Organ-specific effects of DNA methylation by alkylating agents in the inbred Swiss mouse.

Young adult inbred Swiss mice given single or repeated equitoxic doses of N-methyl-N-nitrosourea (MNUA) or methyl methanesulphonate (MMS) develop thymomas and pulmonary adenomas only following MNUA in spite of nearly identical overall alkylation of DNA of tumour target tissues by both agents due mainly to the biologically ineffective product 7-methylguanine. The main difference in DNA alkylation was the production of O6-methylguinine, a known pre-mutagenic product, by MNUA in amounts 10 or more times as large as following MMS. This supports the possibility that somatic mutations are a part of the process of carcinogenesis.     

The formation of methylated bases in DNA by dimethylnitrosamine and its relation to differences in the formation of tumours in the livers of GR and C3HF mice

Metabolism of and DNA methylation by dimethylnitrosamine (DMNA) were measured in the livers of GR male and C3Hf male and female mice which showed widely different susceptibilities to tumour formation by this hepatocarcinogen.It was previously shown that continuous DMNA administration results in vascular tumours in the livers of C3Hf female mice, whereas C3Hf males develop a high incidence of hepatomas both after continuous treatment and after a single injection of DMNA to adult animals. GR males showed a low susceptibility to the formation of liver tumours under these conditions.N-demethylation of DMNA by liver microsomes showed similar activity for both C3Hf sexes; but GR males were significantly more active.At 5 and 48 h after a single injection of [¹⁴C]DMNA, the amounts of O⁶-methylguanine (O⁶-MeGua), 7-methylguanine (7-MeGua), 1-methyladenine (1-MeAde) and 3-methyladenine (3-MeAde) were similar for C3Hf males and females, with the possible exception of 7-MeGua which seemed to be slightly higher in the female. O⁶ MeGua disappeared from C3Hf liver DNA with an apparent half-life time of about 24 h. Especially at 48 h after injection, GR liver DNA was methylated to a higher extent than was C3Hf liver DNA. This result, which antiparallels the tumour incidences, may be explained by the differences in rate of N-demethylation of DMNA. where higher 7-MeGua values were found for fasted animals under otherwise identical conditions.The general conclusior to be drawn is that neither the metabolism of DMNA nor DNA methylation by this carcinogen in the livers of male GR and C3Hf male and female mice correlates With the formation of hepatomas after DMNA administration. A possible explanation of the absence of such a correlation between DNA methylation and tumour formation might be that there exists no causal relationship between both events. However, a complicating factor is that the eventual development of a tumour may be influenced by a number of—sometimes decisive—secondary factors like hormonal²⁵ or immunological²⁶ status or the presence of cellular proliferation in target organs^27,28. Evidence from other systems suggests a relationship between inactivating, mutagenic or carcinogenic effects of alkylating agents and their ability to interact with nucleic acids, especially DNA^29,30.     

In vivo repair of rat liver DNA damaged by dimethylnitrosamine or diethylnitrosamine.

Effects of hepatocarcinogens dimethylnitrosamine (DMN) and diethylnitrosamine (DEN) on the sedimentation pattern of rat liver DNA in alkaline sucrose gradients were studied with regard to time and dose dependency. Both DMN (10 mg/kg body weight) and den (13.4 or 134 mg/kg) induced appreciably decreased DNA sedimentation rates at 24 h after injection. DMN at 10 mg/kg was as effective in decreasing the DNA sedimentation rate at 24 h after injection as was the higher dose of DEN (134 mg/kg). Sedimentation patterns at 1, 6 and 14 days after injection indicated that damage induced by DEN (134 mg/kg) was repaired at a substantially lower rate than DMN (10 mg/kg) induced damage. When effects of equimolar doses of DMN (10 mg/kg) and DEN (13.4 mg/kg) were compared at 1, 6 and 14 days after injection, it was observed that the more pronounced damage of rat liver DNA induced by DMN was repaired at a faster rate than was the DEN-induced damage. At the molecular level this difference in repair between damage induced by the two nitrosamines is probably related to different DNA alkylation patterns. The relatively persistent nitrosamine-induced DNA lesions (observed especially after DEN administration) are thought to represent phosphotriesters which give rise to single strand DNA breaks at strongly alkaline conditions of lysis on top of the gradient. The results are discussed in relation to the possible significance of alkylation and repair of DNA in the formation of (pre)cancerous lesions in rat liver.     

