Male Wistar Rats Research Articles

Agmatine Improves Oxidative Stress Profiles in Rat Brain Tissues Induced by Sodium Azide

Introduction: The brain is highly susceptible to oxidative damage due to excessive oxygen tension, a high concentration of oxidizable substrates, and low antioxidant capacity. Consequently, oxidative stress is linked to several brain disorders and neurodegeneration. Sodium azide is a cytochrome oxidase inhibitor that promotes neurodegeneration by enhancing the release of excitotoxins and inducing oxidative stress through the peroxidation of membrane lipids. This process results in the release of intra-mitochondrial Ca+2 and H2O2 (ROS Dependent-Ca+2 release). Agmatine, a biogenic amine, is also referred to as a free radical scavenger, protecting the brain from membrane collapse, apoptosis, and mitochondrial swelling. Objective: This study was designed to identify the antioxidative effects of agmatine on sodium azide- induced oxidative stress in brain tissues. Methodology: Twenty-four male albino Wistar rats were allocated into two groups: a control group receiving water and a test group administered sodium azide (5 mg/kg, intraperitoneally) for a duration of 14 days. Subsequently, the animals were further subdivided and treated for an additional two weeks with either water or agmatine (100 mg/kg). Behavioral assessments were performed onehour post-agmatine administration, and brain homogenates were prepared for biochemical analyses. Results: The agmatine-treated group exhibited a significant increase (P<0.01) in both the number of entries and the time spent in the light box and the open arms of the light/dark transition box and elevated plus maze tests, respectively. Additionally, agmatine administration significantly enhanced (P<0.01) the total number of squares crossed in the open field test. Biochemical assessments revealed that agmatine treatment significantly reduced (P<0.01) the levels of reactive oxygen species and malondialdehyde. Moreover, it significantly increased (P<0.01) the levels of antioxidant enzymes (superoxide dismutase, catalase, and glutathione peroxidase) and glutathione compared to the control group. Conclusion: The present study revealed that agmatine has substantial effects on oxidative and antioxidant enzyme levels in sodium azide-induced oxidative stress. Agmatine-treated rats exhibited decreased reactive oxygen species levels and improvements in behavioral impairments resulting from sodium azide administration.

Anticholinesterase, Antioxidative and Neuroprotective Effects of Hydroethanolic Extracts of Guiera Senegalensis J. F. Gmel. Leaves on Scopolamine Induced Alzheimer’s Disease in Wistar Rat Models

Background: Medicinal plants like Guiera senegalensis J. F. Gmel. (GS) have gained attention for their potential neuroprotective effects due to their rich composition of bioactive compounds, including flavonoids and polyphenolic acids. While previous studies have highlighted the antioxidant, anti-inflammatory, and neuroplasticity-enhancing properties of GS extract, its efficacy in mitigating dementia-related pathology remains to be fully understood. Objectives: This study aimed to investigate the neuroprotective effects of hydroethanolic GS extract against scopolamine (Sco)-induced dementia in Wistar rats, focusing on its impact on cholinergic function, oxidative stress, neuroinflammation, neurodegeneration, and memory impairment. Methods: Fresh leaves were processed for extraction using standard methods. Antioxidant activity was evaluated using FRAP and DPPH assays. Adult male Wistar rats were used for behavioral tests (Y-maze, NOR, MWM) and biochemical analyses, including ELISA for cholinergic activity, oxidative stress markers (Aβ1-42, phosphorylated Tau), pro-inflammatory cytokines (IL-1β, TNF-α, IL-6, IFN-γ), GFAP, BDNF, and IL-10. Brain tissues underwent histopathological examination. Data were analyzed using GraphPad Prism software. Results: The study assessed the antioxidant potential of GS extract and found that it significantly scavenged DPPH radicals (70.29%) and reduced Fe3+ (49.69%). Behavioral tests showed that GS extract (100 - 400 mg/kg) improved spatial memory and learning in Sco-treated rats. Y-maze results indicated increased spontaneous alternation with GS extract (P < 0.01). NOR and MWM tests showed improved memory and learning, with GS extract-treated rats spending more time in the target quadrant. Biochemical analysis revealed that GS extract increased acetylcholine (ACh), Superoxide Dismutase (SOD), Catalase (CAT), Glutathione (GSH), IL-10, and BDNF levels, while decreasing acetylcholinesterase (AChE), malondialdehyde (MDA), nitrite, Aβ1-42, phosphorylated Tau, IL-1β, TNF-α, IL-6, IFN-γ, and GFAP levels in the hippocampus. Histological analysis confirmed restored hippocampal tissue architecture in AD rats treated with GS extract. Conclusions: Our findings suggest that GS modulates cholinergic, antioxidant, anti-inflammatory, and neuroplasticity pathways, exerting beneficial effects on cognitive functions and biochemical markers associated with Alzheimer's disease (AD) pathology. These results indicate the potential of GS as a neuroprotective agent for the treatment of AD.

