194 studies on Oxidative stress mechanism curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
Liraglutide significantly upregulated GLP1R expression and activated cAMP/PKA signaling, inducing apoptosis and cell cycle arrest in MCF7 breast and PC-3 prostate cancer cells.
This research significantly expands the potential therapeutic scope of Tirzepatide beyond its established roles in type 2 diabetes and obesity, suggesting a novel application in neurodegenerative diseases like Alzheim…
This research provides compelling evidence for a novel mechanism by which Tirzepatide protects against cisplatin-induced AKI, specifically through its ability to restore NAD+ levels and enhance mitochondrial quality c…
This research highlights GHK-Cu as a promising compound with significant anti-aging potential, acting through fundamental cellular mechanisms. The findings suggest that targeting mitochondrial health and activating co…
This study highlights the neuroprotective and regenerative potential of Elamipretide (SS-31) in the context of spinal cord injury. By directly targeting mitochondrial dysfunction and promoting neural remodeling, Elami…
This study is significant because it could elucidate the precise role of IGF-1 in the pathogenesis of vitiligo, specifically its interaction with oxidative stress. Understanding this mechanism could open new avenues f…
This research provides compelling evidence that combining Liraglutide with Atorvastatin offers a synergistic therapeutic strategy for managing metabolic dysfunction, inflammation, and oxidative stress. The identificat…
If the study's findings demonstrate positive effects on cardio-metabolic risk markers, it would reinforce Liraglutide's role as a multi-faceted treatment, offering significant cardiovascular benefits beyond glucose co…
This research significantly advances our understanding of Humanin's neuroprotective capabilities and its potential as a therapeutic agent for neurodegenerative conditions characterized by oxidative stress, such as Par…
This study provides compelling preclinical evidence that semaglutide, a widely used GLP-1 receptor agonist for type 2 diabetes and obesity, possesses significant neuroprotective properties against chemotherapy-induced…
While this specific trial did not yield results, the underlying research questions remain highly relevant for Type 1 Diabetes management. Effectively addressing hypoglycemia-induced oxidative stress, inflammation, and…
This research highlights HNF14 as a novel and promising therapeutic strategy for Age-related Macular Degeneration, particularly for the atrophic forms where current treatment options are severely limited. Its ability …
This mechanistic understanding is crucial because it identifies mitochondrial dysfunction as a central, actionable target for preventing β-cell loss in T2DM. By elucidating the precise links between mitochondrial heal…
This research highlights NDP-MSH as a promising therapeutic candidate for treating intracerebral hemorrhage by targeting multiple pathways involved in secondary brain injury. By activating the Melanocortin-1 Receptor …
The study demonstrated that Humanin treatment significantly improved crucial semen quality parameters. Sperm motility, viability, and membrane integrity were all markedly enhanced compared to untreated controls.
This study provides compelling evidence that HNF14, a humanin fragment peptide, holds significant therapeutic potential for Age-related Macular Degeneration. Its ability to simultaneously reduce abnormal blood vessel …
This research highlights Humanin's conserved yet evolutionarily tuned role in protecting against mitochondrial dysfunction and oxidative stress across mammals. The observed species-specific differences provide critica…
The review consistently highlighted that Humanin demonstrated potent and broad-spectrum anti-inflammatory and cytoprotective effects across diverse experimental models. In several mouse models of acute inflammation, H…
This research provides a novel molecular mechanism explaining how the Mediterranean diet may exert its cardioprotective effects, specifically through its influence on mitochondrial microproteins like Humanin and SHMOO…
The study yielded compelling results, demonstrating that AAH exhibited significantly lower toxicity in HaCaT cells compared to the positive control, matrixyl, with cell viability remaining robust at 81.52% for AAH-tre…
The discovery of Plumbagin as a potent GGCT inhibitor opens new avenues for developing targeted cancer therapies. By inhibiting GGCT, Plumbagin could disrupt glutathione metabolism in cancer cells, making them more su…
These findings are significant as they highlight the potential of peptide preparations like Cortexin and Pinealon as geroprotective agents, capable of enhancing brain resilience against age-related stressors. By modul…
Pinealon's dual action of reducing oxidative stress and modulating cell proliferation highlights its potential as a therapeutic agent for conditions involving cellular damage and impaired regeneration. The finding tha…