Identification of N5-methyl-N5-formyl-2,5,6-triamino-4-hydroxypyrimidine as a major adduct in rat liver DNA after treatment with the carcinogens, N,N-dimethylnitrosamine or 1,2-dimethylhydrazine

Human Tamm-Horsfall urinary glycoprotein from an individual of the blood group Sd(a+) phenotype was tritium-labelled by treatment with galactose oxidase and sodium boro[3H]hydride and was then digested with endo-beta-galactosidase. A series of dialysable, labelled fragments was released from which a pentasaccharide was isolated that strongly inhibited the agglutination of Sd(a+) red cells by human anti-Sda serum and hence contained the Sda determinant structure. Reduction, methylation analysis and sequential exo-glycosidase digestion established the structure of the pentasaccharide as: GalNAc beta(1 leads to 4)[NeuAc(2 leads to 3)]Gal beta(1 leads to 4)GlcNAc beta(1 leads to 3)Gal     

Enhancement of autophagy is a potential modality for tumors refractory to radiotherapy

Radiotherapy is a well-established treatment for cancer. However, the existence of radioresistant cells is one of the major obstacles in radiotherapy. In order to understand the mechanism of cellular radioresistance and develop more effective radiotherapy, we have established clinically relevant radioresistant (CRR) cell lines, which continue to proliferate under daily exposure to 2 Gray (Gy) of X-rays for >30 days. X-ray irradiation significantly induced autophagic cells in parental cells, which was exiguous in CRR cells, suggesting that autophagic cell death is involved in cellular radiosensitivity. An autophagy inducer, rapamycin sensitized CRR cells to the level of parental cells and suppressed cell growth. An autophagy inhibitor, 3-methyladenine induced radioresistance of parental cells. Furthermore, inhibition of autophagy by knockdown of Beclin-1 made parental cells radioresistant to acute radiation. These suggest that the suppression of autophagic cell death but not apoptosis is mainly involved in cellular radioresistance. Therefore, the enhancement of autophagy may have a considerable impact on the treatment of radioresistant tumor.     

Rapamycin attenuates mitochondrial dysfunction via activation of mitophagy in experimental ischemic stroke

Rapamycin has been demonstrated to exhibit neuroprotective functions via the activation of autophagy in a cerebral ischemia model. However, the involvement of mitophagy in this process and its contribution to the protection of mitochondrial function remains unknown. The present study explored the characteristics of mitophagy after cerebral ischemia and the effect of rapamycin on mitochondrial function. Male Sprague–Dawley rats underwent transient middle cerebral artery occlusion (tMCAO). Neurological deficits scores; infarct volumes; mitophagy morphology; and the levels of malondialdehyde (MDA), adenosine triphosphate (ATP) and mitochondrial membrane potentials (Δψm) were examined. The expression of LC3, Beclin-1 and p62 in the mitochondrial fraction combined with transmission electronic microscopy were used to explore mitophagic activity after ischemia. We also blocked autophagosome formation using 3-methyladenine (3-MA) to check the linkage between the mitochondrial protective effect of rapamycin and enhanced mitophagy. We observed that rapamycin significantly enhanced mitophagy, as evidenced by the increase in LC3-II and Beclin-1 expression in the mitochondria and p62 translocation to the mitochondria. Rapamycin reduced infarct volume, improved neurological outcomes and inhibited mitochondrial dysfunction compared with the control animals (p < 0.05). However, these protective effects were reversed by 3-methyladenine treatment after rapamycin. The present study indicates that rapamycin treatment attenuates mitochondrial dysfunction following cerebral ischemia, which is linked to enhanced mitophagy.     

The nature of single-strand breaks in DNA following treatment of L-cells with methylating agents

DNA from untreated L-cells had a weight average molecular weight (Mw) of 5.7 ± 0.58·10⁸ daltons as measured by sedimentation in an alkaline sucrose gradient. This value was reduced by one half after the cells were treated for 1 h with 8 μg/ml of N-methyl-N-nitrosourea (MNUA), 34 μg/ml of methyl methanesulfonate (MMS) or 0.16 μg/ml of N-methyl-N′-nitro-N-nitrosoguanidine (MNNG). That dose of MNUA produced 52 methylations per 5.7·10⁸ daltons DNA. 20% of these were not purine derivatives and were assumed to contain some phosphotriesters. That dose of MMS (above) produced 290 methylations per 5.7·10⁸ daltons DNA and about 14% of these were not purine derivatives. The rates of loss of methylated purines from DNA were 2.3% per hour for 7-methylguanine (7-MeG), 7.4% per hour for 3-methyladenine (3-MeA) and no detectable loss of O⁶-methylguanine (O⁶-MeG) over a 12 h period. Since phosphotriesters are alkali-labile the single-strand breaks probably arose from this structure and did not form within the cell. This conclusion is supported by the following considerations. MNUA was more effective than MMS at reducing the molecular weight of DNA, as measured in alkaline medium. The greater SN₁ character of MNUA would cause a greater formation of phosphotriesters than would MMS.     

