外源性神经节苷脂GM_3影响人肝癌细胞生长的可能机制的初步研究

通过苔酚蓝染色细胞发现,外源性GM3（10μg/ml）能明显抑制人肝癌细胞株SMMC-7721细胞生长,在GM3处理3d时,出现明显差异．通过NorthernBlot分析发现,外源性GM3可明显影响人肝癌细胞株SMMC-7721细胞中c-fos、c-jun、c-myc和N-ras这四种癌基因的mRAN表达．未经GM3处理的细胞中没有检测到c-fosmRNA,但c-jun微量表达,并有c-myc和N-rasmRNA的高水平表达而GM3可在短时间内快速大量地诱导c-fos、c-junmRNA的生成．GM3处理的细胞,c-myc和N-rasmRNA的表达均明显减少．GM3处理45min时,c-myc基因表达只为对照组的39．55％;GM3处理24h时,N-ras基因表达为对照组的30.48％．以上结果提示：GM3抑制SMMC-7721细胞生长很可能是通过改变癌基因表达来实现的．     

Melatonin increases p53 and p21WAF1 expression in MCF-7 human breast cancer cells in vitro.

The aim of the present work was to study whether melatonin, at physiological concentrations, exerts its antiproliferative effects on MCF-7 human breast cancer cells by inducing the expression of some of the proteins involved in the control of the cell cycle. MCF-7 cells were cultured for 48 h in DMEM media containing either melatonin (1 nM) or the diluent (0.001% ethanol). At this concentration, after 48 hours of incubation, melatonin reduced the number of viable cells in relation to controls. The decreased cell proliferation was coincident with a significant increase in the expression of p53 as well as p21WAF1 proteins. These results demonstrate that melatonin inhibits MCF-7 cell proliferation by inducing an arrest of cell cycle dependent on an increased expression of p21WAF1 protein, which is mediated by the p53 pathway.     

Characterization of cis-regulatory elements of the c-myc promoter responding to human GM-CSF or mouse interleukin 3 in mouse proB cell line BA/F3 cells expressing the human GM-CSF receptor.

Interleukin 3 (IL-3) or granulocyte macrophage colony-stimulating factor (GM-CSF) activates c-fos, c-jun, and c-myc genes and proliferation in both hematopoietic and nonhematopoietic cells. Using a series of deletion mutants of the beta subunit of human GM-CSF receptor (hGMR) and inhibitors of tyrosine kinase, two distinct signaling pathways, one for activation of c-fos and c-jun genes, and the other for cell proliferation and activation of c-myc gene have been elucidated. In contrast to wealth of information on the pathway leading to activation of c-fos/c-jun genes, knowledge of the latter is scanty. To clarify the mechanisms of activation of c-myc gene by cytokines, we established a transient transfection assay in mouse proB cell line BA/F3 cells expressing hGMR. Analyses of hGMR beta subunit mutants revealed two cytoplasmic regions involved in activation of the c-myc promoter, one is essential and the other is dispensable but enhances the activity. These regions are located at the membrane proximal and the distal regions covering amino acid positions 455-544 and 544-589, respectively. Characterization of cis-acting regulatory elements of the c-myc gene showed that the region containing the P2 promoter initiation site is sufficient to mediate the response to mIL-3 or hGM-CSF. Electrophoretic mobility shift assay using an oligonucleotide corresponding to the distal putative E2F binding site revealed that p107/E2F complex, the negative regulator of E2F, decreased, and free E2F increased after mIL-3 stimulation. These results support the thesis that mIL-3 or hGM-CSF regulates the c-myc promoter by altering composition of the E2F complexes at E2F binding site.     

p53-Mediated gene activation in mice at high doses of chronic low-dose-rate γ radiation

