing mouse leukemia cells in culture following gamma rays at dose rates of 30 Gy/h, 20 cGy/h, and 6.3 mGy/h, i.e., acute, low dose rate, and very low dose rate irradiation. A marked increase was observed in the cell survival with decreasing dose rate; no reduction in the surviving fraction was detected after irradiation at 6.3 mGy/h until a total dose of 4 Gy. Similarly, the induced mutation frequency decreased after low dose rate irradiation compared to acute irradiation. However, the frequency after irradiation at 6.3 mGy/h was unexpectedly high and remained at a level which was intermediate between acute and low dose rate irradiation. No appreciable changes were observed in the responses to acute gamma rays (in terms of cell killing and mutation induction) in the cells which had experienced very low dose rate irradiation.     

Enhanced expression of a chromatin associated protein tyrosine phosphatase during G0 to S transition

The non-transmembrane protein tyrosine phosphatase, PTP-S, is located predominantly in the cell nucleus in association with chromatin. Here we have analysed the expression of PTP-S upon mitogenic stimulation and during cell division cycle. During liver regeneration after partial hepatectomy, PTP-S mRNA levels increased 16-fold after 6 h (G₁ phase) and declined thereafter. Upon stimulation of serum starved cells in culture with serum, PTP-S mRNA levels increased reaching a maximum during late G₁ phase and declined thereafter. No significant change in PTP-S RNA levels was observed in growing cells during cell cycle. PTP^-S protein levels were also found to increase upon mitogenic stimulation. Upon serum starvation for 72 h, PTP-S protein disappears from the nucleus and is seen in the cytoplasm; after 96 h of serum starvation the PTP-S protein disappears from the nucleus as well as cytoplasm. Refeeding of starved cells for 6 h results in reappearance of this protein in the nucleus. Our results suggest a role of this phosphatase during cell proliferation.