Pyridazolate-bridged dicopper (II) SOD mimics with enhanced antiproliferative activities against estrogen and androgen independent cancer cell lines

The superoxide dismutase (SOD) mimicking potential of three pyridazolato-bridged copper complexes has been investigated by NBT assay. The lowest IC₅₀ value observed for the SOD activity (3.90 × 10⁻⁷ M) for [Cu₂{bis(3,6 pyrazol-1-yl)pyridazine}Cl₄OH] · Cl (3) correlates well with its more facile Cu²⁺/Cu⁺ redox couple. These compounds exhibit remarkable antiproliferative activities against estrogen independent breast (BT-20) and androgen independent prostate cancer (PC-3) cell lines, respectively. The concentration of compound 3 that inhibits 50% of cell growth (IC₅₀) after 96 h of treatment using MTT cell proliferation assay was found to be 1.73 μM in BT20 and 1.42 μM in PC3 cell line. Furthermore, compound 3 does have the ability to induce apoptosis in both cell lines after the treatment for 48 h. This effect is probably through generation of intracellular oxidative stress and induction of intrinsic apoptotic pathway.     

Effect of oxygen on the cyanobacterium Oscillatoria limnetica

Oscillatoria limnetica grown photoautotrophically under aerobic or anaerobic conditions contained a single superoxide dismutase (SOD) of identical electrophoretic mobility in both cases. Its activity was cyanide resistant and H₂O₂ sensitive, implicating Fe-SOD. The enzyme level was high in aerobically and low in anaerobically growing cells. Anaerobically grown cells were more sensitive than aerobic to photooxidation, as expressed by bleaching of phycocyanin and disintegration of the trichomes.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - SOD superoxide dismutase     

The Tetrazolium Dyes MTS and XTT Provide New Quantitative Assays for Superoxide and Superoxide Dismutase

The tetrazolium dyes MTS and XTT were reduced to their soluble formazans by superoxide radical anions (O₂^_) produced by the oxidation of xanthine by xanthine oxidase under standard conditions. These reactions were compared to the well-known reductions of NBT and cytochrome c by the xanthine/xanthine oxidase system. Reduction of the dyes was completely inhibited by superoxide dismutase (SOD). Rate constants for the reaction of MTS and XTT with O₂^_: were estimated at 1.3 × .1 × 10⁵ M-¹s^-1 and 8.6 × .8 × 10⁴ M^-1s^-1 respectively. The stable MTS and XTT formazans have high extinction coefficients in the visible range which enable sensitive detection and quantification of superoxide radicals, avoiding some of the problems inherent in assays based on production of the insoluble NBT formazan. MTS and XTT have considerable potential both for the quantitative assay of radical production in living tissues and for the assay of superoxide dismutase activity in tissue extracts. Implications for the interpretation of cell culture growth assays which employ these dyes are discussed.     

The photoproduction of superoxide radicals and the superoxide dismutase activity of Photosystem II. The possible involvement of cytochrome b559

In the present study the light induced formation of superoxide and intrinsic superoxide dismutase (SOD) activity in PS II membrane fragments and D1/D2/Cytb559-complexes from spinach have been analyzed by the use of ferricytochrome c (cyt c(III)) reduction and xanthine/xanthine oxidase as assay systems. The following results were obtained: 1.) Photoreduction of Cyt c (III) by PS II membrane fragments is induced by addition of sodium azide, tetracyane ethylene (TCNE) or carbonylcyanide-p-trifluoromethoxy-phenylhydrazone (FCCP) and after removal of the extrinsic polypeptides by a 1M CaCl₂-treatment. This activity which is absent in control samples becomes completely inhibited by the addition of exogenous SOD. 2.) The TCNE induced cyt c(III) photoreduction by PS II membrane fragments was found to be characterized by a half maximal concentration of c_1/2=10 M TCNE. Simultaneously, TCNE inhibits the oxygen evolution rate of PS II membrane fragments with c_1/2 3 M. 3.) The photoproduction of O₂ ^– is coupled with H⁺-uptake. This effect is diminished by the addition of the O₂ ^–-trap cyt c(III). 4.) D1/D2/Cytb559-complexes and PS II membrane fragments deprived of the extrinsic proteins and manganese exhibit no SOD-activity but are capable of producing O₂ ^– in the light if a PS II electron donor is added.Based on these results the site(s) of light induced superoxide formation in PS II is (are) inferred to be located at the acceptor side. A part of the PS II donor side and Cyt b559 in its HP-form are proposed to provide an intrinsic superoxide dismutase (SOD) activity.Abbreviations ADRY acceleration of the deactivation reactions of the water-splitting system Y - ANT-2p 2-(3-chloro-4-trifluoromethyl)anilino-3,5-dinitrothiophene - BCP bromocresol purple - cyt cytochrome - Cyt c cytochrome c - DCIP 2,6-dichlorophenol-indophenol - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - DEDTC Diethyldithiocarbamate - DMBQ 2,5-dimethyl-p-benzoquinone - DPC 1,5-diphenylcarbazide - FCCP carbonylcyanide-p-trifluoro/methoxy-phenylhydrazone - HP high potential - LP low potential - MES 2-(N-morpholino)ethanesulfonic acid - NADP nicotinamide adenine dinucleotide phosphate - SOD superoxide dismutase - TCNE tetracyane ethylene - TEMED N,N,N,N-tetramethylethylenediamine     

