Search Results (33,153)

Premature ovarian failure (POF) is characterized by oxidative stress, cellular senescence, and impaired steroidogenesis, yet current therapies remain limited in effectiveness. Thymol, a natural monoterpene, exhibits antioxidant and anti-inflammatory properties. Network pharmacology and molecular docking identified multiple potential targets, notably the Janus kinase 1 (JAK1)-signal transducer and activator of transcription 3 (STAT3) pathway. In tert-butyl hydroperoxide (t-BHP)-induced human granulosa-like tumor cells (n = 3), 40 μg/mL thymol increased cell viability by approximately 45%, restored superoxide dismutase, catalase, and glutathione peroxidase activities to nearly twice those of the model group, and reduced reactive oxygen species accumulation by about 35% (p < 0.05). It also decreased senescence markers p53, p21, and p16 by 40–60% and inhibited JAK1–STAT3 phosphorylation (n = 3, p < 0.05). In aged pregnant mice (n = 4 per group), thymol increased viable fetus numbers by about 40%, elevated serum estradiol and progesterone levels to 1.6–1.8-fold of aged controls, and downregulated ovarian aging markers (p < 0.05). Collectively, these findings indicate that thymol mitigates oxidative stress-induced ovarian aging by modulating JAK1–STAT3 signaling and restoring steroidogenic function, supporting its potential as a natural candidate for delaying ovarian senescence. Full article

Low-fishmeal feed is increasingly being adopted across the global aquaculture industry. This study evaluated dietary Clostridium butyricum and alanyl-glutamine (Ala-Gln) supplementation in juvenile triploid rainbow trout (Oncorhynchus mykiss) with a low-fishmeal diet. Four diets were tested: basal diet (SBM, 15% fishmeal and 21.6% soybean meal), SBM + 0.5% C. butyricum (CB), SBM + 1.0% Ala-Gln, and SBM + 0.5% C. butyricum + 1.0% Ala-Gln (CB-AG). Fish were fed in 500 L tanks in recirculating aquaculture systems for 8 weeks (62.52 ± 0.47 g). Each group comprised three tanks, with each tank housing 30 fish. Then 10 fish per tank were challenged with Aeromonas salmonicida. CB-AG showed significantly higher weight gain and specific growth rates than the SBM group (p < 0.05). Mortality was significantly lower in CB-AG and AG than in SBM after A. salmonicida challenge. Histomorphology revealed significant differences (p < 0.05) between CB-AG and SBM in muscularis thickness, villus width, and height. SBM sections showed inflammatory infiltration and border damage were attenuated in supplemented groups. Serum malondialdehyde (MDA) and dioxygenase (DAO) were significantly lower in CB-AG than SBM (p < 0.05), while serum and hepatic lysozyme (LZM) and hepatic superoxide dismutase (SOD) were higher. Digestive enzymes indicated significantly higher trypsin and lipase activities in CB-AG (p < 0.05). CB-AG upregulated intestinal tight junction proteins and PepT1 and downregulated pro-inflammatory mediators. Combined 0.5% C. butyricum and 1.0% Ala-Gln inclusion effectively preserved growth performance, antioxidant capacity, gut microbiome homeostasis, and intestinal health in rainbow trout on low-fishmeal diets. Full article

The need for new medications to treat diabetes mellitus (DM) is a global health concern due to the cost and impact on patients and their families, health systems, and society. Recent approaches in drug development have focused on multitarget therapy for DM, considering its multifactorial and complex pathophysiology. The present work contributes to the review of the plant species Schinus molle L. (pirul), a tropical tree native to South America but now widespread worldwide, which has demonstrated anticancer, analgesic, antibacterial, and insecticidal properties. According to traditional uses, pirul has been employed as a food condiment, in the preparation of beverages and chewing gums, and in the treatment of DM. The antidiabetic effects of pirul appear to act through several mechanisms involved in DM. The methanolic extract of S. molle fruits collected in Tunisia exhibited a dose-dependent inhibition on both α-amylase and α-glucosidase enzymes (77.49% and 86.45%, respectively). A dose-dependent anti-inflammatory effect was also observed at 1, 2, 3, 4, and 5 h, in the carrageenan-induced rats’ paw edema model. Furthermore, in both the H₂O₂ and the superoxide radical assays, the pirul extract demonstrated moderate antioxidant activity (IC₅₀ = 0.22 mg/mL). Isomasticadienonic acid and Masazino-flavanone, the major components of active fractions and extracts of S. molle represent promising antidiabetic agents. Although pirul appears to be safe in in vivo acute and subchronic administrations, toxicological studies and clinical trials in individuals with DM are still pending. Full article

