Lipid Peroxidation Activity Research Articles

Impact of short‐ and long‐duration thermal stress on antioxidant enzyme activity in Parthenium beetles

AbstractInsects encounter variable temperature conditions in their natural habitats. Under non‐optimal temperatures, they experience thermal stress and oxidative damage, which are mitigated by antioxidant enzymes like superoxide dismutase (SOD), catalase (CAT) and lipid peroxidation (LPO). While short‐term effects of thermal stress on antioxidant enzyme activities in insects are well understood, the long‐term effects are less explored. We investigated both short‐term (3 and 6 h) and long‐term (24 h) effects of thermal stress on SOD, CAT and LPO activities in the Parthenium beetle, Zygogramma bicolorata Pallister at cold (15°C), control/optimal (25°C) and hot (35°C) temperatures. Although Z. bicolorata is an effective biocontrol agent for noxious Parthenium weed, no prior study assessed the impact of thermal stress on antioxidant enzyme activities in this beetle. Our results revealed that antioxidant enzymes activities increased above control levels in both larvae and adults when exposed to thermal stress for short durations. Under long‐term thermal stress, CAT and LPO activities decreased below control levels, while SOD activity increased. Regardless of temperature conditions, early larval instars exhibited higher enzyme activities compared to later instars. In adults, males showed higher SOD and CAT activities, whereas LPO activity did not differ significantly between sexes. Our findings suggest that short‐term thermal stress can stimulate protective enzyme activity in these beetles and help them adapt to suboptimal temperatures. However, prolonged exposure may lead to excessive stimulation, potentially inhibiting protective enzyme activity and causing the beetles to activate alternative pathways to manage thermal stress. Moreover, fourth instars and adult females are the most thermal stress‐tolerant stages for Parthenium biocontrol.

Upregulation of caspase-3, oxidative stress, neurobehavioural and histological alterations in mercury chloride-exposed rats: role of aqueous Allium sativum bulb extract.

Mercury is a highly toxic metal that causes a variety of neurological disorders through oxidative stress. Allium sativum, a cooking spice in diverse cultures around the world, has a long history of medicinal use due to its rich antioxidant constituents. This study was designed to evaluate the protective activity of aqueous Allium sativum bulb extract (ASBE) on mercuric chloride (HgCl2)-induced neurotoxicity. Forty Wistar rats were randomly divided into five groups namely I (control), II (HgCl2; 4mg/kg), III (250mg/kg of ASBE and 4mg/kg of HgCl2), IV (500mg/kg of ASBE and 4mg/kg of HgCl2) and V (500mg/kg of Vitamin E and 4mg/kg of HgCl2). At the end of the administration, neurobehavioural, antioxidant enzymes, lipid peroxidation and apoptotic activities as well as the histology of the cerebrum, cerebellum and hippocampus were assessed. Body and brain weights, locomotion, exploration, cognition, memory and antioxidant enzymes were significantly impaired (p < 0.05) in HgCl2-exposed rats following comparison to control. Lipid peroxidation, mercury concentration and caspase-3 activity were significantly upregulated (p < 0.05) in HgCl2-exposed rats following comparison to control. In addition, significant alterations to the histology of the cerebrum, cerebellum and hippocampus were observed in the HgCl2-exposed rats. Conversely, the adverse effects induced by HgCl2 were significantly attenuated (p < 0.05) following ASBE and Vitamin E pretreatment. Taken together, these results suggest that ABSE exerts its neuroprotective activity through its potent antioxidant and anti-apoptotic properties.

