Induction of hsp70, alterations in oxidative stress markers and apoptosis against dichlorvos exposure in transgenic Drosophila melanogaster: Modulation by reactive oxygen species

We examined a hypothesis that reactive oxygen species (ROS) generated by organophosphate compound dichlorvos modulates Hsp70 expression and anti-oxidant defense enzymes and acts as a signaling molecule for apoptosis in the exposed organism. Dichlorvos (0.015–15.0 ppb) without or with inhibitors of Hsp70, superoxide dismutase (SOD) and catalase (CAT) were fed to the third instar larvae of Drosophila melanogaster transgenic for hsp70 (hsp70-lacZ) Bg⁹ to examine Hsp70 expression, oxidative stress and apoptotic markers. A concentration- and time-dependent significant increase in ROS generation accompanied by a significant upregulation of Hsp70 preceded changes in antioxidant defense enzyme activities and contents of glutathione, malondialdehyde and protein carbonyl in the treated organisms. An inhibitory effect on SOD and CAT activities significantly upregulated ROS generation and Hsp70 expression in the exposed organism while inhibition of Hsp70 significantly affected oxidative stress markers induced by the test chemical. A comparison made among ROS generation, Hsp70 expression and apoptotic markers showed that ROS generation is positively correlated with Hsp70 expression and apoptotic cell death end points indicating involvement of ROS in the overall adversity caused by the test chemical to the organism. The study suggests that (a) Hsp70 and anti-oxidant enzymes work together for cellular defense against xenobiotic hazard in D. melanogaster and (b) free radicals may modulate Hsp70 expression and apoptosis in the exposed organism.     

Hazardous effect of organophosphate compound, dichlorvos in transgenic Drosophila melanogaster (hsp70-lacZ): induction of hsp70, anti-oxidant enzymes and inhibition of acetylcholinesterase

We tested a working hypothesis that stress genes and anti-oxidant enzyme machinery are induced by the organophosphate compound dichlorvos in a non-target organism. Third instar larvae of Drosophila melanogaster transgenic for hsp70 were exposed to 0.1 to 100.0 ppb dichlorvos and 5.0 mM CuSO(4) (an inducer of oxidative stress and stress genes) and hsp70, and activities of acetylcholinesterase (AchE), superoxide dismutase (SOD), catalase (CAT) and lipid peroxidation (LPO) product were measured. The study was further extended to examine tissue damage, if any, under such conditions. A concentration- and time-dependent increase in hsp70 and anti-oxidant enzymes was observed in the exposed organism as compared to control. A comparison of stress gene expression with SOD, CAT activities and LPO product under similar experimental conditions revealed that induction of hsp70 precedes the anti-oxidant enzyme activities in the exposed organism. Further, concomitant with a significant inhibition of AChE activity, significant induction of hsp70 was observed following chemical exposure. Mild tissue damage was observed in the larvae exposed to 10.0 ppb dichlorvos for 48 h when hsp70 expression reaches plateau. Dichlorvos at 0.1 ppb dietary concentration did not evoke significant hsp70 expression, anti-oxidant enzymes and LPO and AchE inhibition in the exposed organism, and thereby, was found to be non-hazardous to D. melanogaster. Conversely, 1.0 ppb of the test chemical stimulated a significant induction of hsp70 and anti-oxidant enzymes and significant inhibition of AchE; hence this concentration of test chemical was hazardous to the organism. The present study suggests that (a) both stress genes and anti-oxidant enzymes are stimulated as indices of cellular defense against xenobiotic hazard in D. melanogaster with hsp70 being proposed as first-tier bio-indicator of cellular hazard, (b) 0.1 ppb of the test chemical may be regarded as No Observed Adverse Effect Level (NOAEL), and 1.0 ppb dichlorvos as Low Observed Adverse Effect Level (LOAEL).     