Background: Skeletal muscle is essential not only for structural integrity but also metabolic homeostasis. Muscle atrophy, the loss of muscle mass and function, is closely linked to chronic and metabolic disorders and is driven by chronic inflammation, oxidative stress, impaired myogenesis, and disrupted protein homeostasis. The present study aimed to evaluate the protective effects and underlying mechanisms of Rosa canina extract (RCE), a polyphenol-rich plant known for its antioxidant and anti-inflammatory properties, in vitro and in vivo models of muscle atrophy. Methods: We investigated the effects of RCE in TNF-α-treated L6 myotubes and a mouse model (eight-week-old male C57BL/6N) of immobilization-induced muscle atrophy. Markers of inflammation, oxidative stress, myogenesis, protein turnover, and anabolic signaling were analyzed via RT-PCR, Western blotting and ELISA. Muscle mass, performance, micro-CT imaging, and histological cross-sectional area were assessed in vivo. Results: RCE suppressed pro-inflammatory cytokines, restored antioxidant enzyme expression, and preserved myogenic markers. It inhibited muscle proteolysis by downregulating the genes involved in protein degradation and promoted protein synthesis by via activation of the PI3K/Akt/mTOR pathway. In mice, RCE mitigated muscle mass loss, preserved fiber cross-sectional area, improved strength and endurance, and restored muscle volume. Conclusions: RCE attenuated muscle atrophy by targeting inflammation, oxidative stress, proteolysis, and impaired anabolism. These findings highlight RCE as a promising natural therapeutic for preserving muscle health and metabolic homeostasis. Full article

Flaxseed (Linum usitatissimum) is one of the most important crops worldwide due to its nutritional and functional properties. Given the diversity of flax and its processed products, this review aimed to systematize and analyze data on their antioxidant properties, oxidative stability, and content of biologically active substances. The literature search was conducted using the following databases: Scopus and The Lens. This review examines the approaches to studying the antioxidant properties, oxidative stability, and content of biologically active substances of flax and its processed products, which are used in the food industry, highlighting the advantages and limitations of the methods employed. For the analysis of AOA and OS in flaxseeds and their processing products, the most common approach is the in vitro model. For AOA assessment, non-standardized methods such as DPPH^•, FRAP, and ABTS^•+ are most frequently used, while standard methods for determining OS (PV, AV, p-AnV, CDs, CTs, TBARSs, OSI) are employed. However, these parameters are integral and cannot fully explain the underlying processes. In our opinion, the most promising directions for further research are the standardization of methods for analyzing the antioxidant activity (AOA) of flaxseed and its processing products. Furthermore, expanding the methodological framework will lead to a better understanding of the mechanisms of oxidative processes and how to inhibit them. An expanded set of AOA assessment methods will allow researchers not only to study the action of antioxidants but also to predict it. This is particularly relevant since the same antioxidant can exhibit both antioxidant and pro-oxidant effects. Full article

The Mediterranean ecosystem is characterized by marked seasonality; it is composed of species such as shrublands that are subjected to high levels of water and thermal stress, making these species an important source of secondary metabolites of significant chemical and ecological interest. In this work, 21 plants were selected from the Mediterranean scrub. These abundant and characteristic representations of the ecosystem produce a total of 197 terpenes. The majority of these are monoterpenes (46.70%), followed by sesquiterpenes (38.07%), with a minority of diterpenes (5.53%) and triterpenes (10.15%). Tetraterpenes accounted for only 0.5% of the total compounds in the species studied, corresponding to only 1%. The major terpenes include 1,8-cineole, terpinen-4-ol, α-terpineol, borneol, camphor, γ-terpinene, limonene, linalool, o-cymene, α-tujene, α-pinene, β-pinene, sabinene, myrcene, β-phellandrene, and β-caryopylene. Species such as Pistacea terebinthus, Rosmarinus officinalis, Cistus ladanifer, Myrtus communis, Lavandula stoecha, and Thymus mastichina contain the most terpenic compounds in their chemical composition. Furthermore, these metabolites are involved in various biological functions, including antimicrobial, antioxidant, neuroprotective, antibacterial, cardiovascular, analgesic, antitumor, and insecticidal activities, among others. Various terpenes present in Mediterranean scrub species, such as 1,8-cineole, α-pinene, limonene, borneol, and terpinen-4-ol, have demonstrated synergistic effects that enhance their antimicrobial, insecticidal, and neuroprotective properties. These interactions between compounds make the natural extracts more effective than they would be individually, increasing their therapeutic and biotechnological value. The synergism among terpenes suggests a promising approach for developing more effective and sustainable phytotherapeutic products. Full article

