N-Methyl-N′-nitro-N-nitrosoguanidine-induced light emission in Chinese hamster cell cultures: correlation with enhancement of chromosomal aberrations

N-Methyl-N′-nitro-N-nitrosoguanidine (MNNG) was found to induce an ultraweak photon emission in cultures of Chinese hamster fibroblasts (CHL). Measurements suggest that the light emission is due to a reaction between MNNG and cellular metabolites. The light emission depended on the concentration of MNNG and was oxygen-dependent, disappearing in a nitrogen atmosphere. Superoxide dismutase (SOD) or sodium azide decreased the emission intensity. The production of chromosomal aberrations in CHL by MNNG was correlated with the light emission intensity and was inhibited in the presence of SOD.     

Malate metabolism and reactions of oxidoreduction in cold-hardened winter rye (Secale cereale L.) leaves

In cold-hardened leaves (CHL) of winter rye (Secale cereale L.) much higher levels of malate were detected by (13)C-NMR than in non-hardened leaves (NHL). As this was not observed previously, malate metabolism of CHL was studied in more detail by biochemical assays. The activities of several enzymes of malate metabolism, NADP-malate dehydrogenase, NAD-malate dehydrogenase, phosphoenolpyruvate carboxylase, and NADP-malic enzyme, were also increased in CHL. Short exposures to low temperature of 1-3 d did not induce increases in the malate content or in the activities of enzymes of malate metabolism in mature NHL. The malate content and the enzyme activities declined within 1-2 d after a transfer of CHL from their growing temperature of 4 degrees C to 22 degrees C. The malate content was further increased when CHL were exposed to a higher light intensity at 4 degrees C. In CO(2)-free air the malate content of CHL strongly declined at 4 degrees C. Malate may thus serve as an additional carbon sink and as a CO(2)-store in CHL. It may further function as a vacuolar osmolyte balancing increased concentrations of soluble sugars previously observed in the cytosol of CHL. Malate was not used as a source of reductants when CHL were exposed to photo-oxidative stress by treatment with paraquat. However, the activities of enzymes of the oxidative pentose phosphate pathway were markedly increased in CHL and may serve as non-photosynthetic sources of NADPH and thus contribute to the previously observed superior capacity of CHL of winter rye to maintain their antioxidants in a reduced state in the presence of paraquat.     

Scavenging of reactive oxygen species by chlorophyllin: An ESR study

The antioxidant effects of chlorophyllin (CHL), a water-soluble analog of the green plant pigment chlorophyll, on different reactive oxygen species (ROS) were investigated by electron spin resonance (ESR) spectroscopy. As a standard, we have used the ability of CHL to scavenge the stable 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical. CHL inhibits the formation of 5,5-dimethyl-1-pyrroline-N-oxide adduct with hydroxyl radical (DMPO-OH adduct) generated by γ-radiation in a dose-dependent manner. At a concentration of 1 mM, CHL caused more than 90% inhibition of ESR signal intensity of this adduct. However, the results obtained with the Fenton reaction were different. We also found evidence for the inhibition of ¹O₂-dependent formation of the 2,2,6,6-tetramethyl-piperidine oxide (TEMPO) radical during photosensitization of methylene blue with visible light. CHL was also able to inhibit hydrogen peroxide induced oxidation of phenol red. The rate constant of the reaction of CHL with H₂O₂ was found to be 2.7×10⁶ M^-1s^-1. In conclusion, CHL has potent antioxidant ability involving scavenging of various physiologically important ROS.     

Decreased clastogenicity of dinitropyrenes in Chinese hamster lung (CHL) subclone cells with low NADPH-cytochrome P-450 reductase activity

Clastogenic potentials of 1,3-, 1,6- and 1,8-dinitropyrenes (DNPs) were compared between Chinese hamster lung (CHL) cells and its subclone MM1 cells, which were recently isolated as menadione-resistant cells after treatment with MNNG. NADPH-cytochrome P-450 reductase activity of the MM1 cells decreased to 50% of that in the parental CHL cells. All 3 DNPs induced chromosomal aberrations without exogenous metabolic activation systems in the CHL cells. 1,6- and 1,8-DNP showed equivalent clastogenic potency: the maximum frequency of cells with chromosomal aberrations was about 50% for both chemicals. The clastogenic potential of 1,3-DNP was lower than that of 1,6- and 1,8-DNP: the maximum frequency of aberrant cells was 10%. In the MM1 cells, in contrast, the frequencies of aberrant cells decreased to about 30% of those observed for the parental CHL cells after treatment with 1,6- and 1,8-DNP, and to the same level as that of the concurrent control after treatment with 1,3-DNP. These results suggest a possibility that the reduced clastogenic effect of 3 DNPs in MM1 cells may correlate with the reduced activity of NADPH-cytochrome P-450 reductase which is thought to contribute to the metabolic conversion of these DNPs to their clastogenic forms in the CHL cells.     