Induction of biochemical stress markers and apoptosis in transgenic Drosophila melanogaster against complex chemical mixtures: role of reactive oxygen species

The study was aimed to investigate the effect of leachates of solid waste from a flashlight battery factory and a pigment plant on 70 kDa heat shock protein (Hsp70) expression, generation of reactive oxygen species (ROS), antioxidant enzymes activities and apoptosis in Drosophila. Third instar larvae of Drosophila melanogaster transgenic for hsp70 (hsp70-lacZ) were fed on diet mixed with leachates of solid wastes (0.05-2.0%, v/v) released from two industrial plants at three different pHs (7.00, 4.93 and 2.88) for 2-48 h. A concentration- and time-dependent significant change in Hsp70 expression, ROS generation, antioxidant enzymes activities and MDA content was observed in the exposed larvae preceding the antioxidant enzymes activities. Mitochondria-mediated, caspase-dependent apoptotic cell death in the larvae exposed to 1.0 and 2.0% leachates of flashlight battery factory was concurrent with a significant regression in Hsp70 expression and a higher ROS generation. A positive correlation drawn between ROS generation and apoptotic markers and a negative correlation between apoptotic markers and Hsp70 expression in these groups indicated the important role of ROS in the leachate-induced cellular damage. Hsp70 along with antioxidant enzymes offered protection to the organisms exposed to all the tested concentrations of the leachates of pigment plant waste and 0.5% leachate of flashlight battery factory in a cooperative manner when ROS generation was less induced. Conversely, higher levels of ROS generation in the organisms treated with 1.0 and 2.0% leachate of flashlight battery factory after 24 and 48 h resulted in regression of Hsp70 expression in them leading to cell death. The study suggests that (1) leachates of flashlight battery factory waste more adversely affected the organisms in comparison to the leachates of pigment plant waste. (2) Hsp70 may be used as a biomarker of cellular damage in organisms exposed to leachates. (3) Cell based assays using D. melanogaster as an in vivo model may provide important mechanistic information about the adverse effect of xenobiotics.     

Antioxidant responses of Chilo suppressalis (Lepidoptera: Pyralidae) larvae exposed to thermal stress

High temperatures cause a variety of physiological stress responses in insects, including increased generation of reactive oxygen species (ROS), which can cause oxidative damage. This study investigated the effects of thermal stress on ROS generation, the expression of heat shock protein 70 (Hsp70) at the mRNA and protein levels, the activity of antioxidant enzymes (SOD, CAT), and apoptosis in hemocytes of Chilo suppressalis larvae. Results indicated that thermal stress significantly elevated the level of ROS and antioxidant enzyme activity in C. suppressalis larvae. Real-time quantitative PCR showed that hsp70 gene expression was induced by heat stress. Flow cytometric results revealed that the expression profile of Hsp70 at the protein level was in agreement with that at the mRNA level. The expression of Hsp70 at both the mRNA and protein levels reached a maximum at 36 °C in larval hemocytes. Exposure to tested temperatures did not cause any significant change in the rate of apoptosis in larval hemocytes. These results suggest that thermal stress leads to oxidative stress and that antioxidant enzymes and the Hsp70 play an important role in reducing oxidative damage in C. suppressalis larvae.     

Transfection of NS0 myeloma fusion partner cells with HSP70 gene results in higher hybridoma yield by improving cellular resistance to apoptosis

Mouse myeloma NS0 cells widely used in hybridoma technology lack the expression of a major stress protein Hsp70 which is the principal component of the basic cellular defense mechanism. These cells rapidly undergo apoptosis at the late-stationary phase of batch culture following nutrient exhaustion. Since Hsp70 was recently demonstrated to protect cells against numerous apoptotic stimuli, the aim of the present study was to examine the protective potential of the protein expression in engineered myeloma NS0 cells and in resulting hybridomas. Myeloma cells were transfected with the hsp70 gene under beta-actin gene promoter. To imitate harmful conditions that hybridoma or myeloma cells often experience when cultivated in large scale for an antibody production, NS0(wt) and NS0(hsp70) cell cultures were maintained without changing the medium for a few days, and the expression of apoptotic markers has been studied. It was found that long-term cultivation induced apoptosis in original cells manifested by typical nuclei fragmentation, DNA ladders and activation of caspase-3. In contrast, in transfected cells under the same conditions the outcome of apoptosis was postponed for 24 hours. Most relevant was that the fusion of transfected myeloma cells with immune splenocytes resulted in twofold hybridomas output compared with wild-type fusion partner. Almost half of the hybridomas continued to be hsp70-positive and maintained higher robustness in culture. The level of monoclonal antibodies production by hybridoma cells obtained with the use of NS0(wt) and NS0(hsp70) was similar, however, the secreted product was better preserved in culture supernatants of Hsp70-positive cells. It is concluded that transfection of mouse myeloma cells with the hsp70 gene can be a novel means to increase hybridoma yield and reduce the sensitivity of myeloma and hybridoma cells to culture conditions insults accompanying monoclonal antibody production.     