Macroalgae have low nutrient bioavailability, often requiring pretreatments—physical, chemical, or biological—typically using low-solid loading hydrolysis, which produces separate liquid and solid phases. In contrast, high-solid loading hydrolysis offers a single-phase alternative, though it remains underexplored for macroalgae. This study evaluated the effectiveness of high-solid loading hydrolysis for breaking polysaccharides and increasing the availability of nutrients and antioxidant compounds in Codium tomentosum. Treatments using mixtures containing 25% dry biomass and 75% water or 0.5N and 1N NaOH, autoclaved for 30 or 60 min, were performed. Among the tested treatments, high-solid loading alkaline autoclaved treatment (1N NaOH, 60 min) was most effective in reducing neutral detergent fiber and enhancing the availability of bioactive compounds, particularly soluble proteins and phenols. Based on these results, a sequential enzymatic hydrolysis with Natugrain^® at 0.2 and 0.4% was also applied to pre-treated C. tomentosum with water or 1N NaOH. Enzymatic hydrolysis after autoclaving had no major effect on fiber, soluble protein, or ash, but increased phenol levels. In conclusion, high-solid loading alkaline treatment (1N NaOH) followed by enzymatic hydrolysis with Natugrain^® enzyme reduced fiber content and enhanced soluble protein and phenolic compounds, thereby improving the nutritional and functional potential of C. tomentosum for inclusion in animal feeds. Full article

The aim of the study was to evaluate the effect of pig dietary supplementation with an antioxidant mixture (150 mg of Vitamin E and 15 mg of verbascoside from Verbenaceae extract) for 38 days before slaughter on the quality parameters of cooked ham. A total of 150 pigs were divided into two experimental groups: one receiving a control diet (C) and one a diet with the antioxidant blend (AO). Twenty pigs per treatment were randomly selected and slaughtered at about 135 kg of live weight. The results showed that cooked ham colour indexes and tenderness were not influenced (p > 0.05) by dietary treatment. The nutritional and sensory parameters were unaltered (p > 0.05) by the antioxidant supplementation. Dietary treatment positively influenced the oxidative stability (p < 0.05) of cooked ham from pigs fed the AO diet compared to the control diet. The present study suggests that dietary supplementation with an antioxidant blend for a short period (38 days) is able to improve the oxidative stability of cooked ham without impacting its chemical and sensory characteristics. Full article

Background: Past studies have documented the antimicrobial effects of dimethyl sulfoxide (D.M.SO). However, the side effects and toxicity profiles of DMSO in vivo have been a significant deterrent for its wide-ranging clinical use. Dimethyl sulfone (DMSO-2), a natural metabolite of DMSO, is currently used as a safe dietary supplement due to its antioxidant properties and multimodal mechanisms of action. While DMSO displays antimicrobial activity, little is known concerning DMSO-2’s antimicrobial effect. Thus, this investigation compares the antimicrobial effects of DMSO and DMSO-2 on the growth and viability of the pathogenic anaerobic bacteria, Porphyromonas gingivalis, and their cytotoxic effect on human oral epithelial (OKF6/TERT-2) cells. Methods: P. gingivalis was grown in TSBY media in the presence of DMSO or DMSO-2 (0–4%) for planktonic growth and viability determinations. OKF6/TERT-2 cells were expanded in vitro and similarly exposed to DMSO or DMSO-2 for viability studies. Results: After 24 h exposure to DMSO or DMSO-2, growth of P. gingivalis is inhibited by 57% and 77%, respectively, while viability is inhibited by 55% and 62%. In contrast, 24 h exposure to similar concentrations of DMSO or DMSO-2 induces 5% and 2% cytotoxicity in OKF6/TERT-2 cells, respectively. Conclusions: Both DMSO and DMSO-2 inhibit the growth and viability of P. gingivalis but show minimal toxic effect on OKF6/TERT-2 cells. Therefore, the utility of these two natural compounds as antimicrobial agents against anaerobic pathogens should be further investigated. Full article