The time course of the changes in the expression of p53-mediated genes in vivo after high doses of chronic low-dose-rate γ radiation remains unclear. Here we analyzed peripheral blood cell counts and the expression of p53-mediated genes in the spleens of mice chronically irradiated at low dose rate (0.0167 Gy/h) for 1-40 days. Low-dose-rate irradiation induced p53-dependent chronic decreases in white blood cell (WBC) counts in p53 wild-type mice. Upregulation of p53-mediated genes by low-dose-rate radiation was confirmed in the whole spleen cells from the p53 wild-type mice, while suppressed gene expression was observed in the spleen cells of p53-deficient mice. The expression of p21 and Bax in radiosensitive cells such as T and B lymphocytes from low-dose-rate irradiated mice at 10, 20, and 40 days were increased, although that of Mdm2 in both the lymphocytes was decreased at 20 and 40 days. Moreover, spleen weights for low-dose-rate irradiated mice were decreased at 20 and 40 days. Thus downregulation of Mdm2 in both T and B lymphocytes by low-dose-rate radiation may cause higher p53 activation; further, higher p53 expression may determine the radiosensitivity and cause a reduction in the spleen weights in low-dose-rate irradiated mice. These results indicate that p53 may be chronically activated by low-dose-rate radiation.     

毛喉萜对人胃癌细胞BGC－823中蛋白激酶C及其亚类的影响

以人胃癌细胞ＢＧＣ－８２３为模型,研究了毛喉萜（ｆｏｒｓｋｏｌｉｎ）对胃癌细胞中蛋白激酶Ｃ活性及其亚类基因表达的作用,同时也观察了毛喉萜对癌基因ｃ－ｊｕｎ及抑癌基因ｐ５３表达的影响．结果表明,２×１０~（－５）ｍｏｌ／Ｌ毛喉萜处理ＢＧＣ－８２３细胞７２ｈ,细胞质、膜和细胞核ＰＫＣ活性下降,ＰＫＣ亚类β,γ基因表达被抑制,癌基因ｃ－ｊｕｎ的表达也明显降低,而抑癌基因ｐ５３表达升高,上述变化可能是毛喉萜抑制胃癌细胞增殖等生理效应的重要分子事件。     

Gene expression in regenerating liver in relation to cell proliferation and stress

When hepatocyte proliferation is stimulated in the liver by partial hepatectomy, messenger RNAs coding for fibrinogen, actin, c-myc and topoisomerase I are rapidly accumulated. We distinguish an early phase of accumulation (0-3 h after partial hepatectomy) which is also observed after a sham operation for the four genes, and during inflammation produced by Freund's adjuvant in the case of fibrinogen and c-myc genes. The hepatic response to inflammation appears therefore to mimic events characteristic of the G0/G1 transition, such as the accumulation of the c-myc mRNA. The late phase of mRNA accumulation (beyond 3 h after partial hepatectomy) is typical of liver regeneration. The level of c-myc mRNA is transiently increased (20-fold over normal) 20 h after partial hepatectomy, that is, at the time of DNA synthesis. Topoisomerase-I mRNA level increases between 3 and 24 h after partial hepatectomy (5-10-fold over normal). These results suggest that accumulation of c-myc and topoisomerase-I mRNAs is associated with DNA replication in regenerating liver.     

Phorbol ester facilitates apoptosis in murine fibroblasts pretreated by mild ultraviolet radiation.