How do plants cope with oxidative stress in nature? A study on the dwarf bearded iris (Iris pumila)

Oxidative stress results from incongruity between the generation of toxic reactive oxygen species (ROS) and the availability of their scavengers—antioxidants. Although the short-term effects of this phenomenon are attracting much scientific attention, oxidative stress may influence an organism’s metabolism over the long (evolutionary) time scale as well. To disentangle the impact of strong light intensity from co-occurring abiotic stresses in creating adaptive responses in antioxidants and heat shock proteins (Hsps), an environment manipulation experiment was performed using a xerophyte clonal monocot, Iris pumila, native to semi-arid grasslands at the Deliblato Sands. This species is very tolerant to the combined effect of extreme abiotic stressors such as high light intensity, elevated soil surface temperatures, and scarcity of water, which commonly takes place in its natural habitats during the summer. By shading half of each selected clone, leaving the other half sun-exposed, we contrasted short-term effects of reduced daylight intensity with long-term effects of photo-oxidative stress. In both light treatments, the enzymatic activities of SOD and APX antioxidants were similar in magnitude, whereas those of CAT and POD significantly decreased in exposed compared to shaded leaves. Moreover, exposed leaves expressed a unique CAT isoform that differed biochemically from two CAT isoforms observed in shaded leaves. The content of non-enzymatic antioxidants, carotenoids (Car), remained constant with the reduction of light intensity, but their ratio to total chlorophylls (Chl) significantly decreased compared to that expressed in full sunlight. The abundance of Hsps was considerably greater in exposed than in shaded leaves, especially regarding the inducible isoforms, Hsp70 and Hsp90a, as were their proportions in relation to the constitutively expressed Hsp90b isoform. The presented results, thus, indicate that adaptive metabolic responses of I. pumila leaves to photo-oxidative stress entailed the high activity of two key enzymatic antioxidants, SOD and APX and the expression of a light-resistant CAT—to counteract the stress-mediated ROS accumulation, the increased Car to Chl ratio—to adjust the photosynthetic apparatus to the high light conditions, as well as the accelerated biosynthesis of heat shock proteins Hsp70 and Hsp90—to preserve the cellular proteostasis.     

A comparative proteomic analysis for capsaicin-induced apoptosis between human hepatocarcinoma (HepG2) and human neuroblastoma (SK-N-SH) cells

The endogenous ROS levels were increased during HepG2 apoptosis, whereas they were decreased during SK-N-SH apoptosis in response to capsaicin treatments. We used 2-DE-based proteomics to analyze the altered protein levels in both cells, with special attention on oxidative stress proteins before and after capsaicin treatments. The 2-DE analysis demonstrated that 23 proteins were increased and 26 proteins were decreased significantly (fold change>1.4) in capsaicin-treated apoptotic HepG2 and SK-N-SH cells, respectively. The distinct effect of capsaicin-induced apoptosis on the expression pattern of HepG2 proteins includes the downregulation of some antioxidant enzymes including aldose reductase (AR), catalase, enolase 1, peroxiredoxin 1, but upregulation of peroxiredoxin 6, cytochrome c oxidase, and SOD2. In contrast, most antioxidant enzymes were increased in SK-N-SH cells in response to capsaicin, where catalase might play a pivotal role in maintenance of low ROS levels in the course of apoptosis. The global gene expression for oxidative stress and antioxidant defense genes revealed that 84 gene expressions were not significantly different in HepG2 cells between control and capsaicin-treated cells. In contrast, a number of oxidative genes were downregulated in SK-N-SH cells, supporting the evidence of low ROS environment in apoptotic SK-N-SH cells after capsaicin treatment. It was concluded that the different relationship between endogenous ROS levels and apoptosis of two cancer cells presumably resulted from complicated expression patterns of many oxidative stress and antioxidant genes, rather than the individual role of some classical antioxidant enzymes such as SOD and catalase.     