There are no disease-modifying treatments available for Huntington’s disease (HD), a neurodegenerative disease caused by a genetic mutation in the Huntingtin gene. Previous research suggests that disruptions in the bioenergetics of the mitochondria and increased oxidative stress are potential inducers of HD. Therapies that enhance antioxidant pathways intend to target and attenuate the overproduction of reactive oxygen species associated with mitochondrial dysfunction. We have investigated the effect of Methylene Blue (MB) as a potential therapy for HD. MB is a small molecule demonstrated to exhibit neuroprotective effects in other neurodegenerative disease models, including Parkinson’s and Alzheimer’s, by attenuating the oxidative stress pathways implicated in their pathophysiology. We used an established striatal cell model of HD expressing wild-type (STHdh^Q7/Q7) or mutant (STHdh^Q111/Q111) HTT and a chemical inducer of HD, 3-Nitropropionic acid (3-NPA), to determine the HD-specific mechanisms regulated by 3 h of MB pre-treatment. Upon 24 h of exposure to 3-NPA, mutant HD cells exhibited a significant concentration-dependent decrease in cell survival and a concomitant increase in cell death compared to wild-type, confirming that 3-NPA exacerbates mutant HTT neurotoxicity. Examination of mitochondrial membrane potential and mitochondrial function in the striatal cells by JC-1 and ATP assays, respectively, revealed MB mediated neuroprotection against 3-NPA-induced reduction in mitochondrial activity. Immunoblotting analysis revealed that MB restores baseline expression of oxidative-stress-related proteins, including HO1 and p62, in both wild-type and mutant cells exposed to 3-NPA. Our findings establish a novel neuroprotective role of MB in both genetic and pharmacological models of HD, suggesting that MB might be a promising therapeutic candidate for altering the underlying pathophysiology of HD by improving mitochondrial function. Full article

Background/Objectives: Metformin (Met) is a potent antidiabetic drug that also exhibits anticancer, antioxidant, and organ-protective properties. Luteolin (Lut), a naturally occurring flavonoid found in many plant species, possesses anticancer, antioxidant, and anti-inflammatory effects. Since both compounds affect cellular metabolism and oxidative balance, the analysis of metabolites produced in living cells provides insight into biochemical alterations occurring in cancer cells and enables monitoring of treatment response. Methods: In this study, Met (1–20 mM) and Lut (1–100 µM) were tested in vitro, both individually and in combination, to evaluate their effects on cell viability, free radical levels, and metabolite profile alterations in cancer and normal cell lines (MDA-MB-231, SW620, and V79). Cell viability was assessed using the MTT assay at two time points (24 h and 48 h), while reactive oxygen species (ROS) levels were measured after hydrogen peroxide stimulation (100 µM H₂O₂) using the DCF-DA assay. Metabolomic changes induced by Met and Lut were analyzed by ¹H NMR spectroscopy. Results: The analysis showed that Lut reduced the viability of MDA-MB-231 cells at both time points, whereas Met decreased viability only after prolonged incubation. Met did not inhibit the proliferation of SW620 colorectal cancer cells, while Lut reduced viability at higher concentrations (100 µM after 24 h, and 50–100 µM after 48 h). Conclusions: The combination of metformin and luteolin demonstrated additive effects in reducing cell viability and oxidative stress compared with single-compound treatments. Normal V79 fibroblasts responded to both Met and Lut, individually and in combination. Both compounds exhibited moderate antioxidant properties in cells exposed to 100 µM H₂O₂. Lut (25 µM) reduced free radical levels in MDA-MB-231 cells, whereas Met (2.5 mM) did so in SW620 cells. The combination of both compounds increased ROS levels in SW620 cells subjected to oxidative stress. Overall, co-treatment with metformin and luteolin altered metabolic pathways and induced changes in intra- and extracellular metabolite levels across all tested cell lines. The observed additive effects suggest that the combined use of metformin and luteolin may enhance anticancer and antioxidant responses, warranting further in vivo studies to confirm these interactions. Full article

