194 studies on Oxidative stress mechanism curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
This research provides a critical mechanistic link between maternal obesity and the multigenerational inheritance of MASLD, highlighting mitochondrial dysfunction as a key driver. Understanding this pathway opens new …
The findings underscore the significant therapeutic potential of mitochondrial-derived peptides as a novel class of agents for preventing and treating vascular aging and associated cardiovascular diseases. By targetin…
These findings highlight MOTS-c as a highly promising therapeutic candidate for treating diabetic cardiomyopathy by directly addressing the underlying mitochondrial dysfunction. The ability of MOTS-c to restore fundam…
This review significantly advances our understanding of Parkinson's disease by highlighting the previously underappreciated role of mitochondria-derived microproteins (MDPs) as key players in its pathogenesis. The fin…
This research highlights MOTS-c as a highly promising therapeutic candidate for intrauterine growth restriction (IUGR), a condition currently plagued by limited effective treatment options. By demonstrating its abilit…
This review establishes a crucial link between mitochondrial-derived microproteins and the pathogenesis of both cancer and neurodegenerative diseases, offering a novel perspective on disease etiology. By identifying c…
This review significantly advances our understanding of mitochondria-derived peptides (MDPs) as critical regulators of hepatic metabolism and potential therapeutic agents. The identification of MDPs like MOTS-c and Hu…
This study provides compelling evidence that exogenous MOTS-c can effectively mitigate myocardial ischemia-reperfusion injury by preserving cardiac function, reducing infarct size, and combating oxidative stress. Give…
This research provides compelling evidence that MOTS-c could serve as a novel and effective therapeutic agent for preventing or treating cardiac dysfunction associated with high-altitude exposure. By actively promotin…
This research highlights MOTS-c as a potential biomarker and therapeutic target for Polycystic Ovary Syndrome (PCOS). The strong association between reduced MOTS-c and mitochondrial dysfunction suggests that restoring…
This research is highly significant as it identifies MOTS-c as a promising therapeutic candidate for preventing or treating bronchopulmonary dysplasia, a major cause of morbidity in premature infants. By activating th…
This comprehensive review underscores that Semaglutide represents a significant therapeutic advancement, extending its benefits far beyond glucose control. Its dual cardioprotective and nephroprotective actions positi…
This research provides compelling evidence that GLP-1RAs possess direct antiarrhythmic properties, significantly extending their known cardiovascular benefits beyond glycemic control and weight loss. The observed subs…
This groundbreaking research powerfully highlights the potential of Thymosin alpha 1 as a novel and effective therapeutic agent for addressing the complex systemic complications of cystic fibrosis, offering a much-nee…
This development offers a highly specific and sensitive tool for the detection of copper ions, which is paramount for monitoring environmental contamination and for advancing our understanding of copper's role in heal…
This research provides critical insights into the intricate mechanisms by which metal-peptide complexes can modulate enzyme function, showcasing both beneficial stimulation and detrimental oxidative damage. Understand…
GHK's superior ability to quench HNE highlights its significant potential as a potent natural antioxidant against oxidative stress-related damage, which is implicated in numerous chronic diseases and the aging process…
This comprehensive review unequivocally underscores GHK's significant potential as a versatile therapeutic agent for a wide range of conditions involving tissue damage, impaired regeneration, and pathological fibrosis…
This research provides a fundamental and detailed understanding of how subtle changes in peptide sequence influence the coordination chemistry and intrinsic redox activity of copper-peptide complexes. This detailed st…
The synthesis of evidence strongly suggests that GHK-Cu holds significant promise as a therapeutic agent for combating age-related degenerative conditions and preserving cognitive health. Its ability to simultaneously…
This review underscores the profound therapeutic potential of the GHK peptide as a natural, multi-target agent for skin regeneration and anti-aging. Its ability to simultaneously boost collagen, reduce inflammation, a…
This study provides compelling evidence that a natural tripeptide can effectively inhibit amyloid beta (Aβ) aggregation and protect against its neurotoxic effects, both in vitro and in vivo. The multifaceted mechanism…