小麦对Pb胁迫的生理生化反应研究

为了确定Pb污染土壤对植物生态系统造成的影响,运用植物幼苗早期生长实验,研究了Pb不同浓度(50、100、200、300)对小麦幼苗叶片的超氧化物歧化酶(SOD)、过氧化物酶(POD)活性、可溶性蛋白含量、丙二醛(MDA)以及叶片中叶绿素含量的影响。结果表明,Pb污染土壤对小麦的生理系统产生明显的影响,小麦叶片可溶性蛋白含量可以很好的指示土壤Pb污染的胁迫。在Pb胁迫下,小麦叶片MDA含量并没有显著增加;小麦植株叶片POD酶活能够被诱导而升高,小麦叶片中SOD酶活性没有一致的变化规律;幼苗受到损伤的明显症状之一是叶片叶绿素含量下降;重金属对小麦幼苗的毒害机理之一是抑制了蛋白质的生物合成。     

Scavenging of reactive oxygen species by chlorophyllin: An ESR study

The antioxidant effects of chlorophyllin (CHL), a water-soluble analog of the green plant pigment chlorophyll, on different reactive oxygen species (ROS) were investigated by electron spin resonance (ESR) spectroscopy. As a standard, we have used the ability of CHL to scavenge the stable 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical. CHL inhibits the formation of 5,5-dimethyl-1-pyrroline-N-oxide adduct with hydroxyl radical (DMPO-OH adduct) generated by γ-radiation in a dose-dependent manner. At a concentration of 1 mM, CHL caused more than 90% inhibition of ESR signal intensity of this adduct. However, the results obtained with the Fenton reaction were different. We also found evidence for the inhibition of ¹O₂-dependent formation of the 2,2,6,6-tetramethyl-piperidine oxide (TEMPO) radical during photosensitization of methylene blue with visible light. CHL was also able to inhibit hydrogen peroxide induced oxidation of phenol red. The rate constant of the reaction of CHL with H₂O₂ was found to be 2.7×10⁶ M^-1s^-1. In conclusion, CHL has potent antioxidant ability involving scavenging of various physiologically important ROS.     

Heat shock does not induce gammaH2AX foci formation but protects cells from N-methyl-N'-nitro-N-nitrosoguanidine-induced genotoxicity

The involvement of DNA damage in heat shock-induced cell death remains controversial. To investigate whether heat shock can induce DNA damage, we tested the induction of gammaH2AX foci formation, a sensitive indicator for DNA double strand breaks (DSBs), by heat shock treatment in several cell lines including HeLa, CHL, HepG2, and 293 cells, as well as human spermatozoa. Although heat shock treatment can decrease cell viability, no induction of gammaH2AX foci formation was observed in any of these cells. In addition, a p53-deficient cell line (U2OSE6tet24) and a flap endonuclease 1 (FEN1)-deficient cell line (FL-FEN1(-)) also did not show induction of gammaH2AX foci after heat shock treatment. Finally, it was found that 30min of pre-heat shock can inhibit gammaH2AX foci formation induced by an alkylating agent, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), which is known to induce gammaH2AX foci formation. On the other hand, heat shock after MNNG treatment did not affect the gammaH2AX foci formation induced by MNNG. Taken together, these data suggest that although heat shock might influence the gammaH2AX foci formation process, it does not induce DNA damage in the cells tested in this study.     