Folic acid mitigates the developmental and neurotoxic effects of bisphenol A in zebrafish by inhibiting the oxidative stress/JNK signaling pathway

Bisphenol A (BPA) is a widespread environmental endocrine disruptor (EED) that can cause various environmental and health issues by inducing oxidative stress. The c-Jun N-terminal kinase (JNK) signaling pathway plays a crucial role in oxidative stress-mediated cellular damage. Although folic acid (FA) has demonstrated antioxidant properties, its potential protective effects against BPA-induced developmental and neurotoxicity, as well as the mechanisms involved in the JNK signaling pathway, are still not completely understood. Zebrafish embryos were exposed to different concentrations of BPA ranging from 20 to 40 µM, with or without treatment of 50 µM FA, starting at 6 hours post-fertilization (hpf). Various parameters such as hatchability, survival rate, body length, and heart rate were measured and analyzed. Transcriptome sequencing was conducted to study the changes in gene expression. Oxidative stress markers, including reactive oxygen species (ROS), lipid peroxidation (LPO), hydrogen peroxide (H2O2), and catalase (CAT) activity, were assessed. The expression of proteins related to the mitogen-activated protein kinase (MAPK)/JNK pathway was analyzed using western blot. Neurodevelopmental and apoptotic outcomes were evaluated through behavioral tests, immunofluorescence and RT-qPCR examinations. The study found that exposure to BPA led to a decrease in hatchability, survival, body length, heart rate, total antioxidant capacity and promoted apoptosis in zebrafish larvae. However, supplementation with FA was able to alleviate these negative effects. BPA exposure increased levels of ROS, LPO, and H2O2, while decreasing CAT activity in zebrafish larvae. Treatment with FA effectively reduced BPA-induced oxidative stress and restored antioxidant defense systems. Moreover, KEGG pathway enrichment analysis revealed that the MAPK signaling pathway was the most enriched signaling pathway. Further studies revealed that BPA activated the JNK signaling pathway, while FA suppressed this activation. Additionally, FA significantly improved BPA-induced neurobehavioral deficits and protected against neurocytological alterations. Our findings demonstrate that FA effectively protects against BPA-induced developmental and neurotoxic effects in zebrafish by suppressing oxidative stress and inhibiting the JNK signaling pathway. This study provides new strategies and insights for preventing BPA-induced developmental and neurotoxicity in aquatic organisms.

Assessing the Effects of Palm Oil Consumption on Life Expectancy, Metabolic Markers, and Oxidative Stress in Drosophila melanogaster.

Palm oil is the world's second most consumed vegetable oil, sourced from the tropical palm tree Elaeis guineensis. Its consumption has been associated with a higher incidence of cardiovascular disease, largely due to its elevated palmitic acid content, however those studies are contradictory and inconclusive. Wishing to contribute to this issue, the present study aims to investigate the molecular and toxicological effects of this oil and the involvement of oxidative stress, given its role in metabolic dysfunctions using Drosophila melanogaster. This study examines survival rates, and locomotor performance, oxidative status by analysis of lipid peroxidation, ROS formation, thiol levels and antioxidant enzyme activity, and metabolic parameters such as cholesterol and triglycerides, glucose, trehalose and glycogen levels. Exposure to palm oil concentrations of 10% and 30% resulted in a shortened lifespan, reduced locomotor performance, and increased lipid peroxidation, with lower thiol levels and antioxidant enzyme modulation. Cholesterol levels was increased whereas energetic fuels as glucose and glycogen and trehalose were decreased mainly after 10 days of exposure. These findings underscore the detrimental effects of high-fat diets containing palm oil on lifespan, antioxidant defenses, and metabolism in Drosophila melanogaster. This data highlights the potential risk associated with the habitual consumption of palm oil in the daily diet by population, particularly concerning cardiovascular health and metabolic function.

Influence of Egg Yolk Substitution with Nano-L-α phosphatidylcholine on Sperm Kinetics, Lipid Peroxidation, and Antioxidant Activity of Cryopreserved Buffalo Bull Spermatozoa

Influence of Egg Yolk Substitution with Nano-L-α phosphatidylcholine on Sperm Kinetics, Lipid Peroxidation, and Antioxidant Activity of Cryopreserved Buffalo Bull Spermatozoa

Ecotoxicological effects of a glyphosate-based herbicide on Gryllus (Gryllus) assimilis (Orthoptera: Gryllidae) ontogeny: a study on antioxidant system, oxidative stress and cholinergic system.