The Protective Effect against Lung Injury of Phytosome Containing the Extract of Purple Waxy Corn Tassel in an Animal Model of PM2.5-Induced Lung Inflammation.

Lung inflammation caused by fine particulate matter (PM), particularly PM2.5, poses a significant public health challenge, with oxidative stress and inflammation playing central roles in its pathophysiology. This study evaluates the protective effects of phytosome-encapsulated extract of purple waxy corn tassel (PPT) against PM2.5-induced lung inflammation. Male Wistar rats received PPT at doses of 100, 200, and 400 mg/kg BW for 21 days prior to exposure and continued to receive the same doses for 27 days during PM2.5 exposure. Significant reductions in inflammatory markers, including cyclooxygenase-2 (COX-II), various interleukins (IL-1β, IL-6, IL-8), tumor necrosis factor-alpha (TNF-α), and nuclear factor kappa B (NF-κB), were observed, indicating that PPT effectively regulates the inflammatory response. Additionally, PPT improved oxidative stress markers by reducing malondialdehyde (MDA) levels and enhancing antioxidant enzyme activities such as superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH-Px), thereby restoring lung antioxidant defenses. Notably, the study revealed that PPT modulates epigenetic mechanisms, as evidenced by decreased histone deacetylase (HDAC) activity and upregulation of sirtuins in lung tissue. These epigenetic modifications likely contribute to the reduction in inflammation and oxidative stress, suggesting a multifaceted protective role of PPT that involves both direct biochemical pathways and epigenetic regulation. The interplay between reduced inflammatory signaling, enhanced antioxidant capacity, and epigenetic modulation underscores PPT's potential as a therapeutic agent for managing respiratory inflammation-related diseases and its promise for the development of future functional food products.

Description of Blood Sugar Levels of Male Wistar Rats after Administration of Ethanol Extract of Rambusa Leaves (Passiflora Foetida Linn.) from Central Kalimantan

Rambusa (Passiflora foetida Linn.) is a type of plant that is often found creeping on other plants. Usually found in watery areas such as swamps and rivers. The rambusa plant contains chemical compounds which are useful sources and can be developed as medicine. Several previous studies explained that Rambusa (Passiflora foetida Linn.) which grows in several areas shows antidiabetic properties. The aim of this study was to determine the blood sugar levels of male Wistar rats after administration of ethanol extract of rambusa leaves (Passiflora foetida Linn.) from Central Kalimantan. This research was carried out using an experimental or experimental method (experiment research) in the laboratory which was carried out with a series of experiments using the GCU Check strip. The results of this study show that ethanol extract of rambusa leaves from Central Kalimantan can reduce blood sugar levels of male Wistar rats at doses of 1.5 mg/Kgbb and 2 mg/Kgbb.

The Impact of Radiofrequency Electromagnetic Waves on DNA Fragmentation Index and Spermatogenesis-related Genes Expression in Rats

Background: We aimed to evaluate the impact of radiofrequency electromagnetic waves (RF-EMW) with wavelengths equivalent to mobile phones on semen parameters and expression levels of spermatogenesis-related genes in rats. Methods: A total of 20 male adult Wistar rats weighing approximately 180 g were randomly allocated to two study groups in this controlled, parallel-design study. The case group was exposed to RF-EMW. The gene’s expression was assessed by real-time PCR for five target genes: ZBTB16, SCP3, ACR, ITGA6, and PRM1. Results: The DNA fragmentation index (DFI) assessment reveals a significant difference between the cases and the control group. There was a two-fold increase in ACR gene expression than in the RF-EMW exposure group. The contradictory result was seen in the other four genes, which showed that gene expression decreased to about 0.3 for PRM1 and SCP3, 0.5 for ITGA6, and 0.7 for ZBTB16. Sperm motility was not significantly different between the two groups, but morphology in the case group revealed higher abnormalities than in the control group. Conclusion: We recommend reducing exposure time to radiofrequency waves, and keeping cell phones away from our bodies as far as possible is safer. Additional studies are required to support our data.