Cytotoxicity of the Hypoxanthine-Xanthine Oxidase System on V79 Cells: Comparison of the Effects of Sod and Cudips

The hypoxanthine — xanthine oxidase system generates an extracellular flux of superoxide anion radical (O₂^?) and hydrogen peroxide (H₂O₂). Catalase but not superoxide dismutase (SOD) protects V79 cells exposed to the hypoxanthine — xanthine oxidase system, showing that H₂O₂ is the major reactive oxygen species involved in the cytotoxicity of such a system. In contrast to SOD, the lipophilic SOD like compound CuII (diisopropylsalicylate)₂ (CuDIPS) exhibits some protection at non cytotoxic concentration. It is also found that methanol partially protects cells exposed to the hypoxanthine-xanthine oxidase system. It appears that in our experimental conditions (temperature, ionic strength and pH) the protective effect afforded by methanol and CuDIPS is due to the inhibition of the xanthine oxidase activity.     

Serum superoxide dismutase 3 (extracellular superoxide dismutase) activity is a sensitive indicator of Cu status in rats

Sensitivity of the assay for Cu,Zn superoxide dismutase 3 (SOD3), the predominant form of SOD in serum, can be increased, and interferences caused by low-molecular-weight substances in the serum can be reduced by conducting the assay at pH 10 with xanthine/xanthine oxidase and acetylated cytochrome c (cyt c) as superoxide generator and detector, respectively. Serum SOD3 activity was assayed under these conditions in an experiment where weanling, male rats were fed diets for 6 weeks containing 3, 5 and 15 mg Zn/kg with dietary Cu set at 0.3, 1.5 and 5 mg Cu/kg at each level of dietary Zn. Serum SOD3 responded to changes in dietary Cu but not to changes in dietary Zn. A second experiment compared serum SOD3 activity to traditional indices of Cu status in weanling, male and female rats after they were fed diets containing, nominally, 0, 1, 1.5, 2, 2.5, 3 and 6 mg Cu/kg for 6 weeks. Serum SOD3 activity was significantly lower (P < .05) in male rats fed diets containing 0 and 1 mg Cu/kg and female rats fed diet containing 0 mg Cu/kg compared with rats fed diet containing 6 mg Cu/kg. These changes were similar to changes in liver Cu concentrations, liver cyt c oxidase (CCO) activity and plasma ceruloplasmin in males and females. Serum SOD3 activity was also strongly, positively correlated with liver Cu concentrations over the entire range of dietary Cu concentrations (R(2) = .942 in males, R(2) = .884 in females, P < .0001). Plots of serum SOD3 activity, liver Cu concentration, liver CCO activity and ceruloplasmin as functions of kidney Cu concentration all had two linear segments that intersected at similar kidney Cu concentrations (18-22 microg/g dry kidney in males, 15-17 microg/g dry kidney in females). These findings indicate that serum SOD3 activity is a sensitive index of Cu status.     