Brazil is an important global agricultural producer and to increase production the country has extensively used glyphosate-based herbicides (GBH), surpassing consumption and sales records. Consequently, concerns have arisen regarding the potential impact of GBH on ecosystems and non-target organisms. Thus, the effects of GBH exposure were evaluated throughout the cricket Gryllus (Gryllus) assimilis ontogeny, with five developmental stages. Each period contained 3 control and 3 treated boxes, with 15 crickets each, resulting in 90 insects at a time. The control groups received water, while the treated ones were continuously exposed to GBH (0.864 mg.GBH.L-1), with the solutions changed every 48 h. After each exposure time the crickets' group were euthanized to assess the activity of antioxidant enzymes (GST, GR, GPx, and CAT), cholinergic enzymes (ChE), and lipid peroxidation (LPO). The results revealed changes in the systems throughout different developmental phases. Specifically, CAT activity exhibited a significant increase during the nymphal phase, associated with the dismutation of hydrogen peroxide. The GBH increased GST, indicating its role in cellular detoxification, particularly during adulthood. In the senescence stage there was a considerable rise in ChE enzymes, suggesting their involvement in both, choline esters breakdown and potential pesticide detoxification. The action of these enzymes to effectively control lipid peroxidation shows the adaptability of this species to environmental contamination. These findings underscore the long-term effects of agrochemical pollution and emphasize the importance of sustainable practices, effective regulations, and alternative weed control methods.

Effects of cypermethrin on morphological, physiological and biochemical attributes of Cicer arietinum (Fabales: Fabaceae)

Cypermethrin, a synthetic pyrethroid, is a widely employed pesticide in large-scale commercial agriculture and domestic settings to control pests and boost crop yields. Despite its effectiveness in controlling pests, concerns persist about the potential ecological and human health impacts associated with its use. In the present study, the impact of cypermethrin on different parameters, including growth indices, pollen morphology and pollen fertility, chlorophyll and carotenoid content, hydrogen peroxide (H2O2) scavenging, lipid peroxidation (MDA concentration), superoxide dismutase (SOD), and catalase (CAT) activities, was investigated in Cicer arietinum L. The results showed that plants exhibited decreasing trends in plant height, number of branches, pods, and seeds per plant as cypermethrin concentrations increased. These changes resulted in significant reductions in the overall yield of the plants. The percentage of wrinkled pollen significantly increased with higher concentrations of cypermethrin and longer exposure durations. Exposure to cypermethrin showed significant variations in pollen fertility of C. arietinum at different concentrations and time intervals in comparison to control, which had a baseline pollen fertility of 79.12% ± 4.59. Chlorophyll and carotenoid content of C. arietinum were considerably affected by cypermethrin, indicative of potential disturbances in essential photosynthetic processes crucial for plant health. Further, with increasing concentrations of cypermethrin ranging from 100 mg/L to 500 mg/L, noticeable effects were observed on H2O2− scavenging, MDA concentration, SOD and CAT activities of C. arietinum in dose-dependent manner. Further, it was found that the duration of exposure and concentration of cypermethrin played a crucial role in exacerbating these detrimental effects. The findings of the present study raise concerns regarding the harmful effects of agricultural pesticides like cypermethrin and highlight the need for more research on the nutritional value of products derived from plants and seeds exposed to these agents.

Complex application of high-intensity phototechnologies in the treatment of melasma

Purpose of the study. In clinical practice, combined methods, as a rule, show better efficiency in the treatment of melasma than monotherapy. Also relevant are the issues of studying the efficiency and safety of various combinations of hardware and drug methods. The aim of the study was to optimize the treatment of patients with melasma using the complex use of high-intensity phototechnologies (IPL therapy, Nd: YAG laser) and thiamidol, taking into account the indicators of oxidative stress. Materials and methods. All patients were divided into 4 groups, depending on the methods of therapy. Lipid peroxidation and total antioxidant activity indices were studied by spectrophotometry using the Spectrophotometer analyzer. The results. The overall dynamics of the LPO index in group A was statistically significant, in group B it was 29.8 %, in group B — 28.2 %, in group D — 36.2 %. The overall dynamics of the TAA index in group A was statistically significant, in group B the index increased by 16.5 %, in group B — by 22.3 %, in group D — by 30.2 %. Conclusion. Thus, it was possible to establish that the use of phototechnologies in melasma statistically significantly increases the level of antioxidant activity, leading to its normalization.