Immunoexpression of CD34, CD68 and CD3 in Cadmium-Induced Liver Damage and Protective Effectiveness of Bee Bread (Perga)

Cadmium (Cd) is one of the potent environmental toxicants that causes oxidative stress in many organs of the body, including the liver. Perga (bee bread) is used for apitherapeutic purposes due to its medicinal properties. This study was conducted to investigate the effectiveness of perga on endothelial damage and inflammatory cell activation in the liver as a result of exposure to Cd. For this purpose, 32 male Wistar rats (8 rats/group) were randomly divided into 4 groups, as the control, perga (0.5 g/kg of perga), Cd (5 mg/kg of CdCl2), and Cd + perga (0.5 g/kg of perga + 5 mg/kg of CdCl2) groups. Daily intragastric Cd and/or perga was administered for 4 weeks. At the end of the study, the rats were euthanized and liver tissue sections were taken and stained with hematoxylin-eosin and Masson’s Trichrome. Immunohistochemically, the reactivity of the liver sinusoidal endothelium was determined using CD34, the reactivity of the Kupffer cells was determined using CD68, and the levels of T-lymphocyte cells were determined using CD3 antibodies. Exposure to Cd caused significant histological changes in the liver. Immunohistochemically, exposure to Cd caused an increase in the expressions of CD34, CD68, and CD3. On the other hand, the cotreatment of Cd and perga caused partial improvement in some histopathological changes. Compared to the Cd group, there was a decrease in CD34 and CD68 positivity in the Cd + perga group, while no significant difference was detected in the number of CD3-positive cells between the groups. The results revealed that the histopathological changes and inflammation in the rat liver could partially improve with perga supplementation.

Natural pesticide, Azadirachta indica A. Juss. (Neem), disrupted reproductive parameters of male rats

Ethnopharmacological relevanceNeem (Azadirachta indica A. Juss.) is native to India and belongs to the Meliaceae family. It has been used for centuries in Eastern medicine, and more recently, as a natural pesticide. Although the use of bioinsecticides is supported by organic food production, further research is needed on each formulation, particularly on their effects on organisms. Aim of the studyThis study evaluated the reproductive toxicity of an aqueous extract of neem leaves in male Wistar rats of reproductive age after eight days of exposure. Materials and methodsFor this study, 20 rats were divided into four groups of five animals each and treated with different concentrations: Group 1 received 10,000 ppm, Group 2 received 7500 ppm, Group 3 received 5000 ppm, and Group 4 served as the control, received distilled water. The animals were observed for eight days for any clinical signs of toxicity. Semen quality, including sperm motility and viability, was analyzed. ResultsNo significant differences in physiological changes were observed between treatments. However, sperm motility and viability were affected in a concentration-dependent manner, with the group that received the highest dose exhibiting inviable spermatozoa. ConclusionThe data suggested that the administered doses had low toxicity. Nevertheless, concerns regarding reproductive toxicity remain because motility and sperm viability are negatively affected at the highest dose. Although bioinsecticides are widely used in organic food production, further research on each formulation, particularly regarding their long-term effects on organisms, is required.

Cardioprotection by Preconditioning with Intralipid Is Sustained in a Model of Endothelial Dysfunction for Isolated-Perfused Hearts.

Endothelial dysfunction (ED) is closely associated with most cardiovascular diseases. Experimental models are needed to analyze the potential impact of ED on cardioprotection in constant pressure Langendorff systems (CPLS). One cardioprotective strategy against ischemia/reperfusion injury (I/RI) is conditioning with the lipid emulsion Intralipid (IL). Whether ED modulates the cardioprotective effect of IL remains unknown. The aim of the study was to transfer a protocol using a constant flow Langendorff system for the induction of ED into a CPLS, without the loss of smooth muscle cell functionality, and to analyze the cardioprotective effect of IL against I/RI under ED. In isolated hearts of male Wistar rats, ED was induced by 10 min perfusion of a Krebs-Henseleit buffer containing 60 mM KCl (K+), and the vasodilatory response to the vasodilators histamine (endothelial-dependent) and sodium-nitroprusside (SNP, endothelial-independent) was measured. A CPLS was employed to determine cardioprotection of pre- or postconditioning with 1% IL against I/RI. The constant flow perfusion of K+ reduced endothelial response to histamine but not to SNP, indicating reduced vasodilatory functionality of endothelial cells but not smooth muscle cells. Preconditioning with IL reduced infarct size and improved cardiac function while postconditioning with IL had no effect. The induction of ED neither influenced infarct size nor affected the cardioprotective effect by preconditioning with IL. This protocol allows for studies of cardioprotective strategies under ED in CLPS. The protection by preconditioning with IL seems to be mediated independently of a functional endothelium.