Although phorbol 12-myristate 13-acetate (PMA) inhibits apoptosis and promotes the growth of some types of cells, it induces apoptosis in other cells. We evaluated the apoptotic effects of PMA on murine fibroblasts (L-929) that had been exposed to ultraviolet-B (UV-B) radiation at 312 nm, which promotes tumor cell growth. Exposure to PMA alone did not induce Fas, Fas-L, or apoptosis. Cells exposed to mild UV-B irradiation (80 J/m(2)) alone exhibited a slight expression of Fas and Fas-L 36 to 48 h after the exposure, and exhibited apoptosis as evidenced by DNA fragmentation 72 h after exposure. The addition of PMA (0.8 x 10(-5) to 3.2 x 10(-5) M) to the medium 24 h after the UV-B exposure markedly and dose-dependently enhanced these cell responses. Confluent untreated cells, cells cocultured with PMA, and cells cocultured with PMA for 24 h after the UV-B exposure consistently expressed mRNAs for wild-type p53, bcl-2, and ICE. Expression of c-myc mRNA was initially observed, but became undetectable in the cells cocultured for 24 h with a high concentration of PMA (3.2 x 10(-5) M) following UV-B exposure. Such cells subsequently exhibited the maximal apoptotic response. We conclude that mild exposure to UV-B altered murine fibroblast cells in such a way as to facilitate their death by apoptosis upon addition of PMA.     

Induction of micronuclei in wild-type and p53(+/-) transgenic mice by inhaled bromodichloromethane

Bromodichloromethane (BDCM) is commonly present in trace amounts in drinking water as a disinfection by-product. BDCM has been shown to be carcinogenic in mice and rats when given by gavage at relatively high doses. Genotoxic activity as well as induced regenerative cell proliferation may contribute to the carcinogenic potential of BDCM. The purpose of the current studies was to evaluate the ability of BDCM to induce micronuclei (MN) in bone marrow and blood of wild-type and p53(+/-) mice on the C57BL/6 and FVB/N genetic backgrounds using the inhalation route of exposure. Toxicity studies were being conducted in this laboratory with inhaled BDCM to select doses for longer-term cancer bioassays using wild-type and p53(+/-) transgenic mice on different genetic backgrounds. Bone marrow samples from these experiments were evaluated for the induction of MN after 1 and 3 weeks of exposure. Accumulation of MN in the peripheral blood was also evaluated at the 13-week time point of a cancer study with the p53(+/-) mice. For the 1-week time point, male C57BL/6 wild-type and p53(+/-) mice and FVB/N wild-type and p53(+/-) mice were exposed daily for 6h per day for 7 consecutive days to atmospheric BDCM concentrations of 0, 1, 10, 30, 100, or 150 ppm. In a second experiment, mice were exposed daily for 6h per day for 3 weeks to atmospheric BDCM concentrations of 0, 0.5, 1, 3, 10, or 30 ppm. Resulting levels of polychromatic erythrocytes (PCE) containing MN were assessed in the bone marrow. For all of the 1- and 3-week exposure groups, the only statistically significant increase in the percentage of bone marrow PCE cells containing MN was in the 1-week 100 ppm BDCM exposure group in the FVB/N wild-type mice (control 0.26% versus exposed 1.16%). C57BL/6 p53(+/-) mice and FVB/N p53(+/-) mice were exposed daily for 6 h per day for 13 weeks to atmospheric BDCM concentrations of 0, 0.5, 3, 10, or 15 ppm. MN were quantified in samples of peripheral blood. Statistically significant increases in the percentage of peripheral blood NCE cells containing MN were seen at the highest BDCM exposure group of 15 ppm in both the C57BL/6 p53(+/-) strain (control 0.36% versus exposed 0.67%) and the FVB/N p53(+/-) strain (control 0.36% versus exposed 0.86%). These data indicate weak induction of MN by BDCM, but only at high atmospheric concentrations relative to normal environmental exposures and with extended periods of exposure. Although comparisons are difficult because responses were negative or marginal, the p53 genotype or the genetic background did not appear to substantially alter susceptibility to the genotoxic effects of BDCM.     