Analysis of extracellular superoxide dismutase in fibroblasts from patients with systemic sclerosis

Systemic sclerosis (SSc) is a chronic disease of connective tissue characterized by vascular damage, autoantibody production and extensive fibrosis of skin, skeletal muscles, vessels and visceral organs. Fibrosis is a biological process involving inflammatory response and reactive oxygen species (ROS) accumulation leading to fibroblast activation. Extracellular superoxide dismutase (SOD3), a copper and zinc superoxide dismutase, which is expressed in selected tissues, is secreted into the extracellular space and catalyzes the dismutation of superoxide radical to hydrogen peroxide and molecular oxygen. Moreover, SOD3 is associated to inflammatory responses in some experimental models. In this paper we analysed, by RT-PCR and immunofluorescence, SOD3 expression and intracellular localization in dermal fibroblasts from both healthy donors and patients affected by diffuse form of SSc. Moreover, we determined SOD3 enzymatic activity in fibroblast culture medium with the xanthine/xanthine oxidase method. Increased expression of SOD3 mRNA was detected in systemic sclerosis fibroblasts (SScF), as compared to control healthy fibroblasts (HF), and SOD3 immunofluorescence staining displayed a characteristic pattern of secretory proteins in both HF and SScF. Superoxide dismutase assay demonstrated that SOD3 enzymatic activity in SScF culture medium is four times more than in HF culture medium. These data suggest that an alteration in SOD3 expression and activity could be associated to SSc fibrosis.     

Inhibition of xanthine oxidase reduces oxidative stress and improves skeletal muscle function in response to electrically stimulated isometric contractions in aged mice

Oxidative stress is a putative factor responsible for reducing function and increasing apoptotic signaling in skeletal muscle with aging. This study examined the contribution and functional significance of the xanthine oxidase enzyme as a potential source of oxidant production in aged skeletal muscle during repetitive in situ electrically stimulated isometric contractions. Xanthine oxidase activity was inhibited in young adult and aged mice via a subcutaneously placed time-release (2.5 mg/day) allopurinol pellet, 7 days before the start of in situ electrically stimulated isometric contractions. Gastrocnemius muscles were electrically activated with 20 maximal contractions for 3 consecutive days. Xanthine oxidase activity was 65% greater in the gastrocnemius muscle of aged mice compared to young mice. Xanthine oxidase activity also increased after in situ electrically stimulated isometric contractions in muscles from both young (33%) and aged (28%) mice, relative to contralateral noncontracted muscles. Allopurinol attenuated the exercise-induced increase in oxidative stress, but it did not affect the elevated basal level of oxidative stress that was associated with aging. In addition, inhibition of xanthine oxidase activity decreased caspase-3 activity, but it had no effect on other markers of mitochondrial-associated apoptosis. Our results show that compared to control conditions, suppression of xanthine oxidase activity by allopurinol reduced xanthine oxidase activity, H₂O₂ levels, lipid peroxidation, and caspase-3 activity; prevented the in situ electrically stimulated isometric contraction-induced loss of glutathione; prevented the increase in catalase and copper-zinc superoxide dismutase activities; and increased maximal isometric force in the plantar flexor muscles of aged mice after repetitive electrically evoked contractions.     

Studies on the photosensitized reduction of resorufin and implications for the detection of oxidative stress with Amplex Red

The photosensitized reduction of resorufin (RSF), the fluorescent product of Amplex Red, was investigated using electron spin resonance (ESR), optical absorption/fluorescence, and oxygen consumption measurements. Anaerobic reaction of RSF in the presence of the electron donor reduced nicotinamide adenine dinucleotide (NADH) demonstrated that during visible light irradiation (λ > 300 nm), RSF underwent one-electron reduction to produce a semiquinoneimine-type anion radical (RSF^• ‾) as demonstrated by direct ESR. Spin-trapping studies of incubations containing RSF, 5,5-dimethyl-1-pyrroline N-oxide (DMPO) and NADH demonstrated, under irradiation with visible light, the production of the superoxide dismutase (SOD)-sensitive DMPO/^•OOH adduct. Both absorption and fluorescence spectra of RSF in the presence of NADH demonstrated that the RSF^• ‾ was further reduced during irradiation with formation of its colorless dihydroquinoneimine form, dihydroresorufin (RSFH₂). Both RSF^• ‾ and RSFH₂, when formed in an aerobic system, were immediately oxidized by oxygen, which regenerated the dye and formed superoxide. Oxygen consumption measurements with a Clark-type oxygen electrode showed that molecular oxygen was consumed in a light-dependent process. The suppression of oxygen consumption by addition of SOD or catalase further confirmed the production of superoxide and hydrogen peroxide.     