Berberine alleviates cerebellar damage in global cerebral ischemia: A comprehensive study with stereological analysis, evaluation of the antioxidant response, and locomotor function in rat models

AbstractBackgroundGlobal cerebral ischemia (GCI) leads to significant oxidative damage in the cerebellum, mainly affecting Purkinje cells. This study aimed to investigate the neuroprotective effects of berberine chloride (BBR), a compound known for its antioxidant properties against GCI.Materials and methodsFourty‐two adult male Wistar rats were divided into three groups: Sham, GCI, and GCI + BBR. Rats received BBR (50 mg/kg) seven days before and six hours after inducing GCI via bilateral common carotid artery occlusion for 20 min. They were assessed for locomotor activity by the open‐field test, the cerebellar biochemical factors malondialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), cerebellum volume and Purkinje neuron count by stereological analysis.ResultsThe BBR treatment reduced the concentration of MDA and increased the activity of antioxidant enzymes SOD, CAT and GPx in the GCI + BBR group compared to the GCI group. Stereological analysis revealed higher Purkinje cell count, cerebellum, white matter, and gray matter volume in the GCI + BBR group compared to the GCI group. Furthermore, GCI + BBR showed enhanced locomotor function compared to the GCI group.ConclusionBBR showed therapeutic benefits and improved locomotor function. It demonstrated antioxidative effects by lowering MDA levels, boosting enzymatic activities, and significantly mitigating Purkinje cell death and cerebellar volume loss.

Hydrogen sulfide ameliorated endothelial dysfunction in hyperhomocysteinemia rats: Mechanism of IRE1α/JNK pathway-mediated autophagy

Previous studies showed that hyperhomocysteinemia (HHcy) induced endothelial dysfunction by endoplasmic reticulum (ER) stress induction and autophagy stimulation. This study aimed to determine the effect of hydrogen sulfide (H2S) in homocysteine (Hcy)-induced endothelial dysfunction and observe the possible mechanism involved. Male Wistar rats (160–180g) were used and randomly divided into four groups: Control group, HHcy group, HHcy+Sodium hydrosulfide (NaHS) group and NaHS group. Rats were fed with 2% high methionine diet for 8 weeks to set up HHcy model. Plasma concentration of Hcy was measured by ELISA. Endothelium-dependent and non-endothelium-dependent vasodilation of rat renal arteries were determined by myograph. The protein expression of cystathionine-γ-lyase (CSE), ER stress- and autophagy-related proteins in renal arteries or human umbilical vein endothelial cells (HUVECs) were analyzed by western blotting. The endothelial function was impaired in HHcy rats and HUVECs. NaHS supplementation could improve the ACh-induced vasodilation, however it was eliminated by ER stress inducer Tunicamycin (TM) or autophagy inducer Rapamycin. Western blotting in renal arteries showed that Glucose-regulated protein 78 (GRP78) and three branches of ER stress (p-IRE1α, p-PERK, ATF6) , p-JNK1+p-JNK2 were downregulated, simultaneously the autophagy marker Beclin1, LC3BII/LC3BI ratio were decreased and p62 was increased with NaHS treatment in HHcy rats. In HUVECs, IRE1α-JNK induced autophagy was involved in HHcy-induced endothelial dysfunction, while NaHS stimulation reversed the protein expression in IRE1α/JNK-autophagy pathway with Hcy incubation. This study might suggest that endothelial dysfunction induced by HHcy might be correlated with IRE1α-JNK-autophagy axis pathway, which was suppressed by exogenous supplementation of H2S donor, NaHS.

Effects of Smoothies on Oxidative Stress Markers Following Administration of Monosodium Glutamate in Male Wistar Rats