Effect of chlorophyllin against oxidative stress in splenic lymphocytes in vitro and in vivo

Chlorophyllin (CHL) has been examined as an antioxidant/radioprotector in splenic lymphocytes from BALB/c mice. CHL inhibited lipid peroxidation induced by 2,2'-azobis(2-propionimidinedihydrochloride) (AAPH) in lymphocytes in vitro. It also partially prevented radiation-induced suppression of mitogenic stimulation of lymphocytes in vitro. Generation of intracellular reactive oxygen species (ROS) by radiation or AAPH was measured as oxidation of dichlorodihydrofluorescein diacetate (H(2)DCF-DA) using flow cytometry. Addition of CHL to lymphocytes in vitro significantly inhibited the increase in intracellular ROS. Further, lymphocytes from mice treated with CHL (100-400 microg/gbw i. p.) showed varying levels of ROS depending on the dose and the time (24 to 72 h) after injection. The extent of radiation-induced apoptosis and suppression of concanavalin A (con A)-induced mitogenesis ex vivo corresponded with changes in ROS levels in CHL-administered mice. Antioxidant enzymes superoxide dismutase (SOD), catalase and glutathione peroxidase (GPX) were also estimated in lymphocytes from CHL-treated mice. CHL offered protection against whole body irradiation (WBI)-induced lipid peroxidation and apoptosis in lymphocytes at all the time points studied. These results demonstrate antioxidant effect of CHL in vivo.     

光照强度调控4种亚热带森林植物叶片的抗氧化能力

 以亚热带林木荷树(Schima superba)和黧蒴(Castanopsis fissa)(乔木)、九节(Psycotria robra)和罗伞(Ardisia- quinguegona)(灌木)为材料,盆栽苗给予100％、36％及16％自然光照处理,同时在自然林中选择两种低光强区并采用疏伐措施使部分幼树暴露于全自然光下。在夏、冬两季采样分析叶片的抗氧化剂(AsA、GSH)含量和抗氧化酶(APX、SOD)活性,研究光强对4种亚热带树种抗氧化能力的影响。结果表明：同在自然光下,灌木的抗氧化能力较强,其AsA含量,APX．SOD活性高于乔木;随生长光强的减弱,4种幼树叶片的AsA．GSH含量和APX、SOD活性均下降,而光强改变对灌木的影响大于乔木。夏、冬季的分析结果有一定差异,说明光是自然条件下影响植物叶片抗氧化能力因子,但温度等亦有一定的作用。     

Effect of visible light on superoxide dismutase (SOD) activity in the red alga Gracilariopsis tenuifrons (Gracilariales, Rhodophyta)

Superoxide dismutase (SOD) was studied in the agarophyte Gracilariopsis tenuifrons. Similar SOD activity (130 ± 9U mg^-1) was observed in material from different regions of SouthAmerica, from different phases of the life cycle (gametophytes andtetrasporophytes), and from apical and basal sections of the thallus.In alga grown under a light-dark cycle, SOD activity in samples takenat different times exhibited a diurnal rhythm. The activity measured duringthe day phase was twice as much as during the night phase. This rhythm didnot persist under constant light, indicating light regulation of SOD activity.SOD activity was tested in algae submitted to different light intensities anddifferent wavelengths. It increased with the light intensity. The blue lightwavelength exerted a greater induction of SOD activity than other specificwavelengths.     

酵母超氧物歧化酶高产菌的选育

采用常规筛选方法从300多株不同种属的酵母菌中筛选到两株细胞生物量和超氧物歧化酶(SOD)含量都较高的菌株(酿酒酵母,编号为Y-8和Y一111)作为实验出发菌.经单倍体分离、N-甲基-N-亚硝基-N’-硝基胍(MNNG)诱变和群体杂交等手段,从中选育出一株细胞生物量略高于实验出发菌、超氧物歧化酶高达1350U/g湿菌体的SOD高产菌株(编号为ZDF-48),它的SOD产量分别为实验出发菌株Y-8和Y-111的2.2 倍和2.4倍.经分离纯化后蛋白含量及超氧物歧化酶活性测定等研究,证明我们选育出的ZDF-48是一株生产超氧物歧化酶的优良品系.     