Early response to tumor necrosis factor of human promyelocytic leukemia cell lines sensitive and resistant to the factor

Early cellular events with respect to protein synthesis and the steady-state level of cellular myc (c-myc) mRNA were analyzed in the tumor necrosis factor (TNF)-sensitive human promyelocytic leukemia cell line HL-60 and in its TNF-resistant variant HL-60R after their exposure to TNF. Addition of TNF at 100 units (U)/ml induced de novo synthesis of two proteins with apparent molecular masses of 100 kDa and 40 kDa in HL-60 cells. The induced synthesis of the 100 kDa protein continued for 6 h, while that of the 40 kDa protein was transient. The 100 kDa protein was detectable in HL-60R cells which were maintained in medium containing 1,000 U/ml TNF, whereas the synthesis of the 40 kDa protein could be transiently induced by TNF at 10(5) U/ml. Dot blot hybridization revealed that the steady-state level of c-myc mRNA in HL-60 cells was transiently reduced by TNF at 100 U/ml but remained at a reduced level for 6 h when 10(5) U/ml TNF was present. In HL-60R cells, TNF at 10(5) U/ml could transiently reduce the c-myc mRNA level. These results showed that induction of the synthesis of a 40 kDa protein and a reduction in the steady-state level of c-myc mRNA were concomitant with cellular sensitivity to the cytostatic action of TNF in HL-60 cells.     

Exposure to ELF magnetic field tuned to Zn inhibits growth of cancer cells

The effects of ELF alternating magnetic fields tuned to Zn(2+) on the growth of cancer cells with different status of p53 were investigated using a cell proliferation assay. Human cancer cells HeLa (cervix cancer, p53(+/+)), Saos-2 and Saos-2-His-273 (osteosarcoma, p53(-/-) and p53 His-273 mutant, respectively), H1299tTA and H1299tTA-His175 (lung carcinoma, p53(-/-) and p53 His-175 mutant), and normal human fibroblasts VH-10 (p53(+/+)) were used. Exposure parameters were calculated for the first harmonic of Zn(2+) based either on the magnetic parametric resonance (MPR) model of Lednev or the ion parametric resonance (IPR) model of Blanchard and Blackman. ELF exposure was for 72 and 96 h. The vertical alternating field was 20 Hz at amplitudes of either 38.7 or 77.4 microT (peaks, IPR or MPR, respectively). The vertical static magnetic field was 43 microT, and the horizontal static magnetic field was zeroed. Treatments of cells with PRIMA-1 and gamma-rays were used as positive controls. Growth inhibition was observed in cells after exposure to ELF at 38.7 microT. Inhibition of HeLa, VH-10, and Saos-2-His-273 cells was statistically significant, P=0.0003, 0.02, and 0.006, respectively. No consistent ELF effects following exposure 77.4 microT were seen. PRIMA-1 inhibited the growth of all cell lines with the strongest effect in mutant p53-carrying cell line H1299tTA-His175. The effects of gamma-rays were relatively weak, suggesting that the cell proliferation assay under conditions employed in this study is not very sensitive to apoptosis. In conclusion, ELF under conditions of exposure tuned to Zn(2+) according to the IPR model inhibited the growth of cancer and normal cells. No clear relationship of the observed growth inhibition to p53 status was found. Further experiments, using complementary techniques, are required to test whether p53 reactivation by ELF is feasible.     

Effects of Low Doses of Melatonin on Late Afternoon Napping and Mood

The effects of low doses of melatonin (0.1, 0.5 and 1 mg) given at 16:00 h on induction and quality of sleep in the late afternoon (17:00-21:00 h), as well as on subjective fatigue and mood ratings before and after sleep were studied. Ten healthy male volunteers (age 26-30 years) were given on a double-blind crossover basis, tablets containing melatonin, or placebo, with one day washout between treatments. Mood and fatigue were assessed before and after bedtime. Sleep quality was objectively monitored using wrist-worn actigraphs and subjectively by using sleep logs. Data were analysed by means of analysis of variance for repeated measures with a factor of group (placebo and the three melatonin doses). The analysis revealed dose-dependent increase by melatonin in subjective evaluation of fatigue and sleepiness, and decrease in alertness, efficiency, vigor and concentration before the nap. Melatonin did not significantly affect actigraph-measured nap sleep latency and efficiency but reduced wake time after sleep onset and delayed sleep offset time compared to placebo, Melatonin did not significantly affect sleep latency and sleep efficiency in the night following the treatment. These data indicate acute effects of low doses of melatonin given at 16:00h on sleepiness and fatigue but not on sleep efficiency or latency in healthy young individuals.     