Fruits are medicinal and also contain essential phytonutrients that gives the fruits potency that keeps the body healthy. The aim of the study is to ascertain the Effects of Smoothies (banana, apple and pineapple) on Oxidative Stress Markers following administration of monosodium glutamate in Male Wistar Rats. Thirty (30) animals weighing 130kg to 180kg were randomly selected into 6 groups with 5 animals per group. Group 1 received 5mls of distilled water, group 2 received 1ml/kg (low dose) of smoothies, group 3 received 2ml/kg (medium dose), group 4 received 3ml/kg (high dose), group 5 received 400mg/kg of monosodium glutamate, group 6 received 400mg/kg of monosodium glutamate and 3ml/kg (high dose) of smoothies co-administered. Administration was carried out for 14 days and on the 15th day, the animals were sacrificed, semen was harvested and 5ml blood was collected via cardiac puncture. Statistical analysis was done using ANOVA and expressed as Mean±SEM. Statistically P < 0.05 was said to be significant. SPSS version 26 was used. The results showed significant increase in SOD in the group that was administered smoothies (high dose) and decrease in the group that was administered 400mg of monosodium glutamate (MSG). MDA increases in the groups that was administered MSG alone and when co-administered with smoothies (high dose). MDA also decreases in the groups given medium and high dose smoothies. Catalase decrease in the group that was given MSG alone. Gluthione increases in the groups that was given medium and high dose smoothies and decrease in the group that was given MSG only.

Curcumin-loaded pickering emulsions based on soy protein isolate aggregates enhance diabetic wound healing

Wound healing in diabetic patients is more complex and prolonged in comparison to nondiabetic persons, and dealing with this problem has attracted considerable attention from researchers. According to its anti-inflammatory and anti-infective properties, Curcumin has a valued place in therapeutics, including wound healing. Still, its low stability and poor bioavailability are significant barriers to using its desirable properties. Hence, various biocompatible and biodegradable delivery systems have been developed to address this issue. In this study, Pickering emulsion (PE) prepared from soybean oil containing curcumin and modified SPI solution at 85 °C at pH 2.0 with 130 mM NaCl for different durations were used as a delivery system for curcumin. Changes in SPI properties were analyzed using fluorescence spectroscopy, Fourier transform infrared spectroscopy, and tensiometry methods. The prepared PEs were studied using microscopic techniques. Curcumin loading efficiency by PE was measured by UV–visible spectroscopy, and the impact of curcumin-loaded PE on wound healing was tested in diabetic rats. Spectroscopic studies and microscopy images revealed SPI amyloid-like aggregates suitable for stabilizing oil-in-water PEs. Tensiometry and creaming stability studies indicated that at least 6 h of heating (HSPI6) is necessary for optimal stability. Curcumin encapsulation efficiency was 95.7 ± 2.1 %. Curcumin-loaded PE-HSPI6 increased the healing rate of diabetic wounds in male Wistar rats by 1.46-fold. This study presents an approach for using biocompatible and biodegradable PEs to deliver hydrophobic compounds like curcumin for accelerating diabetic wound healing.

Unleashing the cardioprotective potential of Ezetimibe against Doxorubicin-induced cardiotoxicity in Wistar rats: Targeting oxidative stress and NF-κB-mediated inflammation

Background Doxorubicin (DOX) is a potent antineoplastic agent used in treating various adult and pediatric cancers, but it tends to provoke dose-dependent cardiotoxicity. Ezetimibe (EZE), a cholesterol-lowering drug, has been reported to possess defensive actions against oxidative stress and inflammation, which are two of the main proposed mechanisms underlying the development of DOX-induced cardiotoxicity (DIC), hence, we aimed to inspect the possible protective effect of EZE against DIC in rats. Methods 24 adult male Wistar rats were allocated into four groups of six: control, DOX, 10 mg/kg EZE plus DOX and 20 mg/kg EZE plus DOX. At the end of the study, the experimental rats were anesthetized and blood samples were collected for biochemical analysis, after which the hearts were excised and heart tissue samples were obtained for biochemical and gene expression analyses. Results Pretreatment with EZE at a dose of 10 or 20 mg/kg alleviated cardiac damage induced by DOX, as EZE blunted the rise in serum levels of cardiac injury biomarkers, including cardiac troponin I (cTnI) and N-terminal pro-B-type natriuretic peptide (NT-proBNP). Additionally, pretreating rats with EZE at either dose mitigated DOX-induced oxidative stress by elevating the levels of the antioxidant enzymes superoxide dismutase (SOD) and glutathione peroxidase (GPx), with consequent reduction in the lipid peroxidation biomarker malondialdehyde (MDA) in cardiac tissues. Furthermore, pretreatment with either dose of EZE hindered DOX-mediated inflammation, where EZE suppressed cardiac nuclear factor-kappa B (NF-κB) signaling and negatively regulated the gene expression of its downstream proinflammatory cytokines, including tumor necrosis factor-alpha (TNF-α) with either dose and interleukin-1 beta (IL-1β) with the higher one. Conclusions Our findings indicate that EZE exhibited cardioprotection against DIC in rats, which makes EZE an interesting area for further investigations, animal- and human-wise, that can pave the way for a potential clinical application in preventing DIC in the future.