Transduced human PEP-1–catalase fusion protein attenuates ischemic neuronal damage

Antioxidant enzymes are considered to have beneficial effects against various diseases mediated by reactive oxygen species (ROS). Ischemia is characterized by both oxidative stress and changes in the antioxidant defense system. Catalase (CAT) and superoxide dismutase (SOD) are major antioxidant enzymes by which cells counteract the deleterious effects of ROS. To investigate the protective effects of CAT, we constructed PEP-1–CAT cell-permeative expression vectors. When PEP-1–CAT fusion proteins were added to the culture medium of neuronal cells, they rapidly entered the cells and protected them against oxidative stress-induced neuronal cell death. Immunohistochemical analysis revealed that PEP-1–CAT prevented neuronal cell death in the hippocampus induced by transient forebrain ischemia. Moreover, we showed that the protective effect of PEP-1–CAT was observed in neuronal cells treated with PEP-1–SOD. Therefore, we suggest that transduced PEP-1–CAT and PEP-1–SOD fusion proteins could be useful as therapeutic agents for various human diseases related to oxidative stress, including stroke.     

Abnormality of maternal‐to‐embryonic transition contributes to MEHP‐induced mouse 2‐cell block

Mono (2‐ethylhexyl) phthalate (MEHP), an environmental contaminant, is known to cause many serious diseases, especially in reproductive system. However, little is known about the effect of MEHP on preimplantation embryo development. In this study, we found that the development of mouse 2‐cell embryo was blocked by 10^?3 M MEHP. A significant increase in the level of reactive oxygen species (ROS) was observed in arrested 2‐cell embryo following 10^?3 M MEHP treatment for 24 h. However, antioxidants, catalase (CAT), and superoxide dismutase (SOD), reduced intracellular ROS and protected MEHP‐exposed embryos from death but failed to return the arrested embryos. Further experiments demonstrated that the level of apoptosis was not altered in live arrested 2‐cell embryo and increased in dead arrested 2‐cell embryo after MEHP treatment, which implied that ROS and apoptosis were not related with 2‐cell block. During analysis of the indicators of embryonic genome activation (EGA) initiation (Hsc70, MuERV‐L, Hsp70.1, eIF‐1A, and Zscan4) and maternal‐effect genes (OCT4 and SOX2), we found that MEHP treatment could significantly decline Hsc70, MuERV‐L mRNA level and SOX2 protein level, and markedly enhance Hsp70.1, eIF‐1A, Zscan4 mRNA level, and OCT4 protein level at 2‐cell to 4‐cell stage. Supplementation of CAT and SOD did not reverse the expression tendency of EGA related genes. Collectively, this study demonstrates for the first time that MEHP‐induced 2‐cell block is mediated by the failure of EGA onset and maternal‐effect genes, not oxidative stress and apoptosis. J. Cell. Physiol. 228: 753–763, 2013. © 2012 Wiley Periodicals, Inc.     

Inhibition of ErbB2 by Herceptin reduces viability and survival, induces apoptosis and oxidative stress in Calu-3 cell line