This research confirms the neuroprotective properties of Pinealon, extending previous in vitro findings to an in vivo model of prenatal stress. The ability of Pinealon to protect against cognitive impairment and oxida…
This research suggests a novel strategy for maintaining the professional reliability and long-term health of individuals exposed to demanding work environments. The positive impact of Pinealon on biological age and ad…
This study provides compelling evidence that pHBSP can effectively reverse key pathological features of preeclampsia, particularly endothelial dysfunction and hypertension, in an animal model. The ability of pHBSP to …
This study provides compelling evidence that Longevity-Max, a specific CHM blend, can modulate fundamental molecular pathways associated with aging, including telomere maintenance, sirtuin activation, and inflammation…
This research provides compelling evidence for ARA290's potential as a powerful cytoprotective agent, specifically in safeguarding healthy cells from the severe genotoxicity and oxidative stress induced by doxorubicin…
This study provides compelling mechanistic evidence that ARA290 can effectively protect against cisplatin-induced nephrotoxicity by simultaneously suppressing apoptosis and inflammation. The ability of ARA290 to targe…
These findings are significant as they highlight delta sleep-inducing peptide (DSIP) as a potential therapeutic agent for mitigating stress-induced liver damage and dysfunction. The observed normalization of oxidative…
This research highlights the hepatoprotective potential of Delta Sleep-Inducing Peptide (DSIP), particularly in mitigating liver damage caused by chronic psychological stress. The findings suggest that DSIP could be a…
The study found that p-DSIP treatment significantly improved sleep architecture in high-altitude exposed rats, leading to a marked increase in non-rapid eye movement (NREM) sleep duration and a significant reduction i…
This research highlights Hexarelin's significant neuroprotective potential against oxidative stress, a fundamental process implicated in numerous neurodegenerative conditions. By elucidating its mechanism through the …
This research highlights the significant neuroprotective potential of ghrelin receptor agonists, such as Hexarelin and JMV2894, in mitigating the cellular damage associated with the SOD1-G93A mutation, a key driver of…
This research highlights Humanin's significant potential as a novel therapeutic agent for neurodegenerative diseases like Alzheimer's and Parkinson's, as well as other conditions involving mitochondrial dysfunction an…
This research unveils a highly innovative peptide-based platform that not only possesses intrinsic antioxidant properties but also incorporates a sophisticated, ROS-responsive mechanism. The remarkable ability of the …
This comprehensive review underscores the significant potential of GLP-1 receptor agonists as a novel therapeutic strategy for stroke prevention, particularly in patients with type 2 diabetes and obesity. Their abilit…
This research significantly expands our understanding of GHK-Cu's therapeutic potential beyond its well-established roles in wound healing and anti-aging. By demonstrating its ability to robustly attenuate inflammatio…
This study provides compelling preclinical evidence that Semaglutide, a widely used GLP-1 receptor agonist, possesses significant neuroprotective properties against ischemic brain injury by targeting ferroptosis. The …
This study provides compelling evidence that PPARγ and GLP1 receptor agonists can directly improve brain metabolism and neuronal mitochondrial function, offering a novel therapeutic avenue for cognitive health. The us…
Optimizing early T2DM management is crucial for preventing long-term complications and improving patient quality of life. This trial could provide critical evidence for the benefits of aggressive, early combination th…
This research highlights TSPAN9 as a novel and potent regulator of chondrocyte health, offering a promising therapeutic avenue for osteoarthritis. By promoting mitocytosis, TSPAN9 effectively clears damaged mitochondr…
This research underscores the substantial potential of taurine as an effective dietary supplement to improve the welfare, health, and survival rates of fish during highly stressful events like transportation. By effec…
This review significantly advances our understanding of Diabetic Kidney Disease (DKD) by firmly establishing mitochondrial dynamics as a crucial pathogenic mechanism. Identifying specific pathways within mitochondrial…
This review significantly advances our understanding of GLP-1's extensive therapeutic potential, moving beyond its established role in metabolic health. The detailed exploration of its neuroprotective mechanisms sugge…
This study demonstrates that Salusin-α holds significant promise as a therapeutic agent for pulmonary hypertension, effectively targeting both vascular relaxation and remodeling. The peptide's ability to restore endot…