A hypercaloric diet is associated with oxidative stress and the dysfunction of ATP-Binding Cassette transporter A1 (ABCA1), a key element in high-density lipoprotein (HDL) biogenesis and reverse cholesterol transport. Nicotinamide (NAM) presents antioxidant properties, which may contribute to maintaining lipid metabolism. Therefore, we aimed to evaluate the effect of NAM on HDL-cholesterol (HDL-C) level, oxidative stress markers, and the gene expression and protein levels of ABCA1 in Sprague-Dawley rats fed a hypercaloric diet. Forty male rats were divided into five groups: one group received a standard diet, and the remaining groups received a single high-fat, high-fructose diet (HFDF). Three of the HFDF groups received NAM treatment (5, 10, and 15 mM) in drinking water for 16 weeks (5 h/day). While HDL-C and oxidative stress were measured in serum samples, oxidative stress markers, and the gene expression and protein levels of ABCA1 were quantified in liver samples. The HDL-C level altered by the HFDF was improved by treatment with NAM. Furthermore, NAM reduces systemic lipid peroxidation levels and enhances the hepatic antioxidant response affected by the HFDF. In addition, NAM modulates the hepatic ABCA1 gene expression and protein level, altered by the HFDF. Our results suggest that NAM may modify the serum HDL-C level by an improvement of antioxidant response, and a possible modulation of the hepatic ABCA1 gene and protein expression. Further metabolic and molecular studies are needed to support the potential therapeutic role of NAM to prevent or treat lipid alterations promoted by a hypercaloric diet. Full article

Edible bird nest (EBN) has a longstanding tradition in Chinese herbal medicine as a natural supplement for enhancing health and well-being. Current scientific research indicates that EBN possesses properties conducive to improving male reproductive function. These properties include promoting cell proliferation, containing essential reproductive hormones, and exhibiting antioxidant activity. Despite these promising characteristics, the potential of EBN’s specific effects on male reproductive health, particularly in addressing infertility, remains sparsely discussed. Hereby, this review aims to present the available scientific evidence, discuss potential benefits, and underscore the importance of future research in advancing our understanding of EBN’s role in male reproductive health. This work is imperative to expand our knowledge of the biological underpinnings of EBN so that it can be developed as a food supplement and alternative treatment for male infertility. Full article

The Earth’s geomagnetic field (GMF) is a fundamental environmental signal for plants, with its perception rooted in quantum biology. Specifically, the radical pair mechanism (RPM) explains how this weak force influences electron spin states in metabolic pathways, providing a framework for its profound biological impact. Research shows that a hypomagnetic field (hMF) directly reduces the production of reactive oxygen species (ROS), creating a quantum signature in plants. This is a counterintuitive finding, as it suggests the plant perceives less oxidative stress and, in response, downregulates its antioxidant defenses. This multi-level effect, from a quantum trigger to molecular and metabolic changes, ultimately affects the plant’s growth and phenotype. This review suggests a possible link between the GMF and plant health, identifying the GMF as a potential physiological modulator. Manipulating the magnetic field could therefore be a novel strategy for improving crop resilience and growth. However, the fact that some effects cannot be fully explained by the RPM suggests other quantum mechanisms are involved, paving the way for future research into these undiscovered processes and their potential inheritance across generations. Full article

Background/Objectives: Eleutherococcus senticosus (Siberian ginseng) is an adaptogenic plant widely recognized for its antioxidant and immunomodulatory properties; however its hepatoprotective potential properties are unexplored. This study aimed to evaluate whether the fruit extract of E. senticosus contains chemical constituents with hepatoprotective effects in a paracetamol-induced liver injury model in mice. Methods: Female BALB/c mice were randomized into five groups: control, paracetamol (300 mg/kg, IP), E. senticosus extract (750 or 1500 mg/kg, PO) + paracetamol, and silymarin (50 mg/kg) + paracetamol. Extracts were administered for seven days before paracetamol challenge. Biochemical markers (ALT, AST, urea, creatinine, protein, albumin) and hematological parameters were assessed, and organs were subjected to histopathological examination. Phytochemical characterization of the extract was performed using UHPLC-DAD-MS and ICP-OES. Results: The 750 mg/kg dose of E. senticosus extract maintained ALT, AST, urea, and creatinine levels close to control values, while the higher dose (1500 mg/kg) was less effective and showed an increase in serum urea. Both extract doses and silymarin attenuated creatinine elevation induced by paracetamol. No histopathological changes were detected in the kidneys or brains of treated animals. Phytochemical analysis revealed high contents of phenolic acids (chlorogenic and dicaffeoylquinic acids), flavonoids, amino acids, and essential minerals. Conclusions: E. senticosus fruit extract demonstrated a hepatoprotective effect at an optimal dose (750 mg/kg), indicating a potential dose-dependent effect. The absence of histopathological alterations in key organs supports the fruit extract’s safety. Full article