These findings are highly significant as they demonstrate that GHK-Cu possesses a potent protective effect in LPS-induced acute lung injury by inhibiting excessive inflammatory responses and oxidative stress. This sug…
This research highlights the significant therapeutic potential of GHK-Cu as a novel agent for treating pulmonary fibrosis. Its dual action in combating both oxidative stress and inflammation addresses key pathological…
This study highlights the potential of GHK tripeptides as a therapeutic agent for mitigating environmental toxin-induced cardiotoxicity. The findings suggest GHK's protective mechanism involves its potent antioxidant …
These findings are highly significant as they demonstrate that GHK peptide can effectively combat age-related cognitive decline through a non-invasive delivery method. This suggests GHK peptide represents a promising …
This research highlights GHK's potential as a powerful cytoprotective compound against metal-induced damage, which is a significant contributing factor in neurodegenerative diseases. Its multifaceted ability to preven…
This research provides compelling evidence that GHK-Cu could serve as a novel and effective therapeutic agent for silicosis, a disease with a high incidence and no current specific treatment options. By targeting PRDX…
This research highlights that conjugating GHK-Cu with Hyaluronan creates a powerful new biomaterial with enhanced antioxidant, osteogenic, and angiogenic properties. This synergistic approach offers a promising avenue…
This research highlights the significant potential of GHK-Cu-loaded hydroxyapatite microspheres as a dual-action injectable filler. The sustained release of GHK-Cu combined with the structural support of HA offers a p…
These compelling findings highlight BPC 157's significant therapeutic potential in treating severe gastrointestinal pathologies by promoting healing, reducing inflammation, and combating oxidative stress. Its ability …
This study demonstrates a novel and effective strategy for targeted delivery of therapeutic peptides using engineered probiotics, potentially enhancing their efficacy in treating gut-related inflammatory conditions. T…
This study powerfully demonstrates BPC 157's potent hepatoprotective, anti-inflammatory, and regenerative properties within a severe and clinically relevant model of liver injury. The ability of BPC 157 to significant…
This research highlights BPC 157's significant potential as a protective agent against lidocaine-induced neurotoxicity, a substantial concern in various clinical settings where local anesthetics are used. The findings…
This research highlights the significant gastroprotective potential of BPC 157 against drug-induced injury. The ability of BPC 157 to reduce lesion severity, inflammation, and oxidative stress while promoting healing …
This study provides compelling evidence that BPC 157 possesses significant retinoprotective and neuroprotective properties against ischemia-induced damage. Its ability to preserve both retinal function and structural …
This study provides compelling evidence that BPC 157 offers significant protection against the severe and often fatal consequences of superior mesenteric vein occlusion, a condition with limited effective treatments. …
This study provides compelling evidence that BPC 157 possesses significant therapeutic potential for glaucoma, extending beyond mere intraocular pressure (IOP) reduction to include direct neuroprotection and potent an…
This study provides compelling evidence that BPC 157 effectively protects against severe organ damage and significantly improves recovery following intra-abdominal hypertension and subsequent reperfusion injury. The o…
This comprehensive understanding of BPC 157's interaction with neurotransmitter systems significantly expands its therapeutic scope beyond direct tissue repair, highlighting its potential in complex conditions. The pl…
This research highlights BPC 157's potential as a therapeutic agent for mitigating cardiovascular complications arising from hormonal imbalances or surgical stress, such as those following adrenalectomy. The ability o…
This research underscores BPC 157's potential as a multifaceted cytoprotective agent that could significantly improve outcomes in patients with arrhythmias, especially when combined with conventional antiarrhythmic th…
SS-31 represents a highly promising therapeutic strategy for a wide range of conditions characterized by mitochondrial dysfunction, offering a direct and targeted approach to cellular protection. Its unique ability to…
This study provides compelling evidence that Epitalon can positively influence key biological pathways associated with aging, specifically by enhancing telomerase activity and preserving telomere length. The observed …
This research highlights the significant therapeutic potential of N-Acetylcysteine and especially Elamipretide (SS-31) as interventions for ozone-induced respiratory injury. Given that Elamipretide specifically target…