Prophylactic Antihypertensive Effect of Extract of Simarouba glauca on Salt-Load Induced Hypertension in Normotensive Male Wistar Rat

Simarouba glauca has been reported to demonstrate a wide range of medicinal properties; including folklore management of hypertension disorder. The current study focused on the application of aqueous leaf extract of Simarouba glauca (AESG) as a potential prophylactic anti-hypertensive agent in male Wistar rats, following salt-load induced hypertension. A total of 15 experimental adult male Wistar rats weighing between 184 and 244 g were used for the study. The rats were allotted into five (5) groups of 25, 50, and 100 mgkg-1 body weight AESG; group that received 8 % NaCl for one week to induce hypertension; replaced with 0.9 % NaCl daily in drinking water for 4 weeks; the normotensive group, received food and water only ad libitum. Body weights and relevant hemodynamics were obtained weekly for four weeks, using the non-invasive (tail-cuff) MRBP system according to the method described by Bunag and Butterfield. Biochemical evaluation and histopathology investigation were conducted on blood plasma and relevant tissues respectively after 4 weeks according to previously established and reported methods; data were analyzed with GraphPad Prism, version 9 and presented as mean ± Standard Deviation. The results indicated that salt-load elicited significant weight loss; elevated hemodynamics; particularly, systolic and diastolic blood pressures; altered relevant biochemical indicators of hepatic and renal functions. Inversely, groups pre-treated with respective dose of AESG exponentially gained weight, significantly prevented alterations of hemodynamics and mitigated relevant biochemical indicators and pathological changes in relevant organs. Pre-treatment with AESG; particularly at 50 mgkg-1, remarkably demonstrated significant anti-hypertensive potential.

Impact of polyethylene microplastics exposure on kallikrein-3 levels, steroidal-thyroidal hormones, and antioxidant status in murine model: protective potentials of naringin

The widespread presence of microplastics in the environment has raised significant concerns regarding their potential impact on human and animal health. Among various microplastic types, polyethylene microplastics (PE-MPs) are particularly prevalent due to the extensive use in packaging and consumer products. Exploring the uncharted therapeutic potentials of naringin, this study delves into its mitigating effects on disruptions in kallikrein-3 levels, steroidal-thyroidal hormone balance, and antioxidant defense triggered by PE-MPs exposure, paving the way for novel interventions in environmental toxin-induced endocrine and oxidative stress disorders. Male Wistar rats (n = 24) were randomly grouped into four: Control, PE-MPs (1.5 mg/kg), PE-MPs + NAR (1.5 mg/kg PE-MPs + 100 mg/kg NAR), and NAR (100 mg/kg). Hormonal and antioxidant parameters were assessed after 28 days of exposure. PE-MPs exposure caused a significant increase(p < 0.005) in the level of kallikrein-3 (KLK-3) while it significantly reduces the levels of testosterone (TST), luteinizing hormone, thyroid stimulating hormone (TSH) and Free-triiodothyronine (fT3) and Total cholesterol (TChol) concentration. PE-MPs exposure also disrupted significantly (p < 0.005) antioxidant profile by down-regulating the activities of glutathione-S-transferase, catalase (CAT), superoxide dismutase (SOD) and reducing levels of glutathione (GSH) and ascorbic acid (AA) while concentration of malondialdehyde (MDA) levels were increased relative to control. However, the mitigating potentials of naringin on disruptions in hormonal and antioxidant profiles caused by PE-MPs exposure were demonstrated, as NAR normalized KLK-3, steroid, and thyroid hormone levels, cholesterol concentration, and enhanced antioxidant defense. This suggests that NAR is a promising protective agent against endocrine and oxidative damage induced by environmental contaminants such as microplastics.

Effects of four-week lasting aerobic treadmill training on hepatic injury biomarkers, oxidative stress parameters, metabolic enzymes activities and histological characteristics in liver tissue of hyperhomocysteinemic rats.

