81 studies on Pineal peptide class curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
This study highlights Epithalon's potential as a geroprotective agent that can mitigate the negative impacts of environmental stressors on aging and cancer development. Despite not extending mean lifespan, its ability…
These findings suggest that melatonin and epitalon could be powerful tools for combating age-related decline in thyroid function, particularly when influenced by environmental light conditions. The observed synergisti…
This review highlights the critical role of pineal gland peptides in potentially combating age-related immune decline by preserving thymus function. The finding that epithalamin and epitalon are particularly effective…
This review significantly advances our understanding of the neuroimmunomodulatory axis and its role in aging, particularly highlighting the potent geroprotective potential of pineal peptides. The finding that pineal p…
This research highlights the potential of specific tetrapeptides like Lys-Glu-Asp-Gly and Ala-Glu-Asp-Gly to mitigate severe hypothyrosis and thyroid atrophy induced by pituitary dysfunction. The findings suggest a no…
This research demonstrates the potential of specific synthetic peptides to mitigate endocrine imbalances and structural damage caused by pituitary gland removal. The findings suggest these peptides could act as pituit…
The findings underscore the critical role of the pineal gland in healthy aging and highlight that its functional decline, rather than structural atrophy, is a key factor in age-related changes. The demonstrated abilit…
This study highlights that peptides can specifically modulate the differentiation and proliferation of immune cells within the pineal gland, an often-overlooked immune organ. The ability of Vilon to induce broad immun…
These findings are significant as they identify specific short peptides, particularly Ala-Glu-Asp-Gly, that can tissue-specifically stimulate both the growth and secretory functions of pinealocytes. This suggests a pr…
This research highlights the significant therapeutic potential of Melatonin and pineal gland peptides as novel interventions for reproductive disorders. The ability of these naturally occurring substances to restore n…
This research highlights the therapeutic potential of melatonin and epithalon as interventions against age-related reproductive decline. The ability of these compounds to preserve or restore hypothalamic regulation of…
This research is crucial as it proposes a potential molecular mechanism for the previously observed geroprotective effects of vilon and epitalon, directly linking them to the regulation of established biomarkers of ag…
This research highlights the potential of peptide bioregulators, particularly Epithalon, to modulate genomic stability in individuals predisposed to Hypertrophic Cardiomyopathy. The identified protective action of Epi…
This research highlights the potential of organospecific peptides like T-31, T-35, and epitalon as promising therapeutic agents for rhabdomyolysis-induced acute kidney injury. By simultaneously targeting multiple unde…
This research underscores the critical importance of environmental lighting conditions and the integrity of circadian rhythms in maintaining healthy digestive function throughout the aging process. The finding that me…
These results are highly significant as they suggest that these specific peptides could serve as novel therapeutic agents for combating skin aging and potentially other age-related conditions. Their ability to modulat…
This research highlights the critical role of genomic instability and epigenetic variations in the pathology of ductal breast cancer. The discovery that the peptide bioregulator (Ala-Glu-Asp-Gly) and nickel ions can e…
This research provides groundbreaking fundamental insights into how specific short exogenous peptides can precisely modulate crucial plant developmental pathways at the genetic level. Understanding these intricate mec…
This discovery holds significant implications for understanding the molecular basis of longevity and aging, potentially identifying novel targets for anti-aging interventions. The identification of these unique epigen…
This research provides a fundamental understanding of the pineal gland's biological activity, pinpointing AEDG as a key endogenous regulator. By confirming AEDG as the active component, this study paves the way for mo…
This research highlights Epitalon's potential as a neuroprotective and neuroregenerative agent by directly stimulating the fundamental processes of neurogenesis. By enhancing gene expression and protein synthesis, Epi…
This research highlights the therapeutic potential of novel peptides in modulating immune cell function, offering a promising avenue for treating conditions characterized by excessive inflammation and cell proliferati…
This research provides compelling evidence that Epitalon can effectively delay the aging process of oocytes in vitro by modulating crucial cellular pathways, specifically by reducing ROS levels and enhancing mitochond…
This study provides compelling evidence that Epitalon can significantly enhance the quality and developmental potential of bovine oocytes and embryos, particularly after the stressful process of cryopreservation. The …
Epitalon's ability to modulate key aging pathways, including telomerase activation and antioxidant defense, positions it as a highly promising geroprotective agent. Its pleiotropic effects suggest potential applicatio…
This research provides compelling evidence for Epitalon's therapeutic potential in combating the cellular damage and impaired healing associated with diabetic retinopathy. By demonstrating its ability to enhance wound…
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 is highly significant as it identifies Epitalon as a potent agent capable of increasing telomere length in human cells, a fundamental process linked to cellular aging and disease. The discovery that Epit…