Garlic Bulb Essential Oil (GBEO) as a Potential Mitigator of Lead Nitrate-Induced Oxidative Stress in Swiss Albino Male Mice

This research examined the effectiveness of essential oil derived from garlic bulb in alleviating the toxic effects of lead nitrate in animal model Swiss albino mice. Six groups were considered for the study, Group I was untreated and Group II to Group VI animals were given lead nitrate at the dose of 50 mg/kg orally for 30 days. Group III and Group IV received low dose (50 mg/kg), high dose (80 mg/kg) of GBEO, and Group V was given standard drug (Silymarin) respectively, lastly Group VI was given olive oil to see its effect alone, from the 12th day until the experiment’s conclusion. To assess GBEO protective effects, various antioxidant parameters, including Superoxide Dismutase (SOD) activity, Lipid Peroxidation (LPO) activity, Glutathione (GSH) levels, Activity of Glutathione Peroxidase (GPx), Catalase (CAT) activity, and levels of Glutathione S-Transferase (GST) were evaluated in Swiss albino mice testicular homogenate. The results revealed that GBEO, particularly the high dose, significantly mitigated lead-induced oxidative stress. This was evidenced by improvements in antioxidant enzyme potencies and preserved GSH levels. These findings indicate that GBEO holds a promising prophylactic treatment for lead poisoning. However, further studies are warranted to optimize the dosing regimen for maximizing its protective efficacy against lead toxicity.

Regulation of oxidative stress enzymes in Candida auris by Dermaseptin: potential implications for antifungal drug discovery.

The emergence of Candida auris poses a significant global health threat due to its high mortality rates and multidrug resistance. The development of new antifungal drugs is essential to effectively combat this pathogen. Antimicrobial peptides, such as Dermaseptin, have demonstrated potent anti-Candida activity. This study aimed to investigate the antifungal activity of Dermaseptin against C. auris isolates and its ability to induce oxidative stress and apoptosis. The results revealed the robust anti-Candida activity of Dermaseptin, with a minimum inhibitory concentration (MIC) of 15.62 μg mL-1 and a minimum fungicidal concentration (MFC) of 31.25 μg mL-1. Spectrophotometric analysis demonstrated that Dermaseptin induced significant oxidative stress, as evidenced by the notable differences in the activity of primary antioxidant enzymes and lipid peroxidation (LPO) levels between the treated and untreated control groups. Moreover, Dermaseptin influenced the gene expression of antioxidant enzymes, as confirmed by reverse transcription quantitative polymerase chain reaction (RT-qPCR). Additionally, Dermaseptin induced apoptosis in C. auris in a dose-dependent manner. This study highlights the potential of Dermaseptin to inhibit and potentially eradicate C. auris by increasing oxidative stress levels. The low MICs and fungicidal properties of Dermaseptin against C. auris isolates suggest its potential as a candidate for the development of a novel antifungal agent.

