In human clinical studies, Epitalon significantly increased telomere lengths in the blood cells of patients. Epitalon appear to restore melatonin secretion by the pineal gland in both aged monkeys and humans.
Peptide bioregulators, like Epitalon Cortex Peptide Extract or Thymus Extract work via pleiotropic mechanisms, providing support to diverse areas of day-to-day cellular and tissue-related functions. The culmination of these small supportive mechanisms is believed to produce the purported anti-ageing effect of peptide bioregulators and, in particular, Epitalon. In this article, a few central mechanisms contributing to this preserving effect will be highlighted.
To begin, peptides are small chains of amino acids (the basic units of organic matter) linked by amide bonds, & can be thought of as «small proteins». Proteins are larger macro molecules comprised of many more amino acids linked together. Despite their size, however, peptides play many important roles in the normal functioning of the human body. Some examples include insulin, which is responsible for controlling levels of glucose within the blood, and substance P, a peptide playing a major role in the perception of pain.
Epitalon is a synthetic peptide which were originally developed based upon the action of epithalamin, a hormone produced by the pineal gland. This hormone was found to stimulate the production of telomerase, an enzyme which plays a role in maintaining telomere length. Telomeres are non-coding terminal regions of DNA strands which preserve the integrity of the strand. With each revision, telomeres are shortened until the DNA strand cannot be further replicated. This process is highly implicated in the ageing process. Elongating telomeres theoretically extend the lifespan of a copy of DNA and allows it to replicate more times than usual. This was the theory behind the development of Epitalon, a synthetic version of epithalamin which also stimulates the production of telomerase. Indeed, this theory has been confirmed in vitro in human cell cultures.
Neutralisation of Harmful Free Radicals
The role of antioxidants in mitigating damage from free radicals.
Cytotoxicity secondary to free radical damage has been implicated in the ageing process. Administration of epitalon has also been shown to exert an antioxidant effect
The presence of toxic compounds within the body can lead to the formation of reactive oxygen species (ROS) which can damage DNA, leading to cellular death &/or mutations leading to the formation of cancerous cells.
Inhibition of Cancer Formation & Growth
The anti-carcinogenic effect of Epitalon has also been explored in several animal studies. Epitalon has shown beneficial effects in animal models of breast & colorectal cancer without significant rates of adverse effects. Purported mechanisms include inhibition of carcinogenic receptor expression (Human Epithelial growth factor Receptor 2, also known as HER2, which is over-expressed in breast cancer) & retardation of metastasis,.
Attenuation of Inflammation
Inflammation is a normal immune response that can become dysregulated and potentiated in a broad spectrum of disorders from rheumatoid arthritis to ulzerative colitis and even has been implicated in psychiatric disorders. The inflammatory process is dependent upon inter cellular communication mediated by bio molecules such as cytokines, C-reactive protein, and other acute phase reactants. Epithalamin has been observed to play a role in the regulation of these molecules & thus attenuate the inflammatory response.
Epitalon has been shown to help regulate endocrine activity in the body. Hormones are responsible for many key signalling circuits between cells which on a larger scale comprise the functions of large organs. For example, melatonin is a hormone which regulates the circadian rhythm, an internal biological clock. Endogenous melatonin production has been observed to decrease with ageing. A 2007 study of Epitalon administration in elderly patients found that the compound helped to restore pineal gland function & increased release of melatonin, which is purported to be the mechanism behind the restoration of sleep. Other studies have found that Epitalon exerts regulatory effects on gonadotropic hormones (FSG, LG, prolactin), which are involved in sexual & reproductive functions.
These are but a few of the many mechanisms by which Epitalon support normal functioning of the human body, and ultimately produce their anti-ageing effect. Telomerase activation, neutralisation of free radicals, oncostasis, modulation of inflammatory mediators, and endocrine regulation are all ways in which peptide bioregulators can help to ultimately prolong life. Peptide bioregulators as a class are still relatively uncharacteristic, and most of the available clinical data are from Russian studies. As interest in this class of drugs grows, more mechanisms of action may be discovered, and the true treatment effects of Epitalon and peptide bioregulators may begin to be better understood.
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