Effects of Low Doses of Melatonin on Late Afternoon Napping and Mood

The effects of low doses of melatonin (0.1, 0.5 and 1 mg) given at 16:00 h on induction and quality of sleep in the late afternoon (17:00-21:00 h), as well as on subjective fatigue and mood ratings before and after sleep were studied. Ten healthy male volunteers (age 26-30 years) were given on a double-blind crossover basis, tablets containing melatonin, or placebo, with one day washout between treatments. Mood and fatigue were assessed before and after bedtime. Sleep quality was objectively monitored using wrist-worn actigraphs and subjectively by using sleep logs. Data were analysed by means of analysis of variance for repeated measures with a factor of group (placebo and the three melatonin doses). The analysis revealed dose-dependent increase by melatonin in subjective evaluation of fatigue and sleepiness, and decrease in alertness, efficiency, vigor and concentration before the nap. Melatonin did not significantly affect actigraph-measured nap sleep latency and efficiency but reduced wake time after sleep onset and delayed sleep offset time compared to placebo, Melatonin did not significantly affect sleep latency and sleep efficiency in the night following the treatment. These data indicate acute effects of low doses of melatonin given at 16:00h on sleepiness and fatigue but not on sleep efficiency or latency in healthy young individuals.     

Ways of realizing apoptosis of human lymphocytes induced by UV-light and reactive oxygen species

Changes of DNA structural condition, the level of membrane Fas-receptor expression, caspase-3 functional activity, concentrations of Ca2+, p53 and cytochrome c proteins of human lymphocytes in dynamics of apoptosis development induced by UV-light (240-390 nm) at doses 151, 1510, 3020 J/m2 and reactive oxygen species (superoxide anion-radical, hydroxyl radicals, hydrogen peroxide, singlet oxygen) have been studied. UV-light and reactive oxygen species have been established to induce fragmentation of lymphocyte DNA after 20 h incubation of the modified cells. It has been shown, that the increase in the expression level of membrane death Fas-receptors is observed during 1-5 h after exposure oflymphocytes to UV-light and ROS compared with intact cells. Also revealed is augmentation of lymphocyte caspase-3 functional activity 4 h after generation of singlet oxygen, hydroxyl radical and hydrogen peroxide addition, as well as 8 and 24 and 6 and 8 h after UV-irradiation of the cells at doses 151 and 1510 J/m2, correspondingly. Using DNA-comet method made it possible to tape that DNA damages (single-strand breaks) appear 15-20 min after lymphocyte UV-irradiation at doses 1510 and 3020 J/m and addition of hydrogen peroxide in concentration 10(-6) mol/l (C1 type comet) and reach their maximum 6 h after modification of the cells (C2 and C3 type comets). It has been observed, that 6 h after exposure oflymphocytes to hydrogen peroxide and UV-light at doses 1510 and 3020 J/m2, the p53 level of investigated cells raises. It has also been shown that the higher level of calcium in lymphocyte cytosol in conditions of UV-light exposure (1510 J/m2) and exogenous generation of reactive oxygen species is caused by Ca2+ exit from intracellular depots as a result of activating the components of the phosphoinositide mechanism for transferring information into a cell. Ideas about correlation between alterations of the calcium level and initiation of programmed cellular destruction of human lymphocytes after exposure to UV-irradiation and ROS is proposed. The authors come to the conclusion about the leading role of receptor-mediated (Fas-dependent) caspase- and p53-dependent ways of realizing apoptosis oflymphocytes induced by UV-light at doses 151 and 1510 J/m2 and active oxygen metabolites. The pattern of the possible intracellular events leading to apoptotic destruction of lymphocytes after their UV-irradiation is offered.