Effect of oleocanthal-rich olive oil on postprandial oxidative stress markers of patients with type 2 diabetes mellitus

Background: Type 2 diabetes mellitus (T2DM) is characterized by postprandial dysmetabolism, which has been linked to post-meal redox disturbances. Oleocanthal (OO), one of the most potent bioactive phenols of extra virgin olive oil, has shown redox modulating properties in vitro. However, its acute, in vivo antioxidant properties have never been studied before. Objective: The aim of this study was to investigate the kinetics of five redox markers (Thiobarbituric acid-reactive substances [TBARS] and glutathione peroxidase activity in serum-GPx3 and erythrocytes (GPx1), protein carbonyls in serum) after the consumption different meals. Design: Five different isocaloric meals comprised of white bread and butter (BU) or butter plus ibuprofen (BU-IBU) or olive oil poor in OO or olive oils containing 250 and 500 mg/Kg of oleocanthal (OO250 and OO500, respectively). We hypothesized that OO-rich olive oil will reduce postprandial oxidative stress in T2DM patients compared to other lipid sources. This study involved 10 patients with T2DM and had a cross-over design. Results: The comparison of incremental Area Under Curves (iAUCs) has shown that OO-rich olive oils were able to alleviate the increments of thiobarbituric acid-reactive substances (TBARS) and GPx3 and induce a higher red blood cells (RBCs) GPx1 activity compared to OO (P &lt; 0.05). The effect was dose and redox marker depended. Correlation analysis in the pooled sample demonstrated a positive association between postprandial ex vivo platelet sensitivity to ADP and iAUC TBARS. In conclusion, our study has shown that OO-rich olive oils can favorably modulate lipid peroxidation and RBC GPx activity in T2DM patients when consumed as part of a carbohydrate meal. Discussion: This study demonstrates for the first time that, apart from its anti-inflammatory and antiplatelet properties, OO can also exert acute antioxidant effects. Conclusion: This finding emphasizes the health benefits of extra virgin olive oil, particularly those with a high OO content, for T2DM patients.

Exploring the Functional Potential of Breast Milk Protein Hydrolysates: Antiglycation, Antioxidant, Metal Chelation, and Lipid Peroxidation Activities

The formation of advanced glycation end products (AGEs) is a pivotal factor in the development of various age-related and diabetes associated pathophysiologies, including but not limeted to arthritis, Alzheimer’s disease, atherosclerosis and cataracts. Consequently, the prospect of inhibiting AGE formation emerges as a viable strategy to prevent or halt the advancement of diabetic complications. In the scientific literature, there is still a reluctance to produce bioactive peptides demonstrating antiglycation activity from breast milk. The breast milk protein was hydrolysed using trypsin for 240 min. The antiglycation, metal chelating activity, lipid peroxidation activity, and antioxidant activity of the peptides in the hydrolysates obtained after hydrolysis of human milk with trypsin enzyme were performed. The peptide diversity obtained after hydrolysis was determined by RP-HPLC. The breast milk hydrolysate was demonstrated significant antiglycation activity (IC50: 312.8 ± 12.1 µg/mL), antioxidant activity (61.8±4.58 mM AAE/µg peptide) , metal chelation activity (24.4%/μg peptide). The hydrolysate effectively inhibited lipid peroxidation (30.5±0.12%) compared to Trolox (51.2±0.3%). These findings highlight the potential of breast milk protein hydrolysates as a source of bioactive peptides with diverse health benefits. The present study offers valuable insights into utilizing human milk peptides as novel functional food components.

In-Depth Analysis of Olea europaea L. Leaf Extract: Alleviating Pulmonary Histological Disturbances, Pro-Inflammatory Responses, and Oxidative Stress from Isolated or Combined Exposure to Inhaled Toluene and Noise in Rats.