Human epidermal growth factor receptor 2 (ErbB2) amplification and overexpression has been seen in many cancer types including non-small cell lung cancer (NSCLC). Thus, ErbB2 is an important target for cancer therapies. Increased ErbB2 expression has been associated with drug resistance in cancer cells. Herceptin is a humanized monoclonal antibody that targets the extracellular domain of ErbB2. In this study, we aimed to block ErbB2 signaling with Herceptin and assess cytotoxicity and effects on apoptosis, oxidative stress, nuclear factor kappa-B (NF-kB), and Survivin expression in Calu-3 cell line. 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2H-tetrazolium bromide (MTT) assay were used to assess cell viability as a marker of proliferation. Acridine orange/ethidium bromide (AO/EB) staining and caspase 3/7 activity were measured as the markers of apoptosis. The relative expressions of NF-kB-p50 and Survivin mRNAs were evaluated. Activities of antioxidant enzymes such as superoxide dismutase (SOD) and catalase (CAT), and the levels of glutathione (GSH) and reactive oxygen species (ROS) were determined in a time- and dose-dependent manner. Our results show that Herceptin treatment inhibits cell proliferation and activates apoptosis but without effects on Survivin and NF-kB expression in Calu-3 cell line. Intracellular glutathione levels and SOD and CAT activities were decreased in a time- and dose-dependent manner associated with oxidative stress. Also, ROS were increased at 24 h. These results provide evidence that Herceptin can be used as a cytotoxic and apoptotic agent in NSCLC.     

Increased oxidative stress induces apoptosis in human cystic fibrosis cells

Oxidative stress results in deleterious cell function in pathologies associated with inflammation. Here, we investigated the generation of superoxide anion as well as the anti-oxidant defense systems related to the isoforms of superoxide dismutases (SOD) in cystic fibrosis (CF) cells. Pro-apoptotic agents induced apoptosis in CF but not in control cells that was reduced by treatment with SOD mimetic. These effects were associated with increased superoxide anion production, sensitive to the inhibition of IκB-α phosphorylation, in pancreatic but not tracheal CF cells, and reduced upon inhibition of either mitochondrial complex I or NADPH oxidase. CF cells exhibited reduced expression, but not activity, of both Mn-SOD and Cu/Zn-SOD when compared to control cells. Although, expression of EC-SOD was similar in normal and CF cells, its activity was reduced in CF cells. We provide evidence that high levels of oxidative stress are associated with increased apoptosis in CFTR-mutated cells, the sources being different depending on the cell type. These observations underscore a reduced anti-oxidant defense mechanism, at least in part, via diminished EC-SOD activity and regulation of Cu/Zn-SOD and Mn-SOD expressions. These data point to new therapeutic possibilities in targeting anti-oxidant pathways to reduce oxidative stress and apoptosis in CF cells.     

Arsenic trioxide induces Hsp70 expression via reactive oxygen species and JNK pathway in MDA231 cells

In the present study, we determined the molecular pathways that induce the heat shock proteins (Hsps) after treatment of cells with arsenic trioxide. Administration of arsenic trioxide to MDA231 cells leads to induce Hsp70, which is accompanied by generation of reactive oxygen species (ROS) and activation of c-Jun N-terminal kinase (JNK). We showed that arsenic trioxide-induced Hsp70 expression was caused by activation of ROS and prevented by the antioxidant N-Acetyl-Cysteine (NAC). SP600125 and dominant-negative SEK suppressed Hsp70 promoter-driven reporter gene expression, suggesting that JNK would be preferentially associated with the protective heat shock response against arsenic trioxide stress. In addition, SP600125, a specific JNK inhibitor, significantly reduced the amount of phosphorylated HSF1 upon administration of arsenic trioxide. It is likely that Hsp70 expression against arsenic trioxide exposure protects cells from oxidative injury and apoptotic cell death by means of JNK activity.     

Apoptosis and biochemical biomarkers of stress in spiders from industrially polluted areas exposed to high temperature and dimethoate

The aim of this study was to evaluate the relations between apoptosis and the activity of antioxidant enzymes (superoxide dismutase; catalase) and quantitative changes in stress protein positive cells (Hsp70; metallothionein) in midgut glands of funnel web spiders Agelena labyrinthica (Agelenidae) and wolf spiders Pardosa lugubris (Lycosidae) exposed to high temperature and pesticide under laboratory conditions. The spiders were collected from two meadow ecosystems differently polluted with metals (Olkusz and Pilica, southern Poland). Under stress conditions, P. lugubris had fewer apoptotic cells in the midgut glands than A. labyrinthica. In P. lugubris from both sites, the observed increase in the percentage of metallothionein and Hsp70-positive cells, simultaneous with intensification of superoxide dismutase and catalase activity, suggests an anti-apoptotic function of those proteins in representatives of wandering spiders. In the midgut glands of A. labyrinthica, heat shock and dimethoate increased the number of Annexin V-positive cells as well as the amounts of mitochondria with low transmembrane potential (DeltaPsi(m)) versus the control. The changes in the percentage of MT- and Hsp70-positive cells in funnel web spiders were less than in wolf spiders. The absence of change in SOD and CAT activity in A. labyrinthica shows that the participation of those enzymes in antioxidant reactions is minimal in this species.     

