Oxidative stress and antioxidative status of plasma and erythrocytes in patients with vivax malaria

OBJECTIVES: To investigate the oxidative stress and antioxidative status of plasma and erythrocytes in patients with vivax malaria and healthy persons. DESIGN AND METHODS: Activities of antioxidative enzymes, rates of pathways of hexose monophosphate shunt and purine salvage, levels of lipid peroxidation, reduced glutathione, methemoglobin and sulfhemoglobin of erythrocytes were determined. Lipid peroxidation and levels of antioxidant substances were measured. RESULTS: Antioxidants levels and antioxidative enzymes activities were lower and lipid peroxidation, purine salvage rate were higher in patients group than controls. Erythrocyte glucose-6 phosphate dehydrogenase (G-6-PD) activity was not different from that of healthy subjects. CONCLUSIONS: Oxidative mechanisms were observed to be dominant compared with antioxidative mechanisms in patients with vivax malaria. Therefore, oxidative stress may be produced and maintained by the host defense mechanisms against malarial infection.     

Superoxide dismutase isoenzymes in human seminal plasma and spermatozoa

Superoxide radicals may exert both toxic and physiological regulating actions on spermatozoa. The objective of the present study was to examine the occurrence and distribution of the three superoxide dismutase (SOD) isoenzymes in human seminal plasma and spermatozoa. Human seminal plasma has previously been reported to possess high SOD activity. Here we show that the normally cytosolic CuZn-SOD remarkably accounts for 75% of the activity while the secretory extracellular SOD (EC-SOD) accounts for 25%. Studies of split ejaculates suggest that both these SOD isoenzymes are of primarily prostatic origin. The Mn-SOD activity was negligible. The total SOD activity of seminal plasma was 20 times higher than that of human blood plasma. While native EC-SOD shows high affinity for heparin and heparan sulphate, 90% of the EC-SOD in seminal plasma lacks the high affinity at ejaculation. Thus only a minor part of the seminal plasma EC-SOD has the potential to bind to cell surfaces. Human spermatozoa were found to contain exceptionally large amounts of CuZn-SOD. There was little Mn-SOD activity and the amount of EC-SOD was negligible. We conclude that spermatozoa in semen are exceptionally well protected against superoxide radicals both internally and externally. This should be of importance for both their survival and the integrity of DNA, and may also have physiological effects such as influencing capacitation.     

Oxidative stress in Huntington's disease

It has been five years since the elucidation of the genetic mutation underlying the pathogenesis of Huntington's disease (HD) (97), however the precise mechanism of the selective neuronal death it propagates still remains an enigma. Several different etiological processes may play roles, and strong evidence from studies in both humans and animal models suggests the involvement of energy metabolism dysfunction, excitotoxic processes, and oxidative stress. Importantly, the recent development of transgenic mouse models of HD led to the identification of neuronal intranuclear inclusion bodies in affected brain regions in both mouse models and in HD brain, consisting of protein aggregates containing fragments of mutant huntingtin protein. These observations opened new avenues of investigation into possible huntingtin protein interactions and their putative pathogenetic sequelae. Amongst these studies, findings of elevated levels of oxidative damage products such as malondialdehyde, 8-hydroxydeoxyguanosine, 3-nitrotyrosine and heme oxygenase in areas of degeneration in HD brain, and of increased free radical production in animal models, indicate the involvement of oxidative stress either as a causative event, or as a secondary constituent of the cell death cascade in the disease. Here we review the evidence for oxidative damage and potential mechanisms of neuronal death in HD.     

Oxidative stress and lung function

It has been suggested that lung function can be altered by both free radical and oxidant exposure, while antioxidant vitamin intake is positively related to lung function. However, the information on the relation of blood levels of oxidants and antioxidants to lung function is sparse. The present cross-sectional study, conducted from September 1995 to May 1996, analyzes the association between lung function measured as forced expiratory volume in 1 second (FEV1) with 1) levels of thiobarbituric acid-reactive substances in plasma (p-TBARS) and in low and very low density lipoprotein cholesterol (LDL cholesterol/VLDL cholesterol-TBARS) as indicators of lipid peroxidation and 2) compounds with antioxidant activity, erythrocytic glutathione, plasma glutathione peroxidase, trolox equivalent antioxidant capacity, and serum bilirubin, which may protect against lipid peroxidation. The analysis was carried out in 132 nonsmoking subjects aged 37-73 years who were randomly selected from the residents of Erie and Niagara counties, New York. FEV1 in percent of the predicted value (FEV1%) was negatively and statistical significantly associated with p-TBARS (r = -0.19). A negative association with borderline statistical significance was observed between FEV1% with low density lipoprotein cholesterol/very low density lipoprotein cholesterol-TBARS (r = -0.16) and glutathione (r = -0.16), while FEV1% was positively related to serum bilirubin (r = 0.15). Participants in the lowest quartile of FEV1% showed significantly higher levels of p-TBARS (p = 0.02) and lower levels of bilirubin (p = 0.04) than did those in the highest quartile. Our results suggest that increased lipid peroxidation is associated with pulmonary airway narrowing in the general population.     