Oocyte-surface factor responsible for 1-methyladenine-lnduced oocyte maturation in starfish

Fully grown oocytes of the starfish Asterina pectinifera, undergo breakdown of their germinal vesicles and subsequent maturation on treatment with 1-methyladenine (1-MeAde). However, oocytes treated with seawater containing 0.010% Triton X-100 lost the capacity to respond to 1-MeAde and their germinal vesicles remained intact. These decapacitated oocytes once again ac-quired the capacity to respond to l-Me Ade when they were incubated in sea water containing the extract of fully grown oocytes treated with Triton X-100, from which the Triton X-100 was removed after extraction by means of Bio-Beads SM-2 (TXE). Recovery of the capacity was also observed after washing such TXE-treated oocytes with sea water. These results suggest that some factor (probably 1-MeAde receptor or its fragment), extracted from the oocyte surface (plasma mem-brane) by nonionic detergent, was reconstituted on the oocyte surface so that the capacity of the oocytes to respond to 1-MeAde was recovered. The factor was heat-stable and resistant to treat-ment with proteolytic enzymes.     

Interplay between autophagy and apoptosis mediated by copper oxide nanoparticles in human breast cancer cells MCF7

Background

Metal oxide nanoparticles are well known to generate oxidative stress and deregulate normal cellular activities. Among these, transition metals copper oxide nanoparticles (CuO NPs) are more compelling than others and able to modulate different cellular responses.

Methods

In this work, we have synthesized and characterized CuO NPs by various biophysical methods. These CuO NPs (~ 30 nm) induce autophagy in human breast cancer cell line, MCF7 in a time- and dose-dependent manner. Cellular autophagy was tested by MDC staining, induction of green fluorescent protein-light chain 3 (GFP-LC3B) foci by confocal microscopy, transfection of pBABE-puro mCherry-EGFP-LC3B plasmid and Western blotting of autophagy marker proteins LC3B, beclin1 and ATG5. Further, inhibition of autophagy by 3-MA decreased LD₅₀ doses of CuO NPs. Such cell death was associated with the induction of apoptosis as revealed by FACS analysis, cleavage of PARP, de-phosphorylation of Bad and increased cleavage product of caspase 3. siRNA mediated inhibition of autophagy related gene beclin1 also demonstrated similar results. Finally induction of apoptosis by 3-MA in CuO NP treated cells was observed by TEM.

Results

This study indicates that CuO NPs are a potent inducer of autophagy which may be a cellular defense against the CuO NP mediated toxicity and inhibition of autophagy switches the cellular response into apoptosis.

Conclusions

A combination of CuO NPs with the autophagy inhibitor is essential to induce apoptosis in breast cancer cells.

General significance

CuO NP induced autophagy is a survival strategy of MCF7 cells and inhibition of autophagy renders cellular fate to apoptosis.     

Further purification and characterization of human 3-methyladenine-DNA glycosylase Evidence for broad specificity

Further purification of a human placental 3-methyladenine-DNA glycosylase by phosphocellulose column chromatography yielded a 6000-fold increase in specific activity with greater than 5% recovery. Although 3-methyladenine was the predominant base released from double-stranded methylated DNA by this enzyme, minor releasing activities for 7-methylguanine and 3-methylguanine were also observed. During purification, the three DNA glycosylase activities consistently copurified with constant ratios of specific activity. Moreover, all the activities were heat-inactivated at 50°C at the same rate, required double-stranded methylated DNA as substrate, were inhibited by spermine and spermidine, and were not subject to product inhibition. These data strengthen the likelihood that the three activities are associated with a single DNA glycosylase.     

Autophagy of cytoplasmic bulk cargo does not require LC3

To investigate the role of LC3 in bulk autophagy we compared its autophagic-lysosomal processing (using an improved quantitative immunoblotting method) with autophagic-lysosomal bulk cargo flux (measured by our established LDH [lactate dehydrogenase] sequestration assay) in amino acid-starved rat hepatocytes treated with cycloheximide to prevent new LC3 influx. Block-release experiments with the reversible autophagy inhibitors 3-methyladenine (3MA) and thapsigargin (TG) showed that while only 3MA suppressed phagophoric LC3 attachment (lipidation), both inhibitors prevented phagophore closure (cargo sequestration). Upon release from closure blockade, some autophagic-lysosomal LC3 flux was resumed even in the presence of 3MA, i.e., without an accompanying bulk cargo flux. Conversely, whereas the autophagic-lysosomal flux of LC3 halted within ～100 min of cycloheximide treatment, the bulk cargo flux continued at a high rate. siRNA-mediated knockdown of LC3 family proteins in LNCaP prostate carcinoma cells confirmed that autophagy of cytoplasmic bulk cargo was completely LC3 independent also in these cells, and in the absence of cycloheximide. However, a strong requirement for GABARAP family proteins was evident. Since bulk autophagy of cytoplasm (macroautophagy) and autophagic-lysosomal LC3 processing may apparently be mutually independent, LC3 would seem to be unsuitable as a general indicator of autophagy.     