二氧化硫胁迫导致拟南芥防护基因表达改变

研究SO2熏气对拟南芥细胞中mRNA和蛋白质表达的影响,分析植株对逆境胁迫的响应机制.结果表明,30 mg·m-3 SO2 熏气72 h后拟南芥地上组织中差异表达1倍以上的基因有494个,其中抗氧化酶、谷胱甘肽硫转移酶(GST)、硫氧还蛋白等多种与逆境生理关系密切的基因表达上调;2.5～30 mg·m-3 SO2 熏气可导致超氧化物岐化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GPX)和GST的活性诱导性增高,SOD、CAT同工酶谱带特征改变.研究结果表明,SO2 胁迫能够诱导拟南芥中防护基因在mRNA和蛋白质表达水平的改变,这些基因的差异性表达可能对逆境生理过程有益.     

亚硝酸盐胁迫对罗氏沼虾血细胞及其抗氧化酶活力的影响

【背景】亚硝酸盐是虾类集约化养殖过程中最常见的毒性污染物之一,研究亚硝酸盐胁迫对罗氏沼虾血细胞的毒性以及抗氧化酶在抗胁迫防御中的作用,能够为罗氏沼虾养殖过程中的亚硝酸盐中毒防治提供理论参考。【方法】以不同浓度(0、1、5和10 mg·L~(-1))的亚硝态氮(NO_2~--N)对罗氏沼虾进行胁迫,于胁迫后的0、6、12、24和48 h取样,应用流式细胞术检测血细胞活性氧(ROS)含量和细胞凋亡率,同时测定血细胞总数(THC)和胞内抗氧化酶活力。【结果】1 mg·L~(-1)NO_2~--N在48 h内对血细胞ROS含量、凋亡率和THC均无显著影响。5 mg·L~(-1)NO_2~--N胁迫24 h,血细胞ROS含量显著上升,THC显著下降,胁迫48 h凋亡率显著提高。10 mg·L~(-1)NO_2~--N胁迫6 h,血细胞ROS含量和凋亡率均显著上升,胁迫12 h THC显著下降。血细胞的超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和谷胱甘肽过氧化物酶(GPx)的活力均不同程度地被NO_2~--N胁迫所诱导,CAT活力主要在胁迫前期提高,而GPx活力在胁迫后期提高。【结论与意义】亚硝酸盐存在浓度和时间毒性效应,一定浓度的亚硝酸盐会诱导虾血细胞产生ROS,这些ROS的过量产生诱导了血细胞发生凋亡,继而导致THC下降,这一氧化胁迫过程可能是亚硝酸盐对罗氏沼虾产生细胞毒性的重要机制之一。抗氧化酶活力的诱导表明抗氧化酶在亚硝酸盐胁迫过程中发挥防御作用。     

Ayurvedic <Emphasis Type="Italic">Amalaki Rasayana</Emphasis> promotes improved stress tolerance and thus has anti-aging effects in <Emphasis Type="BoldItalic">Drosophila melanogaster</Emphasis>