Oxidative stress and the brain

Although the cause of Parkinson's disease is unknown, oxidative stress has been implicated in its pathogenesis. This theory postulates that normal metabolic processes in the nigrostriatal dopaminergic system may lead to loss of neurons, and that iron-dependent membrane lipid peroxidation may play an important role in the neuronal death. Recent research concerning iron-dependent lipid peroxidation is presented. First, catechols (including dopa and dopamine) and iron form strong oxidizing complexes and induce lipid peroxidation (LPO) in phospholipid liposomes. Active oxygen species including superoxide, hydrogen peroxide, hydroxyl radical and singlet oxygen, do not participate in this LPO, which is inhibited by an excess of dopa (dopamine). Cultured neurons and the substantia nigra are vulnerable to LPO. Second, synthetic melanin prepared by the autooxidation of catechols promotes LPO in the presence of iron. The effects of scavenging agents indicate that this LPO is mediated by superoxide, but not by other oxygen free radicals. Neuronal cell cultures are destroyed by this LPO. Third, catechols and superoxide produced by microglia cause the release of iron from ferritin. Microglia stimulated by phorbol myristate acetate produce superoxide and cause the release of iron from ferritin. Catechols also induce mobilization of ferritin iron. The released iron (i.e. loosely-bound iron) is available to iron-dependent LPO. These data suggest that the biochemical and morphological characteristics of the substantia nigra, which are concomitant with its functional role, provoke iron-dependent lipid peroxidation. It is essential to elucidate how iron bound loosely to low molecules comes into contact with catechols, neuromelanin and superoxide. Drugs that chelate iron site-specifically or modulate the microglial function may bring about some favorable changes in the disease process.     

The lipids of buffalo spermatozoa and seminal plasma

An allometric method for estimating the volume change in inflamed paw of rats is described. The technique is effective and advantageous for long term observation of adjuvant arthritis which lacks a suitable reference criterion due to the simultaneous swelling of the control paw. In the present method, the inflammatory intensity (IF) of paw edema is estimated by means of the formula; IF(%)=(2Vr/cXd(I+Wt/aXb)-I) X 100 where Vt is the paw volume, Wt is the body weight weight and X is the tail length of the inflamed rat. The constants a, b, c, and d are obtained from tthe normal rats using the relative growth law, W=aXb and V=cXd (where W is the body weight, V is the paw volume and X is the tail length).     

Oxidative stress and motor neurone disease

The effects of oxidative stress within post mitotic cells such as neurones may be cumulative, and injury by free radical species is a major potential cause of the age-related deterioration in neuronal function seen in several neurodegenerative diseases. There is strong evidence that oxidative stress plays an important role in the pathogenesis of motor neurone disease (MND). Point mutations in the antioxidant enzyme Cu,Zn superoxide dismutase (SOD1) are found in some pedigrees with the familial form of MND. How mutations in this ubiquitous enzyme cause the relatively selective cell death of specific groups of motor neurones is not clear, although a number of hypotheses have been forwarded. These include (1) the formation of hydroxyl radicals, (2) the catalysis of reactions of the nitrogen centred oxidant species peroxynitrite, (3) toxicity of copper or zinc and (4) protein aggregation. Some experimental support for these different hypotheses has been produced by manipulating cells in culture to express the mutant SOD1 proteins and by generating transgenic mice which over-express mutant SOD1. Observations in these model systems are, in some cases at least, supported by observations made on pathological material from patients with similar SOD1 mutations. Furthermore, there are reports of evidence of free radical mediated damage to neurones in the sporadic form of MND. Several lines of evidence suggest that alterations in the glutamatergic neurotransmitter system may also play a key role in the injury to motor neurones in sporadic MND. There are several important subcellular targets, which may be preferentially impaired within motor neurones, including neurofilament proteins and mitochondria. Future research will need to identify the aspects of the molecular and physiological phenotype of human motor neurones that makes them susceptible to degeneration in MND, and to identify those genetic and environmental factors which combine to cause this disease in individuals and in familial pedigrees.     