Inhibition of autophagy in mitotic animal cells

In nutrient-deprived cells autophagy recycles cytoplasmic constituents by engulfing and degrading them in membrane-bound autophagic vacuoles. The regulation of autophagic vacuole formation is poorly understood, but here we show this process is under strict cell-cycle control in cultured animal cells. We found strong inhibition of autophagic vacuole accumulation in nocodazole-arrested pseudo-prometaphase cells, and also in metaphase and anaphase cells generated on release from the nocodazole arrest. Autophagic vacuoles reappeared after closure of the nuclear envelope in telophase/G1. Treatment with phosphoinositide 3(PI3)-kinase inhibitors wortmannin, LY294002 and 3-methyladenine (known to inhibit the autophagic response in interphase cells) rescued autophagy in mitotic cells without inducing reassembly of vesiculated ER and Golgi compartments. The autophagy induced in mitotic cells was inhibited by amino acids, and the resulting autophagosomes contained proteins LC3 and Lamp1, known to be associated with autophagosomes in interphase cells. The mitotic inhibition of autophagy was not relieved by rapamycin treatment or in PDK1–/– embryonic stem cells, by microinjection of inhibitory antibodies against the class III PI3 kinase VPS34, or in cell lines lacking the p85 regulatory subunits of class IA PI3 kinases. Our results show that autophagy is under strict mitotic control and indicate a novel role for phosphoinositide 3-kinases or other wortmannin/LY294002-sensitive kinases in mitotic membrane traffic regulation .     

自噬抑制剂3-MA上调H2O2损伤的PC12细胞氧化应激水平

为探究自噬抑制剂6-氨基-3-甲基腺嘌呤（3-methyladenine,3-MA）对损伤细胞氧化应激水平的影响,将3-MA作用于H2O2诱导的PC12细胞损伤模型,以自噬增强剂雷帕霉素（rapamycin,Rap）作为对照,探讨自噬与氧化应激的关系。测定线粒体的膜电位和细胞内的活性氧（reactive oxygen species, ROS）与丙二醛(malondialdehyde, MDA)含量,以及超氧化物歧化酶(superoxide dismutase,SOD)和过氧化氢酶(catalase,CAT)活性,评价损伤细胞的氧化应激状态。单丹(磺)酰戊二胺（monodansylcadaverine,MDC）染色,观察损伤细胞的自噬情况。蛋白质印迹分析损伤细胞中的自噬相关蛋白质LC3-II/LC3-I比值变化。实验结果显示：与正常组相比,H2O2损伤细胞的ROS水平上升到正常组的141%,MDA含量增加(P<0.001);CAT与SOD酶活力显著降低(P<0.001),差异均有统计学意义,证明损伤细胞氧化应激水平增加;MDC染色结果表明,H2O2组自噬明显增加。Western印迹结果表明,LC3-II/LC3-I值显著升高（P<0.05）;与损伤组相比,3-MA组MDC染色结果表明,自噬水平降低。Western印迹结果表明,LC3-II/LC3-I值下降;细胞内ROS水平升高,增加到正常组的208%。MDA含量增加(P<0.001),CAT、SOD酶活力降低(P<0.001)。综上结果表明,自噬抑制剂可增加H2O2诱导的PC12细胞损伤模型的氧化应激水平,增加细胞凋亡。     

The binding of mycolic acids to galectin-3: a novel interaction between a host soluble lectin and trafficking mycobacterial lipids?

Understanding the molecular mechanism of host-pathogen interactions is the basis for drug design and vaccine development. The fine composition of mycolic acids (MA), the major constituents of Mycobacterium tuberculosis (Mtb) cell envelope, as well as other cell wall-associated lipids, contribute to determine the virulence of a given strain. However, endogenous receptors for mycolic acids on susceptible cells exposed to mycobacterial infections have not been fully identified. Here, we show that galectin-3, a multifunctional beta-galactoside binding lectin present mainly in the cytoplasm of inflammatory cells and also present on the cell surface, can recognize mycobacterial mycolic acids. MA can inhibit the lectin self-association but not its carbohydrate-binding abilities and can selectively interfere in the interaction of the lectin with its receptors on temperature-sensitive dendritic cell line, suggesting that galectin-3 could be involved in the recognition of trafficking mycolic acids and participate in their interaction with host cells.     

