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Pancragen Peptide: Potential in Metabolic Studies
Studies suggest that the pancreas may be the principal target of Pancragen peptide, a naturally occurring tetrapeptide bioregulator. Data from studies...
Studies suggest that the pancreas may be the principal target of Pancragen peptide, a naturally occurring tetrapeptide bioregulator. Data from studies on Pancragen suggests it may lessen the severity and frequency of metabolic syndrome, regulate melatonin expression, enhance pancreatic endocrine function, and aid blood sugar management. Studies have indicated that it may be potentially impactful in reducing the metabolic consequences of cell aging and diabetes.
Pancragen Peptide: What is it?
As mentioned before, the pancreas is thought to be the principal target of Pancragen, a naturally occurring tetrapeptide bioregulator. Pancragen, distinct from the DNA-based PancraGEN test, has been hypothesized to modulate melatonin expression, aid in blood sugar regulation, enhance pancreatic endocrine function, and lower the prevalence and severity of metabolic syndrome. Diabetes and the metabolic consequences of cell aging are two areas of interest in this study.
Pancragen Peptide and Cell Aging
According to studies conducted on pancreatic cells, Pancragen seems to regulate the proliferation of acinar and islet of Langerhans cells. This is believed to be achieved by promoting the expression of several differentiation factors. The second group produces insulin and glucagon. Restoring enhanced development and differentiation is a hallmark of strong tissues. Enhancing these characteristics, especially in older tissues, may have an anti-aging impact on the cell cycle. Pancragen's potential to alter DNA's epigenetic control to enhance gene expression indicates that it may replicate DNA at a younger stage, restoring its full function.
Pancragen Peptide and Metabolism
Potential impacts on metabolic diseases further ascertain that Pancragen may be a peptide slowing the process of cell aging and death. Studies have indicated that alterations in melatonin release during sleep contribute to metabolic dysregulation in aged organisms. It seems that insulin level fluctuations are the root cause of melatonin deficit. This raises the possibility that insulin function may decline with illness and over time, affecting melatonin production and contributing to other metabolic syndrome symptoms.
Following the previous line of reasoning, it is reasonable to assume that correcting melatonin secretion by presenting Pancragen—which has been hypothesized to help regulate insulin secretion—might alleviate symptoms of metabolic syndrome. Pancragen has been theorized to directly impact melatonin signaling since it may lower glucose levels, insulin plasma concentrations, and the insulin resistance index after presentation.
Melatonin, whether produced internally or externally, is believed to regulate metabolism and block the pathophysiological pathways that lead to metabolic syndrome. It has been suggested that melatonin receptors are located in the pancreas and are responsible for the daily (light-sensitive) regulation of insulin and glucagon signaling. The relationship between melatonin signaling abnormalities and the commencement of metabolic syndrome and type 2 diabetes is the subject of much recent study.
It is reasonable to assume that the pineal gland receives signals from glucagon and insulin, indicating whether to enhance or reduce melatonin secretion via a feedback process if melatonin influences the pancreas. The extra metabolic consequences seen in type 2 diabetes, which are less prevalent in type 1 diabetes, seem to be caused by this feedback loop. Because it has been hypothesized to influence pancreatic insulin secretion regulation, Pancragen might likely alleviate other symptoms of metabolic syndrome.
Pancragen Peptide and Diabetes
Mitigating the effects of diabetes, hyperinsulinemia, and high blood glucose levels is theorized to be the most apparent impact of Pancragen. According to studies conducted on rhesus monkeys, Pancragen seems superior to the commonly used blood sugar-lowering compounds in normalizing insulin and C-peptide levels. This indicates that Pancragen may be acting on a deeper physiological level, getting to the root of the issue and fixing it from the inside out, which may induce high blood sugar.
Pancragen has been speculated to normalize plasma insulin, C-peptide, and glucose levels within 10 days, as suggested by research in aged monkeys. Investigations purport the effect may last, at least partly, for up to three weeks. This further ascertains that Pancragen may help preserve or restore pancreatic function in older research models. Restoring metabolic balance may lessen the severity of conditions ranging from osteoporosis to dementia.
Findings imply that Pancragen might upregulate matrix metalloproteinases MMP2 and MMP9. Additionally, it has been theorized to decrease levels of the pro-apoptotic protein p53 and raise levels of the anti-apoptotic protein MCl1, serotonin, and glycoprotein CD79alpha. There also seems to be an upregulation of the proliferation markers Ki67 and PCNA. Noted by Vasili Ashapkin, co-author of DNA Methylation in Plants with Vladimir Khavinson, these results suggest that Pancragen may stimulate the production of signaling molecules linked to enhanced pancreatic islet cell differentiation and function. A wide functional mechanism, such as direct modification of DNA expression and condensation patterns, is the only way to explain these effects. Put another way; it is quite probable that Pancragen for sale may be modifying the expression of several genes by acting on a really basic level inside the DNA.
References
[i] V. K. Khavinson et al., “Effects of pancragen on the differentiation of pancreatic cells during their ageing,” Bull. Exp. Biol. Med., vol. 154, no. 4, pp. 501–504, Feb. 2013, doi: 10.1007/s10517-013-1987-6
[ii] O. V. Korkushko, V. K. Khavinson, V. B. Shatilo, I. A. Antonyk-Sheglova, and E. V. Bondarenko, “Prospects of using pancragen for correction of metabolic disorders in elderly people,” Bull. Exp. Biol. Med., vol. 151, no. 4, pp. 454–456, Aug. 2011, doi: 10.1007/s10517-011-1354-4.
[iii] S. I. Rapoport, A. I. Molchanov, V. A. Golichenkov, O. V. Burlakova, E. S. Suprunenko, and E. S. Savchenko, “[Metabolic syndrome and melatonin],” Klin. Med. (Mosk.), vol. 91, no. 11, pp. 8–14, 2013.
[iv] E. Peschke, I. Bähr, and E. Mühlbauer, “Melatonin and pancreatic islets: interrelationships between melatonin, insulin and glucagon,” Int. J. Mol. Sci., vol. 14, no. 4, pp. 6981–7015, Mar. 2013, doi: 10.3390/ijms14046981.
[v] N. D. Goncharova, L. G. Ivanova, T. E. Oganyan, A. A. Vengerin, and V. K. Khavinson, “[Correction of impaired glucose tolerance using tetrapeptide (Pancragen) in old female rhesus monkeys],” Adv. Gerontol. Uspekhi Gerontol., vol. 28, no. 3, pp. 579–585, 2015.
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