Effect of seminal plasma on implantation rates

Of 2774 consecutive, prospectively documented fractures of the distal radius, 225 (8 per cent) occurred as sports injuries, mainly in young men. Soccer produced the greatest number of wrist fractures with 112 cases (50 per cent). Skiing, dancing and rugby caused 12 per cent, 9 per cent and 7 per cent of all sporting wrist fractures respectively. Skiing, horseriding and dancing consistently resulted in more complex fractures. In soccer, synthetic pitches increased the likelihood of a fracture following a fall by a factor of five. Twelve per cent of fractures required further treatment because of instability leading to redisplacement. The complication rate was 14 per cent with the majority being cases of malunion (12 per cent). Of the 131 patients who returned a questionnaire, 72.5 per cent had returned to their original sport. This was influenced mainly by the patient's age and pre-injury standard of competition.     

Effect of seminal plasma on capacitation and hyperactivation in human spermatozoa

While hyperactivated motility is known to be a concomitant of capacitation, and a prerequisite for fertilization, the specific interdependence of capacitation and hyperactivation in human spermatozoa has not been investigated. This study was designed to determine the effect of seminal plasma contamination on the expression of hyperactivated motility and the relationship between hyperactivation and capacitation, since seminal plasma contains decapacitation factor(s). Seminal plasma was obtained by centrifugation of aliquots of liquefied semen layered over 1.5 ml 40.5% Percoll and mixed with human tubal fluid (HTF) medium containing 30 mg/ml human serum albumin (HSA) (HTF) to a final concentration of 5% (v/v) seminal plasma (SP). Motile spermatozoa were isolated from the remainder of the semen by swim-up into either HTF or SP medium. Samples were taken from each treatment immediately post-harvest (0 h) and after 60 min at 37 degrees C (1 h) for hyperactivation and capacitation assessment. The treatments were then divided into two portions, centrifuged and resuspended in either HTF or SP, giving HTF control and SP control treatments and two crossover treatments, 1 h HTF then 1 h SP (H/SP) and 1 h SP then 1 h HTF (SP/H). All tubes were incubated for a further 60 min at 37 degrees C before aliquots were taken for hyperactivation and capacitation assessments. Hyperactivation was estimated using an IVOS v10.6t (Hamilton Thorne Research, Beverly, MA, USA) 60 Hz CASA instrument, and capacitation was estimated using the chlortetracycline (CTC) method. The presence of seminal plasma in the capacitation medium for 60-120 min post-swim-up inhibited the development of hyperactivated motility. This inhibition was reversible, and was not prevented by preincubation for 1 h in HTF medium. There was no difference in the CTC binding patterns between treatments at 2 h, indicating that the capacitation-associated membrane changes were not affected by the presence of a low concentration of seminal plasma. There was no correlation between percentage capacitated and percentage hyperactivated spermatozoa for any treatment. Since the proportions of hyperactivated spermatozoa and capacitated spermatozoa were not related, we conclude that the processes leading to hyperactivation and to the membrane changes associated with capacitation are not tightly interlinked and consider this finding to be due to hyperactivated motility being associated with flagellar movement, while the CTC assay assesses changes in the Ca2+ levels of the sperm head plasma membrane.     

Identification and treatment of leukocytospermia in couples with unexplained infertility

OBJECTIVE: To evaluate whether identifying men with leukocytospermia in couples with unexplained infertility and treating them with antibiotics improves pregnancy rates. STUDY DESIGN: A prospective, cohort study of men with and without leukocytospermia was identified on a smear of semen using Bryan-Leishman stain. Cumulative six-month pregnancy rates were determined for members of the leukocytospermic group who responded to treatment with resolution of their leukocytospermia on a semen smear, those who failed to respond to treatment, those not treated and those without leukocytospermia. RESULTS: Thirty-six of 53 men with leukocytospermia responded to antibiotic treatment, and 19 women in these 36 couples (53%) became pregnant within the six-month follow-up period. Only 7 of 17 (6%) of those who failed to respond to treatment had their partner become pregnant (P < .001). Partners of men with leukocytospermia and no treatment had a 6% pregnancy rate, and the women in 13% (5/42) of couples without leukocytospermia became pregnant (P < .001). CONCLUSION: Leukocytospermia exists in a significant number of males with unexplained infertility and normal semen analyses. Identifying and successfully treating such men results in a significant improvement in pregnancy rates. These men may be a subgroup with male infertility that can be identified and treated.     