Rearrangement of the actin-spectrin cytoskeleton during oocyte maturation of the starfish Asterias amurensis

Actin and spectrin localization in the oocytes of the starfish Asterias amurensis at hormonal induction of maturation until the destruction of the germinal vesicular membrane has been investigated by immunocytochemical and immunoblotting methods. In immature oocytes, spectrinlike protein and actin are detected to be colocalized in the undermembranous area of the cytoplasm and nuclear membrane. 1-Methyladenine causes redistribution of these proteins into intracellular structures. The actin-spectrin cytoskeleton rearrangement is shown to start at the animal pole of the oocyte and to spread then to its vegetative pole.     

Hormonal Control of Meiosis in Starfishes

Development of starfish oocytes is blocked at the prophase stage of the first meiotic division. The resumption of meiotic divisions occurs under the effect of the maturation hormone 1-methyladenine (1-MeA), which binds to a specific receptor of the oocyte cell surface. New data in the literature on endocellular signal mechanisms taking part in conduction of the regulatory signal modulated by 1-MeA are adduced in the review. Data on the properties of the 1-MeA receptor are presented and mechanisms of biosynthesis of 1-MeA are considered. The main focus is on processes occurring in the oocyte during the first minutes after the impact of the hormone, before the destruction of the germinal vesicle. A hypothetical pattern of transduction of the hormonal signal is proposed.     

Anion-exchange blocker enhances cytoplasmic vacuole formation and cell death in serum-deprived mouse kidney epithelial cells in mice

An anion exchange blocker, DIDS, exhibits anti-apoptotic activity in response to several apoptotic stimuli, but has an opposite effect when apoptosis is induced by serum deprivation. After adding DIDS, serum-deprived MCT cells exhibited vacuole formation in their cytoplasm and underwent cell death. Caspase activity increased with the addition of DIDS to serum-deprived MCT cells, but Z-Asp-CH2-DCB, a caspase inhibitor, did not inhibit cell death in DIDS-treated, serum-deprived MCT cells. Cathepsin is considered to be important for vacuole formation and cell lysis, and pepstatin A, a cathepsin D inhibitor, partially inhibited vacuole formation in DIDS-treated, serum-deprived MCT cells, although caspase activation was not inhibited. 3-Methyladenin inhibited vacuole formation and cell death in DIDS-treated, serum-deprived MCT cells. These results suggest that DIDS-treated serum-deprived MCT cells undergo autophagy, not apoptosis.     

固定化产氨短杆菌MA-2、黄色短杆菌MA-3反应动力学的研究

多年来虽然有不少学者对固定化细胞生产Ｌ 苹果酸的方法进行过探讨[1～ 6] ,但对过程动力学的研究报道并不多见[2 ,7] ,在富马酸铵转化体系中的表观动力学及本征动力学模型还未见报道 ,本文对富马酸铵转化体系中固定化产氨短杆菌ＭＡ 2、黄色短杆菌ＭＡ 3细胞的动力学进行了探讨 ,测定了两种固定化细胞的表观动力学常数 ,并进一步求解了相应的本征动力学常数 ,这一结果便于从理论上指导富马酸铵转化过程的工业化生产。1　材料和方法1 1　试剂富马酸 ,工业级 ,苏州合成化工厂 ,碳酸钙 ,工业级 ,泗联化工厂。1 2　菌株本文所用的菌株是由我院…     

Development and validation of a high-performance liquid chromatography assay for the quantitative determination of 7-oxo-dehydroepiandrosterone-3β-sulfate in human plasma

A new, simple, reproducible and reliable high-performance liquid chromatography method with ultraviolet absorbance detection at 240 nm was developed and validated for the determination of 7-oxo-dehydroepiandrosterone-3β-sulfate in human plasma. The method was based upon solid-phase (C₁₈) extraction of plasma after addition of 17β-hydroxy-3β-methoxyandrost-5-en-7-one as internal standard. Using 1 ml of plasma for extraction, the detection limit of the assay was 3 ng/ml. The standard curve was linear over the concentration range 10–1000 ng/ml. Stored at −20°C for about 4 months at various concentrations in plasma, 7-oxo-dehydroepiandrosterone-3β-sulfate did not reveal any appreciable degradation. Also included herein is a method for the simultaneous detection and determination of 7-oxo-dehydroepiandrosterone and 7-oxo-dehydroepiandrosterone-3β-acetate in plasma.