Disruptions in homocysteine (Hcy) metabolism may increase the liver's susceptibility to developing conditions such as alcoholic liver disease, viral hepatitis, hepatocellular carcinoma (HCC), and cirrhosis. The aim of this study was to examine effects of aerobic treadmill training on hepatic injury biomarkers in sera, oxidative stress parameters, the activity of metabolic enzymes, and histological characteristics in the liver tissue of rats with experimentally induced hyperhomocysteinemia. Male Wistar albino rats were divided into four groups (N = 10, per group): C-saline 0.2mL/day sc. 2×/day for 14days + saline 0.5mL ip.1×/day for 28days; H-homocysteine 0.45µmol/g b.w. 2×/day for 14days + saline 0.5mL ip.1×/day for 28days; CPA-saline 0.2mL/day sc. 2×/day for 14days + aerobic treadmill training for 28days; and HPA-homocysteine 0.45µmol/gb.w. 2×/day for 14days + aerobic treadmill training for 28days. The serum albumin concentration was decreased in both physically active (PA) groups compared to sedentary groups. Concentration of malondialdehyde in liver tissue homogenates was lower in both PA groups compared to the H group. The total lactate dehydrogenase and malate dehydrogenase activities were significantly elevated in the HPA group compared to the C and H groups. Activities of aminotransferases in sera samples, and activities of catalase and superoxide dismutase in liver tissue did not significantly differ between groups. No significant histological changes were found in liver tissue in groups. This study demonstrated that aerobic treadmill training can reduce lipid peroxidation in liver tissue under hyperhomocysteinemic conditions, providing a protective effect. However, hyperhomocysteinemia can alter energy metabolism during aerobic exercise, shifting it toward anaerobic pathways and leading to elevated lactate dehydrogenase activity in the liver. Given that conditions like hyperhomocysteinemia are associated with an increased risk of cardiovascular diseases and liver damage, understanding how exercise influences these dynamics could guide therapeutic approaches.

Thyme and Oregano Oil Potential Therapeutics against Malathion Toxicity through Biochemical, Histological, and Cytochrome P450 1A2 Activities in Male Wistar Rats.

The widespread use of malathion may offer several hazards to humans and animals; additionally, many medicinal plants provide what is known as a broad antitoxicity treatment. This study was carried out to investigate hazardous biochemical and histological reactions to MOP and evaluate the effectiveness of TEO and OEO essential oils in restoring normal physiological conditions after MOP exposure by measuring enzyme-specific activity for Cytochrome P450 1A2 (CYP1A2). One hundred and twenty rats were divided into six groups of twenty animals each: (i) C - MOP served as the control group, (ii) C + MOP treated with 5 mg/kg/BW of Malathion-D10, (iii) TEO treated with 100 mg/kg/BW of oregano essential oil, (iv) TEO treated with 100 mg/kg/BW of thyme essential oil, (v) MOP + OEO treated with 5 mg/kg/BW of Malathion-D10 and 100 mg/kg/BW of oregano essential oil, and (vi) MOP + TEO treated with 5 mg/kg/BW of Malathion-D10 and 100 mg/kg/BW of thyme essential oil. The results indicated the protective effects of OEO and TEO against MOP-induced weight loss. Additionally, there was a significant improvement in ALT, AST, and ALK-Ph after being treated with OEO and TEO, either alone or after MOP exposure. Also, treatment with OEO and TEO ameliorated these oxidative stress parameters, indicating their antioxidative properties. A histopathological examination of liver tissues showed reduced hepatocellular damage and improved liver architecture in the OEO and TEO, both alone and in combination with MOP, and protective effects were more pronounced in the TEO-treated groups. However, the results indicated that TEO was more effective than OEO in increasing CYP1A2 expression and alleviating MOP-induced toxicity. Specifically, TEO showed higher protein expression and therapeutic action in reducing liver damage. In conclusion, these findings suggest that OEO and TEO may be potent therapeutic agents against MOP toxicity, offering protective effects by enhancing CYP1A2 activity and mitigating organ damage. Such knowledge would be an important step toward developing potentially unique treatment options for natural antitoxins.

The diversity of AMPA receptor inhibition mechanisms among amidine-containing compounds.