The primary objective of this study was to investigate the pulmonary damage resulting from isolated or combined exposure to inhaled toluene (300 ppm) and noise 85 dB (A), with a focus on evaluating the potential protective effects of Olea europaea L. leaf extract (OLE). Forty-eight male Wistar rats were divided into eight groups: control (C), OLE treatment (O), noise exposure (N), noise exposure with OLE treatment (N+OLE), toluene exposure (T), toluene exposure with OLE treatment (T + OLE), co-exposure to toluene and noise (NT), and co-exposure with OLE treatment (NT + OLE). OLE (40 mg/kg/day) was administered daily for six weeks via oral gavage. Exposure to toluene and noise resulted in significant disruption of the pulmonary tissue structure, accompanied by oxidative stress, as evidenced by increased lipid peroxidation, diminished catalase and superoxide dismutase activities, and elevated pro-inflammatory cytokines IL6, IL-β, and TNF-α. Notably, the administration of OLE effectively mitigated oxidative stress and inflammation and preserved pulmonary histology. In conclusion, exposure to toluene and its combination with noise significantly elevated oxidative stress, inflammatory responses, and histological disruptions in the lung tissue. In contrast, noise exposure alone is characterized by minimal effects, although it is still associated with an inflammatory response. Notably, Olea europaea L. leaf extract (OLE) exhibits a substantial protective role, effectively mitigating the adverse effects of combined exposure and highlighting its potential as a therapeutic agent for lung health.

Toxicological analysis and anti-inflammatory and antioxidant evaluations of extract, fractions and secoxyloganin obtained from Guettarda viburnoides Cham. & Schltdl. in mice

Ethnopharmacological relevanceGuettarda viburnoides, "veludinho do campo," is traditionally used for the treatment of pain and inflammatory conditions in humans; however, only one scientific study has reported this effect in an ear inflammatory model. Therefore, it is necessary to explore other in vivo models and the chemical composition of this medicinal plant. Aim of the studyA chemical investigation of methanolic extract of G. viburnoides (MEGV) (leaves) led to the isolation of secoxyloganin (GV-1). In addition, the preclinical safety of MEGV (in acute and subacute toxicological models, gavage = p.o.), antioxidants of MEGV, ethyl acetate (EAFGV) and hydromethanolic (HMFGV) fractions were tested using free radical scavenging and lipid peroxidation methodologies, and the anti-inflammatory effects of MEGV, HMFGV and GV-1 (p.o.) were evaluated on carrageenan and complete Freund's adjuvant (CFA) models of inflammation in mice. Materials and MethodsMEGV was obtained from air-dried leaves by maceration with methanol at room temperature. MEGV was then purified by liquid-liquid partitioning, to obtain the EAFGV and HMFGV fractions. Purification of HMFGV afforded GV-1. The quantification of total phenols, flavonoids, flavonols, and condensed tannins was subsequently performed for MEGV. The antioxidant activity of 2,2-diphenyl-1-picrylhydrazyl (DPPH), 2, 2′-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid (ABTS) and oxidation of β-carotene were evaluated in MEGV and its fractions. The anti-inflammatory activity of MEGV (3, 30, and 100 mg/kg, p.o.) was assayed in carrageenan-induced models, followed by assessments of MEGV (100 mg/kg, p.o.), HMFGV (3 and 30 mg/kg, p.o.) and GV-1 (3 mg/kg, p.o.) in CFA- induced models in mice (including paw oedema, mechanical allodynia and cold sensitivity). Acute (14 days of MEGV, 2000 mg/kg, p.o.) and subacute (28 days, MEGV 30, 100, and 300 mg/kg, p.o.) toxicity was assessed in female Swiss mice. ResultsThe major compound was secoxyloganin (GV-1). The oral acute toxicity test of MEGV revealed no evidence of toxicity, indicating low toxicity according to the Organization for Economic Cooperation and Development (OECD) guidelines. In the subacute toxicity group, no clinical signs of toxicity or changes in body weight, water consumption, food consumption, or organ weight or morphology were observed after 28 days of gavage with MEGV (30, 100, and 300 mg/kg) compared with those in the control group. MEGV, EAFGV, and HMFGV showed significant free-radical scavenging and lipid peroxidation activities, with IC50 values ≤ 26.38 ± 4.56 μg/mL. In in vivo anti-inflammatory assays, MEGV (3, 30 and 100 mg/kg) reduced carrageenan-induced oedema (2 and 4 h) and hyperalgesia (3 and 4 h). In the CFA model, MEGV (100 mg/kg), HMFGV (30 mg/kg) and GV-1 (3 mg/kg) reduced inflammation (at 3, 4 and 24 h) in all parameters (oedema, mechanical allodynia and cold sensitivity). ConclusionThis study revealed that G. viburnoides has antioxidant and anti-inflammatory properties, and no toxicity was detected after acute or subacute gavage with MEGV, validating its traditional use in the treatment of inflammatory conditions.