Characterization and expression of cytoplasmic copper/zinc superoxide dismutase (CuZn SOD) gene under temperature and hydrogen peroxide (H2O2) in rotifer Brachionus calyciflorus

Superoxide dismutase (SOD, EC 1.15.1.1) is an important antioxidant enzyme that protects organs from damage by reactive oxygen species (ROS). We cloned cDNA encoding SOD activated with copper/zinc (CuZn SOD) from the rotifer Brachionus calyciflorus Pallas. The full-length cDNA of CuZn SOD was 692 bp and had a 465 bp open reading frame encoding 154 amino acids. The deduced amino acid sequence of B. calyciflorus CuZn SOD showed 63.87%, 60.00%, 59.74% and 48.89% similarity with the CuZn SOD of the Ctenopharyn godonidella, Schistosoma japonicum, Drosophila melanogaster and Caenorhabditis elegans, respectively. The phylogenetic tree constructed based on the amino acid sequences of CuZn SODs from B. calyciflorus and other organisms revealed that rotifer is closely related to nematode. Analysis of the expression of CuZn SOD under different temperatures (15, 30 and 37 °C) revealed that its expression was enhanced 4.2-fold (p < 0.001) at 30 °C after 2 h, however, the lower temperature (15 °C) promoted CuZn SOD transiently (4.1-fold, p < 0.001) and then the expression of CuZn SOD decreased to normal level (p > 0.05). When exposed to H₂O₂ (0.1 mM), CuZn SOD, manganese superoxide dismutase (Mn SOD) and catalase (CAT) gene were upregulated, and in addition, the mRNA expression of CuZn SOD gene was induced instantaneously after exposure to vitamin E. It indicates that the CuZn SOD gene would be an important gene in response to oxidative and temperature stress.     

Comparison of four indirect methods for fluid superoxide dismutase activities

Relatively small sample dilutions could render fluid extracellular (EC) superoxide dismutase (SOD) activity assays more subject to interfering compounds than tissue SOD assays. Highly variable relative SOD activity were obtained when comparing four indirect assays for several fluid samples (human plasma, human synovial fluid, and plasma from healthy or inflamed rats). Analysis of rat plasma fractionated with Sephadex G-150 showed that each assay (three xanthine oxidase based assays plus a modified pyrogallol assay) detected apparent SOD almost entirely at the same molecular weight as rat lung EC SOD. However, unfractionated fluid samples caused interferences with the xanthine oxidase based SOD assays, though not with the pyrogallol method. Examples of interference were stimulation of xanthine oxidase activity, color formation without xanthine oxidase, color formation despite excess Cu-Zn SOD addition, and absorbance changes with cyanide inhibition of EC SOD that were above or below blank values. In summary, relative fluid SOD values depended on the assay used, and a modified pyrogallol assay was not subject to several interferences found for three xanthine oxidase based assays of fluid SOD activity.     

Copper(II) complexes as superoxide dismutase mimics: Synthesis, characterization, crystal structure and bioactivity of copper(II) complexes

Two new copper(II) complexes of the type [Cu(L)X₂), where L = (E)-N-phenyl-2-[phenyl (pyridine-2-yl)methylene]hydrazinecarboxamide X = Cl/Br have been synthesized and characterized by elemental analyses, FAB (fast atomic bombardment) magnetic measurements, electronic absorption, conductivity measurements cyclic voltammetry (CV) and Electron paramagnetic resonance (epr) spectroscopy. The structures of these complexes determined by single crystal X-ray crystallography show a distorted square based pyramidal (DSBP) geometry around copper(II) metal center. The distorted CuN₂OX (X = Cl/Br) basal plane in them is comprised of two nitrogen and one oxygen atoms of the meridionally coordinated ligand and a chloride or bromide ion and axial position is occupied by other halide ion. The epr spectra of these complexes in frozen solutions of DMSO showed a signal at g ca. 2. The trend in g-value (g_|| > g_⊥ > 2.00) suggest that the unpaired electron on copper(II) has d_x²-y² character. Biological activities in terms of superoxide dismutase (SOD) and antimicrobial properties of copper(II) complexes have also been measured. The superoxide dismutase activity reveals that these two complexes catalyze the fast disproportionation of superoxide in DMSO solution.     