盐胁迫下绿豆幼苗的超微弱发光

对不同NaCl浓度胁迫下绿豆种子早期萌发时的超微弱发光变化进行了初步研究。结果表明,随。NaCl浓度的增加,绿豆胚根的生长速度(根长)减慢,生长受到明显抑制,其超微弱发光的强度显著下降。萌发期间,SOD活性随着盐浓度的增加而降低,其活性与生物光子强度有极为密切的关系。这些结果表明生物超微弱发光探测技术有可能成为植物盐胁迫研究的有效工具,对于进一步理解盐胁迫机理有一定的意义。     

Influence of exogenous thymidine on killing and mutation of Chinese hamster V-79 cells by X-rays, ultraviolet light and N-methyl-N'-nitro-N-nitrosoguanidine

V-79 cells when exposed to thymidine (5 micrograms/ml) in growth medium after treatment with X-rays, UV light and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), responded differently depending upon the agent. For treatment with X-rays and UV light, only induction of mutation was potentiated, but for MNNG treatment, both killing and mutation induction were potentiated. The increase in killing of MNNG exposed cells could be reversed by simultaneous addition of deoxycytidine with thymidine, but, for all the three mutagenic treatments, enhancement in mutation induction could not be suppressed by deoxycytidine.     

Hydroxyl free radical production by the reaction of N-methyl-N'-nitro-N-nitrosoguanidine with hydrogen peroxide without exposure to light.

We examined hydroxyl free radical (.OH) production in the mixture of H2O2 and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) without exposure to light using the electron spin resonance spin-trapping technique. When the mixtures were protected from exposure to light, .OH was formed at pH 6.5 and above; it was not formed at pH 5.0 and below, consistent with our previous report. The amount of .OH trapped depended on the concentrations of MNNG and H2O2 and the pH. Nitrite ion was also detected colorimetrically at pH 6.5 and above, but not detected at pH 5.0 and below in the mixtures without exposure to light. Moreover, its production depended on the concentrations of MNNG and H2O2 and the pH. The formation of N-methyl-N'-nitroguanidine in the mixture at pH 7.8 was confirmed by thin-layer chromatography and melting point. These results suggest that nucleophilic attack by H2O2 on the nitroso nitrogen of MNNG results in the formation of N-methyl-N'-nitroguanidine and peroxynitrous acid, which degrades homolytically to yield .OH and nitrogen dioxide, resulting in the production of nitrite ion, at pH 6.5 and above without exposure to light.     

A comparative study on the interaction of the putative anticancer alkaloids,sanguinarine and chelerythrine,with single- and double-stranded,and heat-denatured DNAs

A detailed investigation on the interaction of two benzophenanthridine alkaloids, sanguinarine (SGR) and chelerythrine (CHL), with the double-stranded (ds), heat-denatured (hd), and single-stranded (ss) DNA was performed by spectroscopy and calorimetry techniques. Binding to the three DNA conformations leads to quenching of fluorescence of SGR and enhancement in the fluorescence of CHL. The binding was cooperative for both of the alkaloids with all the three DNA conformations. The binding constant values of both alkaloids with the ds DNA were in the order of 10⁶ M^?1; binding was weak with hd and much weaker to the ss DNA. The fluorescence emission of the alkaloid molecules bound to the ds and hd DNAs was quenched much less compared to those bound to the ss DNA based on competition with the anionic quencher KI. For both double stranded and heat denatured structures the emission of the bound alkaloid molecules was polarized significantly and strong energy transfer from the DNA bases to the alkaloid molecules occurred. Intercalation of SGR and CHL to ds, hd, and ss DNA was proved from these fluorescence results. Calorimetric studies suggested that the binding to all DNA conformations was both enthalpy and entropy favored. Both the alkaloids preferred double-helical regions for binding, but SGR was a stronger binder than CHL to all the three DNA structures.     

Effect of endocrine disruptor para-nonylphenol on the cell growth and oxygen radical generation in Escherichia coli mutant cells deficient in catalase and superoxide dismutase