Amalaki Rasayana (AR) is a common Ayurvedic herbal formulation of Phyllanthus emblica fruits and some other ingredients, and is used for general good health and healthy aging. We reported it to improve life history traits and to suppress neurodegeneration as well as induced apoptosis in Drosophila. The present study examines responses of Drosophila reared on AR-supplemented food to crowding, thermal or oxidative stresses. Wild-type larvae/flies reared on AR-supplemented food survived the various cell stresses much better than those reared on control food. AR-fed mutant park ¹³ or DJ-1β ^Delta93 (Parkinson’s disease model) larvae/flies, however, showed only partial or no protection, respectively, against paraquat-induced oxidative stress, indicating essentiality of DJ-1β for AR-mediated oxidative stress tolerance. AR feeding reduced the accumulation of reactive oxygen species (ROS) and lipid peroxidation even in aged (35-day-old) wild-type flies while enhancing superoxide dismutase (SOD) activity. We show that while Hsp70 or Hsp83 expression under normal or stress conditions was not affected by AR feeding, Hsp27 levels were elevated in AR-fed wild-type control as well as heat-shocked larvae. Therefore, besides the known anti-oxidant activity of Phyllanthus emblica fruits, dietary AR also enhances cellular levels of Hsp27. Our in vivo study on a model organism shows that AR feeding significantly improves tolerance to a variety of cell stresses through reduced ROS and lipid peroxidation on the one hand, and enhanced SOD activity and Hsp27 on the other. The resulting better homeostasis improves life span and quality of organism’s life.     

Pomegranate reverses methotrexate-induced oxidative stress and apoptosis in hepatocytes by modulating Nrf2-NF-κB pathways

The clinical efficacy of the widely used chemotherapeutic drug methotrexate (MTX) is limited due to its associated hepatotoxicity. Pomegranate polyphenols are of huge health benefits and known to possess remarkable antioxidant properties capable of protecting normal cells from various stimuli-induced oxidative stress and cell death. In this study, we explored the protective role of pomegranate fruit extract (PFE) in ameliorating MTX-induced hepatic damage. Male Swiss albino mice exposed to MTX (20 mg/kg body weight) exhibited distinct markers of toxicity such as increased activities of enzymes alanine transaminase, aspartate transaminase, lactate dehydrogenase and alkaline phosphatase and also increased oxidative stress in liver evidenced by increased ROS generation and lipid peroxidation. Decrease in reduced glutathione levels, superoxide dismutase, catalase, hepatic heme oxygenase 1 and NQO-1 activities were also observed. Tracing the signal transduction pathways, it was seen that MTX exposure significantly increased nuclear translocation of NF-κB coupled with increase in phosphorylated Iκ-B and down-regulation of NF-kappaB-dependent antiapoptotic protein Bcl-2. Treatment with MTX increased the expression of the apoptotic enhancer Rho/Cdc42 as well as the phosphorylation of SAPK/JNK. A shift in the Bax/Bcl-2 ratio towards apoptosis and increase in the caspase 3 level was also evident. Administration of PFE for 7 consecutive days before and after MTX challenge suppressed MTX-induced cell death, mitigated the injurious effects of MTX and offered protection against apoptosis. PFE was shown to reduce ROS generation in hepatocytes by activating the Nrf2-ARE pathway and inhibiting NF-κB as a consequence of which the antioxidant defense mechanism in the liver was up-regulated, thereby conferring protection against MTX-induced hepatotoxicity and apoptosis.     

Involvement of heat shock protein-70 in the mechanism of hydrogen peroxide-induced DNA damage: the role of lysosomes and iron

Heat shock protein-70 (Hsp70) is the main heat-inducible member of the 70-kDa family of chaperones that assist cells in maintaining proteins functional under stressful conditions. In the present investigation, the role of Hsp70 in the molecular mechanism of hydrogen peroxide-induced DNA damage to HeLa cells in culture was examined. Stably transfected HeLa cell lines, overexpressing or lacking Hsp70, were created by utilizing constitutive expression of plasmids containing the functional hsp70 gene or hsp70-siRNA, respectively. Compared to control cells, the Hsp70-overexpressing ones were significantly resistant to hydrogen peroxide-induced DNA damage, while Hsp70-depleted cells showed an enhanced sensitivity. In addition, the "intracellular calcein-chelatable iron pool" was determined in the presence or absence of Hsp70 and found to be related to the sensitivity of nuclear DNA to H(2)O(2). It seems likely that the main action of Hsp70, at least in this system, is exerted at the lysosomal level, by protecting the membranes of these organelles against oxidative stress-induced destabilization. Apart from shedding additional light on the mechanistic details behind the action of Hsp70 during oxidative stress, our results indicate that modulation of cellular Hsp70 may represent a way to make cancer cells more sensitive to normal host defense mechanisms or chemotherapeutic drug treatment.