Effect of oxygen radicals and hyperoxia on rat heart ornithine decarboxylase activity

Rat heart ornithine decarboxylase activity from isoproterenol-treated rats was inactivated in vitro by reactive species of oxygen generated by the reaction xanthine/xanthine oxidase. Reduced glutathione, dithiothreitol and superoxide dismutase had a protective effect in homogenates and in partially purified ornithine decarboxylase exposed to the xanthine/xanthine oxidase reaction, while diethyldithiocarbamate, which is an inhibitor of superoxide dismutase, potentiated the damage induced by O₂^? on enzyme activity. Dithiothreitol at concentrations above 1.25 mM had an inhibitory effect oupon supernatant ornithine decarboxylase activity, while at 2.5 mM it was most effective in the recovery of ornithine decarboxylase activity, after the purification of the enzyme by the ammonium sulphate precipitation procedure. The ornithine decarboxylase inactivated by the xanthine/xanthine oxidase reaction showed a higher value of K_m and a reduction of V_max with respect to control activity. The exposure of rates to 100% oxygen for 3 h reduced significantly the isoproterenol-induced heart ornithine decarboxylase activity. The injection with diethyldithiocarbamate 1 h before hyperoxic exposure further reduced heart ornithine decarboxylase activity.     

Hydrogen peroxide damages the zinc-binding site of zinc-deficient Cu,Zn superoxide dismutase

Mutations in Cu,Zn superoxide dismutase (Cu,Zn SOD) account for approximately 20% of cases of familial amyotrophic lateral sclerosis (ALS), a late-onset neurodegenerative disease affecting motor neurons. These mutations decrease protein stability and lower zinc affinity. Zinc-deficient SOD (Cu,E SOD) has altered redox activities and is toxic to motor neurons in vitro. Using bovine SOD, we studied the effects of hydrogen peroxide (H(2)O(2)) on Cu,E SOD and Cu,Zn SOD. Hydrogen peroxide treatment of Cu,E SOD inactivated zinc binding activity six times faster than superoxide dismutase activity, whereas inactivation of dismutase activity occurred at the same rate for both Cu,Zn SOD and Cu,E SOD. Zinc binding by Cu,E SOD was also damaged by simultaneous generation of superoxide and hydrogen peroxide by xanthine oxidase plus xanthine. Although urate, xanthine, and ascorbate can protect superoxide dismutase activity of Cu,Zn SOD from inactivation, they were not effective at protecting Cu,E SOD. Hydrogen peroxide induced subtle changes in the tertiary structure but not the secondary structure of Cu,E SOD as detected by near and far UV circular dichroism. Our results suggest that low levels of hydrogen peroxide could potentially enhance the toxicity of zinc deficient SOD to motor neurons in ALS by rendering zinc loss from SOD irreversible.     

The superoxide reductase from the early diverging eukaryote Giardia intestinalis

Unlike superoxide dismutases (SODs), superoxide reductases (SORs) eliminate superoxide anion (O₂^•−) not through its dismutation, but via reduction to hydrogen peroxide (H₂O₂) in the presence of an electron donor. The microaerobic protist Giardia intestinalis, responsible for a common intestinal disease in humans, though lacking SOD and other canonical reactive oxygen species-detoxifying systems, is among the very few eukaryotes encoding a SOR yet identified. In this study, the recombinant SOR from Giardia (SOR_Gi) was purified and characterized by pulse radiolysis and stopped-flow spectrophotometry. The protein, isolated in the reduced state, after oxidation by superoxide or hexachloroiridate(IV), yields a resting species (T_final) with Fe³⁺ ligated to glutamate or hydroxide depending on pH (apparent pK_a = 8.7). Although showing negligible SOD activity, reduced SOR_Gi reacts with O₂^•− with a pH-independent second-order rate constant k₁ = 1.0 × 10⁹ M^− 1 s^− 1 and yields the ferric-(hydro)peroxo intermediate T₁; this in turn rapidly decays to the T_final state with pH-dependent rates, without populating other detectable intermediates. Immunoblotting assays show that SOR_Gi is expressed in the disease-causing trophozoite of Giardia. We propose that the superoxide-scavenging activity of SOR in Giardia may promote the survival of this air-sensitive parasite in the fairly aerobic proximal human small intestine during infection.     