Amidine-containing compounds are primarily known as antiprotozoal agents (pentamidine, diminazene, furamidine) or as serine protease inhibitors (nafamostat, sepimostat, camostat, gabexate). DAPI is widely recognized as a fluorescent DNA stain. Recently, it has been shown that these compounds also act as NMDA receptor inhibitors. In this study, we examined the activity of these compounds and analyzed the mechanisms of action in relation to another important class of ionotropic glutamate receptors-calcium-permeable AMPA receptors (CP-AMPARs) and calcium-impermeable AMPA receptors (CI-AMPARs) - using the whole-cell patch-clamp method on isolated male Wistar rat brain neurons. Gabexate and camostat were found to be inactive. Other compounds preferentially inhibited calcium-permeable AMPA receptors with IC50 values of 30-60µM. DAPI and furamidine were also active against CI-AMPARs with IC50s of 50-60μM, while others showed poor activity. All active compounds acted as channel blockers, which are able for permeating into the cytoplasm on both CP- and CI-AMPARs. Specifically, sepimostat showed trapping in the closed CP-AMPAR channel. Furamidine and DAPI demonstrated a voltage-independent action on CI-AMPARs, indicating binding to an additional superficial site. While the majority of compounds inhibited glutamate-activated steady-state currents as well as kainate-activated currents on CI-AMPARs, pentamidine significantly potentiated glutamate-induced steady-state responses. The potentiating effect of pentamidine resembles the action of the positive allosteric modulator cyclothiazide although the exact binding site remains unclear. Thus, this study, together with our previous research on NMDA receptors, provides a comprehensive overview of this novel group of ionotropic glutamate receptors inhibitors with a complex pharmacological profile, remarkable diversity of effects and mechanisms of action.

6-Shogaol Abrogates Parkinson’s Disease in Rotenone-Induced Rodents: Based on In Silico Study and Inhibiting TNF-α/NF-κB/IL-1β/MAO-B

Background/Objectives: 6-Shogaol is a comparatively innovative anti-Parkinson’s remedy with antioxidant and anti-inflammatory characteristics. This investigation intended to determine the role of 6-shogaol in the Parkinson’s disease (PD) paradigm in rotenone-induced rats. Methods: Thirty male Wistar rats (10–12 weeks old; 180 ± 20 g) were divided into five groups. Animals with rotenone-induced experimental PD were subsequently treated with 6-shogaol-10 at 20 mg/kg for 28 days. After the experimental duration, behavioural investigations were performed, i.e., open field test, forced swim test, rotarod test, and catalepsy test. Biochemical assessments like AChE, GSH, CAT, SOD, MDA, nitrite, ceruloplasmin, proinflammatory markers such as IL-1β, NF-κB, TNF-α, and catecholamines markers (DA, GABA, and MAO-B) were determined. The docking procedure was conducted using the AutoDock Vina docking protocol. Furthermore, histopathology was performed. Results: Rotenone significantly increased the level of MAO-B, oxidative, nitrative, and pro-inflammatory markers. However, there was a decline in ceruloplasmin, dopamine, and endogenous antioxidants. Treatment with 6-shogaol (10 and 20 mg/kg) considerably sustained the elevation of oxidative stress and inflammatory indicators and decreased AChE activity and dopamine levels. In the histology of the brain, 6-shogaol improved the neuronal structure and reduced the degeneration of neurons. Based on the binding energy values, compound 6-shogaol demonstrates a favourable binding affinity to AChE, MAO-B, DA, and GABA with respective binding energies of −8.214, −8.133, −7.396 and −6.189 kcal/mol. Conclusions: In this study, 6-shogaol exhibited neuroprotective properties against PD, which could be employed as a prospective medication for PD.

Changes in Skeletal Muscle Atrophy over Time in a Rat Model of Adenine-Induced Chronic Kidney Disease

This study evaluated changes over time in skeletal muscle atrophy, expressions of skeletal muscle anabolic and catabolic genes, and mitochondrial activity by skeletal muscle type in an adenine-induced chronic kidney disease (CKD) model. A CKD model was successfully established by feeding male Wistar rats a 0.75% adenine diet for 4 weeks starting at 8 weeks of age. Control and CKD groups were sacrificed at 12 and 20 weeks of age. The back muscles were analyzed histologically, and succinate dehydrogenase (SDH) staining was performed to evaluate mitochondrial activity. Gene expressions of myogenic determination gene number 1 and myogenin as indicators of muscle anabolism, atrogin-1 and muscle RING-finger protein-1 (MuRF1) as indicators of muscle catabolism, and peroxisome proliferator-activated receptor-γ coactivator-1-α as a marker of mitochondrial biogenesis were assessed. Type I and type II muscle cross-sectional areas (CSAs) were decreased at 12 weeks, but type I muscle CSA was recovered at 20 weeks. SDH staining was lower in CKD than in control rats at 12 weeks, but no significant difference was observed at 20 weeks. Increased expressions of myogenin, atrogin-1, and MuRF-1 were observed only at 12 weeks, but no differences were observed at 20 weeks. The adenine-induced CKD rat model appears to show changes in muscle atrophy over time.