Bach2 repression of CD36 regulates lipid-metabolism-linked effector functions in follicular B cells

The transcription repressor Bach2 plays a crucial role in shaping humoral immunity, but its cell-autonomous function remains elusive. Here, we reveal the mechanism by which Bach2 regulates effector cell maturation in peripheral B cells. In response to Toll-like receptor (TLR) agonists, Bach2 deficiency promotes the differentiation of follicular, but not marginal zone, B cells into effector cells, producing interleukin (IL)-6 and antibodies. This phenomenon is associated with changes in lipid metabolism, such as increases in CD36 expression, lipid influx, and fatty acid oxidation. Consistent with this, Bach2-deficient B cells exhibit elevated levels of mitochondrial oxidative stress, lipid peroxidation, and p38 activation. Mechanistically, Bach2 acts as a repressor of Cd36, and inhibition of CD36 or fatty acid oxidation reduces the differentiation of naive B cells into IL-6- and antibody-secreting cells. These results indicate Bach2 as a key metabolic checkpoint regulator crucial for maintaining a functionally quiescent state of follicular B cells.

Treatment of human sperm with GYY4137 increases sperm motility and resistance to oxidative stress.

Hydrogen sulfide (H2S) has been shown to play a significant role in oxidative stress across various tissues and cells; however, its role in sperm function remains poorly understood. This study aimed to investigate the protective effect of GYY4137, a slow-releasing H2S compound, on sperm damage induced by H2O2. We assessed the effects of GYY4137 on motility, viability, lipid peroxidation and caspase-3 activity in human spermatozoa in vitro following oxidative damage mediated by H2O2. Spermatozoa from 25 healthy men were selected using a density gradient centrifugation method and cultured in the presence or absence of 10 μM H2O2, followed by incubation with varying concentrations of GYY4137 (0.625-2.5 μM). After 24 h of incubation, sperm motility, viability, lipid peroxidation, and caspase-3 activity were evaluated. The results indicated that H2O2 adversely affected sperm parameters, reducing motility and viability, while increasing oxidative stress, as evidenced by elevated lipid peroxidation and caspase-3 activity. GYY4137 provided dose-dependent protection against H2O2-induced oxidative stress (OS). We concluded that supplementation with GYY4137 may offer antioxidant protection during in vitro sperm preparation for assisted reproductive technology.

Biomarker responses in fish caged in a rice field during a bifenthrin application

The use of pesticides in integrated rice-fish farming could have an impact on fish health. The present study aimed to evaluate, for the first time, the biological effects of the insecticide bifenthrin on fish (Piaractus mesopotamicus and Hoplosternum littorale) using a caging experiment. Fish were divided into two sites: control (C) and bifenthrin exposure (BF). Two cages (n = 8 fish/cage) per species were placed separately at each site. The BF application (Seizer ®) was carried out with a coastal sprayer according to the BF recommended dose for rice cultivation (0.1 L/ha). After 72 h, fish were collected, and gills, liver, brain, and muscle were dissected for the analysis of biomarkers of accumulation, oxidative stress, and neurotoxicity. In P. mesopotamicus, the main changes were observed in the muscle, where BF accumulated and induced neurotoxicity (inhibition of cholinesterase activity) and oxidative stress (activation of antioxidant enzymes, decreased glutathione levels, increased lipid peroxidation). The gills and liver also showed changes in some markers of the antioxidant system. In H. littorale, BF exposure induced changes in oxidative stress biomarkers in liver (activation of antioxidant enzymes and lipid peroxidation) and gill tissues (alteration in antioxidant markers). These results show that the use of bifenthrin in rice fields poses a risk to fish farming under current pesticide management practices. Furthermore, its use could affect other species in these agroecosystems, highlighting the need for further studies to assess the ecological and productive consequences in a context of increasing pyrethroid use worldwide.