para-Nonylphenol (NP) had previously been found to have strong suppressive effects of growth of bacterial and yeast cells, and these effects were associated with NP-induced generation of radical oxygen species (ROS). In the present study, we determined that wild-type strains of Escherichia coli (CSH 7, SY-11, and IFO-3545) were resistant to NP compared with other sensitive microorganisms reported previously. To elucidate the relationship between NP-induced ROS generation and cell growth inhibition in more detail, we analyzed the effect of NP on cell growth and survival of wild-type and mutant E. coli strains deficient in ROS-scavenging enzymes such as catalase and superoxide dismutase (SOD). The SOD-deficient strain QC 774 (sod A- and sod B-) was much more sensitive to NP than wild-type (CSH 7) and catalase-deficient (UM 1 kat E- and kat G-) strains. As a comparative experiment, when hydrogen peroxide was applied to the same growth and survival assays, UM 1 cells were more sensitive to hydrogen peroxide than QC 774 and CSH 7. A chemiluminescence (CHL) experiment using MCLA (2-methyl-6-Lf-methylphenyl]-3,7-dihydroimidazc [1,2-alpha] pyrazin-3-one) reflecting predominantly superoxide generation showed that NP caused marked CHL generation in QC 774 cells, but not in CSH 7 and UM 1 cells. However, the CHL experiment using L-012 reflecting predominantly hydroxyl radical and hypochlorite did not exhibit significant CHL generation in QC 774 cells at the same concentrations of NP. Furthermore, supplementation with SOD prevented NP-induced ROS generation and cell survival inhibition of QC 774 cells, but the catalase and metal-chelating agent deferoxamine did not have significant effects. These results suggest that one of the primary actions of NP in cells is the generation of superoxide which may be responsible for NP-induced cell growth inhibition.     

Characteristics of chemiluminescence observed in the horseradish peroxidase-hydrogen peroxide-tyrosine system.

Electrolysis or horseradish peroxidase (HRP)-catalyzed oxidation of tyrosine and bityrosine in aqueous solution at pH 7.4 resulted in light emission in the visible region. Electrolysis of tyrosine emitted light which peaked at 490 nm and was almost completely quenched by superoxide dismutase (SOD), while emission by bityrosine peaked at 530 nm. In the HRP-H(2)O(2)-tyrosine system the oxidation-reduction of tyrosine emitted light with two prominent peaks, 490 and 530 nm, and was not quenched by SOD. The phenoxyl neutral radical of the tyrosine in HRP-H(2)O(2)-tyrosine system was detected by electron spin resonance (ESR) spectrometry using tert-nitrosobutane as a spin trap; the spin adduct was found to adhere to the HRP molecule during the enzymatic reaction. Further, bityrosine was detected in the HRP-H(2)O(2)-tyrosine reaction system. Changes in absorption spectra of HRP and chemiluminescence intensities during HRP-catalyzed oxidation of tyrosine suggest that for photon emission compound III is a candidate superoxide donor to the phenoxyl cation radical of tyrosine on the enzyme molecule. The luminescence observed in this study might be originated from at least two exciplexes involved with the tyrosine cation radical (Tyr(*+)) and the bityrosine cation radical (BT(*+))     

Effect of interferon inducers on superoxide anion generation from rat liver microsomes detected by lucigenin chemiluminescence

Microsomal superoxide anion (O2-) production was detected using the chemiluminigenic probe, bis-N-Methylacridinium nitrate (lucigenin). Superoxide dismutase (SOD) inhibited 55% of the light emission but in the presence of a detergent (Triton X100) SOD inhibited the light emission by 94%. Lucigenin chemiluminescence from rat liver microsomes supplemented with NADPH was found to be selective and sensitive in detecting the O2- production. Treatment of rats with poly IC and LPS resulted in a decrease of the hepatic microsomal cytochrome P450 content by 44% and 37% respectively. The decrease in the cytochrome P450 contents was accompanied by a decrease in LgCl from the hepatic microsomal fractions by 61% for the poly IC and by 51% for the LPS treated rats. This is the first report to demonstrate that decreased P450 in the presence of normal amounts of cytochrome P450(c) reductase produce correspondingly less O2- from the microsomes.     

A simple and rapid method for the detection of poly(ADP-ribose) by flow cytometry

Measurement of poly(ADP-ribose) levels was performed by a new method using a monoclonal antibody against poly(ADP-ribose) and flow cytometry from small amount of cultured cells without the need for isolation of poly(ADP-ribose) polymer. The increase of poly(ADP-ribose)-associated fluorescence intensity was observed in individual human leukemic HL-60 cells when treated with the carcinogen, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), and was blocked by the treatment with 3-aminobenzamide before MNNG treatment. It is easy and rapid to detect the time-dependent change of poly(ADP-ribose) levels in HL-60 cells after MNNG treatment. We easily found that the increase of the poly(ADP-ribose) level in nicotinic acid-treated lymphocytes after MNNG treatment was observed, but not in nicotinamide-treated lymphocytes. We investigated the change of poly(ADP-ribose) levels especially in the early phase of apoptosis. Our method is simple and rapid. It is suggested that the investigation of poly(ADP-ribosyl)ation in various fields is possible by using this new method.