116 studies on TNF-α mechanism curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
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 study provides compelling evidence that endogenous FGF21 plays a critical protective role against retinal inflammation and damage. The findings suggest that maintaining adequate FGF21 levels could be a viable the…
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 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 identifies p21+TREM2+ senescent macrophages as a critical and previously unrecognized driver of MASLD and associated inflammaging. The findings provide a novel understanding of how cellular senescence co…
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 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 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…
This research highlights ARA290 as a promising neuroprotective agent that directly safeguards brain tissue from the devastating effects of ischemic stroke. By targeting the β-common receptor, ARA290 offers a novel mec…
This research highlights Hexarelin's potential as a novel therapeutic agent for mitigating the severe damage caused by myocardial ischemia-reperfusion injury. By simultaneously preserving cardiac function and dampenin…
This study highlights Mazdutide's multifaceted therapeutic potential for MASLD, demonstrating its ability to simultaneously improve lipid metabolism, reduce inflammation, and alleviate cellular stress. The significant…
This research introduces a sustainable and highly efficient method for extracting honeybee venom proteins, potentially unlocking their full therapeutic potential by ensuring higher yields and better preservation of bi…
This research highlights IL-3/CD123 signaling as a novel and potent regulator of microglial function, offering a promising therapeutic target for neuroinflammatory diseases and cognitive disorders. By modulating this …
This research highlights scyreprocin's significant potential as a new therapeutic agent against challenging MDR bacterial infections, offering a much-needed alternative to failing conventional antibiotics. Its low pro…
This research presents a highly promising non-invasive oral strategy for managing sepsis, leveraging a dual-agent approach to target both inflammation and potential microbial components. The use of pH-responsive micro…
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 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…
This study highlights Costus speciosus as a promising natural compound with multi-target therapeutic potential for Polycystic Ovary Syndrome, addressing both hormonal and metabolic dysfunctions. The significant improv…
This study highlights human ghrelin as a promising therapeutic agent for mitigating radiation-induced injury, particularly by protecting the delicate vascular system. The significant improvement in survival rates and …
This study highlights the potential of Cucurbita pepo extract as a natural, sustainable alternative to antibiotics in aquaculture. By enhancing the innate immune response and disease resistance, it could significantly…
This research provides crucial insights into the pleiotropic effects of Retatrutide, extending its known benefits beyond weight loss and glycemic control to direct adipose tissue repair. The ability of Retatrutide to …
This research highlights SOCS1-based peptides as a promising new class of therapeutics for complex metabolic and liver diseases. The ability of SOCS1-TP1 to simultaneously ameliorate obesity, insulin resistance, and s…
This comprehensive synthesis underscores the critical role of inflammation as a shared, actionable therapeutic target for both cardiovascular disease and diabetes mellitus, moving beyond traditional single-disease app…
This research highlights a novel therapeutic potential for Semaglutide beyond its established roles in diabetes and obesity, suggesting it could directly address cardiovascular complications associated with sarcopenia…
This study provides crucial evidence that early intervention with tirzepatide and semaglutide can significantly mitigate the progression of atherosclerosis, a leading cause of morbidity and mortality worldwide. The ob…
This study provides compelling evidence that Semaglutide offers significant renoprotective benefits in a non-diabetic model of kidney injury, extending its potential therapeutic utility beyond metabolic diseases. The …
This innovative hydrogel represents a significant step towards more effective management of diabetic wounds, offering a smart, on-demand drug delivery system that adapts to the wound's microenvironment. The ability to…
This comprehensive review solidifies the understanding of GLP-1 RAs as promising therapeutic agents for liver diseases, extending their utility beyond metabolic control. By detailing their impact on both metabolic and…
This study provides compelling evidence that Thymosin α1 can significantly improve survival rates and restore critical immune balance in patients suffering from HBV-ACLF, a condition with an alarmingly high mortality …
This research highlights AD-IR10 as a promising novel therapeutic agent for accelerating diabetic wound healing. Its unique mechanism of action, involving the reprogramming of macrophage metabolism via the Keap1/Nrf2/…
If the findings from this clinical trial prove positive, this research could establish LL-37 cream as a novel and highly effective topical treatment option for the management of challenging diabetic foot ulcers. Given…
This study provides compelling evidence that HepatoGuard-1 has significant preventive effects against high-fat diet-induced NAFLD and associated metabolic dysfunction. The findings suggest that this novel food-derived…
Peptide Angio-3 represents a novel and highly promising therapeutic strategy for pulmonary fibrosis, offering a unique mechanism of action by targeting the coagulation Factor Xa-PAR-1 signaling axis. This study provid…
The study demonstrated that the small peptides effectively inhibited PLC-β enzyme activity in vitro in a dose-dependent manner. XY-peptide-1 showed potent inhibition against PLC-β1 with an IC50 of 95 nM, while XY-pept…
This review highlights the critical role of mitochondrial health in NAFLD pathogenesis and underscores the immense potential of mitochondrial-targeted therapies. By summarizing the efficacy of various compounds and me…
This extensive review highlights the critical and multifaceted role of mitochondrial dysfunction in driving the aging process and underscores the significant therapeutic potential of targeting these organelles. The co…
This study's findings are highly significant as they demonstrate a novel and effective therapeutic strategy that simultaneously targets multiple critical pathological mechanisms of Alzheimer's disease: mitochondrial d…
This research highlights the therapeutic potential of SS-31 as a novel treatment strategy for pulmonary fibrosis by targeting mitochondrial dysfunction and oxidative stress, key drivers of the disease. Given the curre…
This research highlights the critical role of endothelial glycocalyx integrity in maintaining cognitive function during aging and suggests that SS-31 could be a promising therapeutic agent. By protecting the glycocaly…
This study highlights the significant metabolic benefits of a linear fragment of unacylated ghrelin (UAG-LF), particularly its ability to improve insulin sensitivity and reduce hepatic steatosis in an obese model. The…
This research highlights acylated ghrelin's potential as a potent renoprotective agent against chemotherapy-induced kidney damage. By activating SIRT1, a protein involved in cellular health and longevity, ghrelin appe…
This study provides compelling evidence that Ghrelin can protect intestinal epithelial cells from apoptosis in Ulcerative Colitis by activating the Unfolded Protein Response (UPR) pathway. This identifies a novel ther…
This research highlights acylated ghrelin's significant potential as a therapeutic agent for mitigating cardiac damage caused by excessive thyroid hormones. Its ability to simultaneously combat oxidative stress, reduc…
This study provides compelling evidence that targeting ghrelin receptors in the brain offers a novel therapeutic strategy for NAFLD and associated metabolic dysfunctions. By improving hypothalamic insulin resistance, …
This research highlights the critical importance of ghrelin balance for successful embryo implantation and pregnancy outcomes, extending its known roles beyond metabolism. Understanding how ghrelin misbalance disrupts…
This study highlights Ghrelin's significant potential as a therapeutic agent for preventing or treating intestinal ischemia-reperfusion injury. By modulating the GHSR-1α/Sirt1/FOXO1 pathway, Ghrelin offers a novel and…
This research highlights Danshen-Chuanxiong-Honghua (DCH) as a promising multi-target therapeutic agent for traumatic brain injury, offering both anti-inflammatory and neuroprotective benefits. The specific identifica…
This research highlights the significant potential of GHRP-6 as a functional feed additive in aquaculture, offering a novel strategy to enhance both growth performance and disease resistance in farmed fish. The abilit…