Relationship correlation of antioxidant and antiproliferative capacity of Cyperus rotundus products towards K562 erythroleukemia cells

A Total Oligomers Flavonoids (TOFs) and ethyl acetate extracts of Cyperus rotundus were analyzed, in vitro, for their antioxidant activity using several biochemical assays: the xanthine (X)/xanthine oxidase (XO), the lipid peroxidation induced by H₂O₂ in K562 human chronic myelogenous leukemia cells and the DNA damage in pKS plasmid DNA assay induced by H₂O₂/UV-photolysis and for their apoptotic effect. TOF and ethyl acetate extracts were found to be efficient in inhibiting xanthine oxidase with IC₅₀ values of 240 and 185 μg/ml and superoxide anion with IC₅₀ values of 150 and 215 μg/ml, respectively. Also, all the extracts tested were effective in reducing the production of thiobarbituric acid reactive substances (TBARS) and were able to protect against H₂O₂/UV-photolysis induced DNA damage. The highest activity, measured as equivalents of MDA concentration, was observed in the ethyl acetate extract (MDA = 2.04 nM). In addition, the data suggest that only TOF enriched extract exerts growth inhibition on K562 cells through apoptosis induction. Therefore, these extracts were subjected to further separation by chromatographic methods. Thus, three major compounds (catechin, afzelechin and galloyl quinic acid) were isolated from the TOF enriched extract and five major compounds (luteolin, ferulic acid, quercetin, 3-hydroxy, 4-methoxy-benzoic acid and 6,7-dimethoxycoumarin) from ethyl acetate extract. Their structures were determined by spectroscopic data analysis and comparison with the literature. In addition, we evaluate the biological activities of the catechin, ferulic acid and luteolin. This investigation has revealed that the luteolin was the most active in reducing the production of TBARS (MDA = 1.5 nM), inhibiting significantly the proliferation of K562 cells (IC₅₀ = 25 μg/ml) and protecting against H₂O₂/UV-photolysis induced DNA damage. In conclusion, the study reveals that the ability of C. rotundus to inhibit the enzyme xanthine oxidase (XO), the lipid peroxidation and to exert apoptotic effect, may explain possible mechanisms by which C. rotundus exhibits its health benefits.     

Berberine inhibits aldose reductase and oxidative stress in rat mesangial cells cultured under high glucose

Diabetic nephropathy (DN), one of the most serious microvascular complications of diabetes mellitus, is a major cause of end-stage renal disease. Berberine is one of the main constituents of Coptidis rhizoma and Cortex phellodendri. In the present study, we examined effects of berberine (BBR) on renal injury in streptozotocin-induced diabetic rats, and on the changes of aldose reductase (AR) and oxidative stress in cultured rat mesangial cells exposed to high glucose. Fasting blood glucose, blood urea nitrogen, creatinine, and urine protein over 24 h were detected by using the commercially available kits. Cell proliferation, collagen synthesis, aldose reductase (AR), superoxide anion, superoxide dismutase (SOD), and malondialdehyde (MDA) were detected, respectively, by different methods. In streptozotocin-induced diabetic rats, fasting blood glucose, blood urea nitrogen, creatinine, and urine protein over 24 h were significantly decreased in rats treated with 200 mg/kg berberine for 12 weeks compared with diabetic control rats (P < 0.05). This was accompanied by a reduced AR activity and gene expression at both mRNA and protein levels. In cultured rat mesangial cells exposed to high glucose, incubation of BBR significantly decreased cell proliferation, collagen synthesis and AR activity as well as its mRNA and protein levels compared with control cells (P < 0.05). In vitro, BBR also significantly increased SOD activity and decreased superoxide anion and MDA compared with control cells (P < 0.05). These results suggested that BBR could ameliorate renal dysfunction in DN rats, which may be ascribed to inhibition of AR in mesangium, reduction of oxidative stress, and amelioration of extracellular matrix synthesis and cell proliferation. Further studies are warranted to explore the role of AR in DN and the therapeutic implications by AR inhibitors such as BBR.     