Oxidative stress inhibits calpain activity in situ

In this study, the effects of oxidative stress on calpain-mediated proteolysis and calpain I autolysis in situ were examined. Calpain activity was stimulated in SH-SY5Y human neuroblastoma cells with the calcium ionophore, ionomycin. Calpain-mediated proteolysis of the membrane-permeable fluorescent substrate N-succinyl-L-leucyl-L-leucyl-L-valyl-L-tyrosine-7-amido-4-methylcouma rin, as well as the endogenous protein substrates microtubule-associated protein 2, tau and spectrin, was measured. Oxidative stress, induced by addition of either doxorubicin or 2-mercaptopyridine N-oxide, resulted in a significant decrease in the extent of ionophore-stimulated calpain activity of both the fluorescent compound and the endogenous substrates compared with control, normoxic conditions. Addition of glutathione ethyl ester, as well as other antioxidants, resulted in the retention/recovery of calpain activity, indicating that oxidation-induced calpain inactivation was preventable/reversible. The rate of autolytic conversion of the large subunit of calpain I from 80 to 78 to 76 kDa was decreased during oxidative stress; however, the extent of calpain autolysis was not altered. These data indicate that oxidative stress may reversibly inactivate calpain I in vivo.     

Oxidative stress: animal adaptations in nature

As a consequence of aerobic life, an organism must deal with the continuous generation of reactive oxygen species (O2-, H202, .OH) as byproducts of metabolism and defend itself against the harm that these can do to cellular macromolecules. Organisms protect themselves from such damage with both enzymatic and nonenzymatic antioxidant defenses. However, the reperfusion injuries noted after ischemic insult in mammalian organs and ascribed to a burst of reactive oxygen species produced when oxygenated blood is reintroduced demonstrate that the antioxidant defenses of many organisms can be overwhelmed, Although unusual among most mammals, many organisms routinely experience wide variation in oxygen availability to their tissues due to factors such as environmental oxygen lack, breath-hold diving, extracellular freezing, or apnoeic breathing patterns in arrested metabolic states. In recent studies using various animal models (anoxia-tolerant turtles, freeze-tolerant snakes and frogs, estivating snails) our laboratory has explored the adaptations of antioxidant defenses that allow such organisms to deal with rapid changes in tissue oxygenation with little or no accumulation of damage products. The key to successful transitions in several systems is the induction, during the oxygen-limited state, of elevated activities of antioxidant and associated enzymes, such as catalase, superoxide dismutase, glutathione-S-transferase, and glutathione peroxidase, so that damage during the reintroduction of oxygen (such as lipid peroxidation) is minimized. However, animals that are excellent facultative anaerobes, such as freshwater turtles, appear to deal with potential of oxidative stress during the anoxic-aerobic transition by maintaining constitutively high antioxidant defenses (e.g. enzyme activities similar to those of mammals and much higher than those of anoxia-intolerant lower vertebrates) that can readily accommodate the burst of reactive oxygen species generation when breathing is renewed.     

Sperm-immobilizing monoclonal antibody to human seminal plasma antigens

Rat spleen cells immunized to human azoospermic semen (a mixture of seminal plasma components) and mouse myeloma cells (P3/X63 Ag8U1; P3U1) (Marguilies et al., 1976) were successfully fused with polyethylene glycol (PEG 1500) and 19 of 89 fused cell cultures were found to produce sperm-immobilizing antibody. The cells that produced antibody indicating the highest sperm-immobilizing activity were distributed into wells for further recloning and 10 clones producing sperm-immobilizing antibody were established. The clone (1C4) producing the highest antibody titre was found to produce a large amount of IgG in culture supernatants and to contain a mixture of rat and mouse chromosomes. It was proved by immunodiffusion test that the monoclonal antibody was produced to the human seminal plasma antigen No. 7 which is common to human milk protein. Using this hybridoma which produced a large amount of monoclonal sperm-immobilizing antibody, a new method could be developed for purifying human seminal plasma antigen by immunoaffinity chromatography with bound antibody from the hybridoma.     

Oxidative stress and mitochondrial DNA mutations in human aging

The effects of chemical sympathectomy on the mucosal compartments of the immune system were examined in adult rats. Ablation of the sympathetic nervous system using 6-hydroxydopamine in recipient animals reduced the migration into Peyer's patches and mesenteric lymph nodes (MLN) of adoptively transferred cells from MLN of normal donors. The mucosal immune response to ovalbumin (OVA), assessed by enumeration of anti-OVA antibody containing cells (AOCC) in the lamina propria after intestinal immunisation, was reduced in animals sympathectomized prior to immunization. In order to identify whether this reduction in AOCC response in intestinally immunized sympathectomized animals was due to a defect in migration of AOCC precursors to the intestinal lamina propria, the effect of chemical sympathectomy on the appearance of AOCC in the gut of immunized animals after adoptive transfer of AOCC precursors was investigated. The IgA-specific AOCC response was significantly reduced in sympathectomized recipients compared to the control group. Taken together these results demonstrate that the peripheral sympathetic nervous system influences the migration and accumulation in vivo of both naive and memory/effector lymphocytes in mucosal lymphoid tissues.