Does temperature influence on biomarker responses to copper exposure? The invasive bivalve Limnoperna fortunei (Dunker 1857) as a model

Biomarkers are useful tools for assessing the early warning effects of pollutants. However, their responses can be influenced by confounding factors. In this study, we investigated the influence of temperature on multiple biomarkers in the invasive freshwater bivalve Limnoperna fortunei exposed to copper (Cu). The mussels were exposed to low and high environmental Cu concentrations at two temperatures (15 °C and 25 °C). After 96 h, the oxidative stress, neurotoxicity, and metabolic parameters were assessed. Our results showed that temperature is a key factor influencing biomarker responses in mussels, with higher glutathione S-transferase activity and lower energy reserves at cold temperature. In addition, the effects of Cu were greater at the highest concentration at 15 °C (increased lipid peroxidation and cholinesterase activity). Overall, these findings suggest that cold stress increases the susceptibility of L. fortunei to metal effects and highlight the importance of including temperature in toxicity testing and biomonitoring. In addition, using the invasive bivalve L. fortunei as a model could prove valuable in its role as a sentinel species for other organisms.

Dynamics of Free Radical Oxidative Processes During the Latent Period of Experimental Metastasizing to the Liver

Purpose — to investigate the dynamics of the content of antioxidant enzymes superoxide dismutase 1 (SOD1), glutathione peroxidase 1 (GPO1), glutathione reductase (GR) and lipid peroxidation products diene conjugates (DC), malondialdehyde (MDA) in the spleen and liver during the latent period of growth and metastasis of experimental tumor.Materials and methods. Using 28 white male rats, a model of hematogenous liver metastasis was created by transplanting sarcoma 45 cells (S45) into the spleen, previously lead out under the skin 3 weeks before. Previously, was determined that a tumor visualized in the spleen at 5 weeks, and liver metastases at 7 weeks after transplantation S45. Levels of SOD1, GPO1, GR and MDA were determined using ELISA and DC by biochemical method in spleen and liver homogenates during the latent period of tumor growth and metastasis (1–2 weeks post-transplantation).Results. Significant changes (1.5–5.2 times, р &lt; 0.050–0.001) in studied factors levels were observed compared to intact rats and rats with the spleen lead out. Activation of lipid peroxidation and antioxidant system was noted in the spleen (tumor-carrying organ) during tumor growth and metastasis. At the same time, in the liver (the target organ of metastasis) observed also increased lipid peroxidation but simultaneously a pronounced decreased GR levels (5 times, p &lt; 0.001) without affecting SOD1 levels.Conclusion. Liver tissue exhibited the inferiority of antioxidant protection and the formation of pro-oxidant condition during the latent period of tumor growth, which may prepare the soil for metastasis.

Astaxanthin Supplementation Effects in Right Ventricle of Rats Exposed to Chronic Intermittent Hypobaric Hypoxia.

Thirty two male Wistar rats were randomly assigned to the following groups (n = 8 per group): the normoxia with vehicle (NX), normoxia with astaxanthin (NX + AS), chronic intermittent hypobaric hypoxia with vehicle (CIHH), and chronic intermittent hypobaric hypoxia with astaxanthin (CIHH + AS) groups. CIHH was simulated by 2 days in a hypobaric chamber followed by 2 days at sea level for 29 days. Exposure to CIHH induced RVH and increased lipid peroxidation (MDA), Nox2 expression, and SOD activity, however, it decreased pro-IL-1β expression. Astaxanthin restored oxidative stress markers (Nox2 and MDA), increased GPx activity, and decreased RVH compared to CIHH. Astaxanthin alleviates RVH and reduces Nox2 and MDA levels while increasing GPx activity in rats subjected to CIHH. These findings provide new insights of astaxanthin as a new nutraceutical against high-altitude effects.