Comparison of the SOD-like activity of hexacoordinate Mn(II), Fe(II) and Ni(II) complexes having isoindoline-based ligands

Recently, a series of Fe(II) complexes have been published by our group with 3 N-donor 1,3-bis(2′-Ar-imino)isoindoline ligands containing various Ar-groups (pyridyl, 4-methylpyridyl, thiazolyl, benzimidazolyl and N-methylbenzimidazolyl). The superoxide scavenging activity of the compounds showed correlation with the Fe(III)/Fe(II) redox potentials. Analogous, electroneutral chelate complexes with Mn(II) and Ni(II) in 2:1 ligand:metal composition are reported here. Each Mn(II) complex exhibits one reversible redox wave that is assigned as the Mn(III)/Mn(II) redox transition. The E_1/2 spans a 180 mV range from − 98 (Ar = 3-methylpyridyl) to 82 mV (Ar = thiazolyl) vs. the Fc⁺/Fc depending on the Ar-sidearm. The SOD-like (SOD=superoxide dismutase)activity of all complexes was determined according to the McCord-Fridovich method. The Mn(II) isoindolinates have IC₅₀ values - determined with 50 μM cytochrome c Fe(III) - that range from (3.22 ± 0.39) × 10^− 6 (Ar = benzimidazolyl) to (10.80 ± 0.54) × 10^− 6 M (Ar = N-methylbenzimidazolyl). In contrast with the Fe(II) complexes, the IC₅₀ concentrations show no significant dependence on the E_1/2 values in this narrow potential range emphasizing that the redox potential is not the governing factor in the Mn(II)-containing scavengers. The analogous Ni(II) compounds show no redox transitions in the thermodynamically relevant potential range (− 0.40 to 0.65 V vs. SCE) and accordingly, their superoxide scavenging activity (if any) is below the detection level.     

Growth of Chlorella sorokiniana in the presence of sulfite elevates cell content of superoxide dismutase and imparts resistance towards paraquat

1. Growth of Chlorella sorokiniana in the presence of 7.5 mM sulfite, which halved the growth rate while doubling the superoxide dismutase (SOD; EC 1.15.1.1) content per cell, rendered the cells resistant to the toxic effects of 30 M paraquat. 2. While increasing total SOD content, sulfite increased the relative amount of the H₂O₂-resistant manganese-containing SOD. 3. It appears that O₂ ^– may be involved in mediating the toxicity of SO₂ in this green alga.Abbreviations SOD superoxide, dismutase - FeSOD ironcontaining superoxide dismutase - MnSOD manganese-containing superoxide dismutase     

N-acetylcysteine, coenzyme Q10 and superoxide dismutase mimetic prevent mitochondrial cell dysfunction and cell death induced by d-galactosamine in primary culture of human hepatocytes

d-Galactosamine (d-GalN) induces reactive oxygen species (ROS) generation and cell death in cultured hepatocytes. The aim of the study was to evaluate the cytoprotective properties of N-acetylcysteine (NAC), coenzyme Q₁₀ (Q₁₀) and the superoxide dismutase (SOD) mimetic against the mitochondrial dysfunction and cell death in d-GalN-treated hepatocytes. Hepatocytes were isolated from liver resections. NAC (0.5 mM), Q₁₀ (30 μM) or MnTBAP (Mn(III)tetrakis(4-benzoic acid) porphyrin chloride (1 mg/mL) were co-administered with d-GalN (40 mM) in hepatocytes. Cell death, oxidative stress, mitochondrial transmembrane potential (MTP), ATP, mitochondrial oxidized/reduced glutathione (GSH) and Q₁₀ ratios, electronic transport chain (ETC) activity, and nuclear- and mitochondria-encoded expression of complex I subunits were determined in hepatocytes. d-GalN induced a transient increase of mitochondrial hyperpolarization and oxidative stress, followed by an increase of oxidized/reduced GSH and Q₁₀ ratios, mitochondrial dysfunction and cell death in hepatocytes. The cytoprotective properties of NAC supplementation were related to a reduction of ROS generation and oxidized/reduced GSH and Q₁₀ ratios, and a recovery of mitochondrial complexes I + III and II + III activities and cellular ATP content. The co-administration of Q₁₀ or MnTBAP recovered oxidized/reduced GSH ratio, and reduced ROS generation, ETC dysfunction and cell death induced by d-GalN. The cytoprotective properties of studied antioxidants were related to an increase of the protein expression of nuclear- and mitochondrial-encoded subunits of complex I. In conclusion, the co-administration of NAC, Q₁₀ and MnTBAP enhanced the expression of complex I subunits, and reduced ROS production, oxidized/reduced GSH ratio, mitochondrial dysfunction and cell death induced by d-GalN in cultured hepatocytes.