What is GHRP-2?
The hexipeptide GHRP-2, also occasionally known as KP-102 or GHRP-2, is a secretogogue with a molecular formula is C45H55N9O6 and a molecular mass of 817.9. It can occasionally be referred to by different names, such as GHRP or KP-102. It is considered to be non-glycosylated in nature.
GHRP-2 and the Body
According to scientific study that has been conducted on animal test subjects, it has been determined that GHRP-2’s primary function is to increase protein synthesis.
One of the key ways that it can achieve this functionality is due to its relationship with the pituitary gland. This is the pea-sized gland found at the bottom of the hypothalamus at the base of the brain that is charged with the regulation control of a host of endocrine system-related properties, from growth and metabolism to pain relief and temperature regulation. GHRP-2’s functionality is to boost the functionality of the pituitary gland, which in turn plays a vital role in the increase of protein synthesis. It achieves this as part of a twofold process:
- The stimulation of the release of secretions from somatropic cells within the pituitary gland
- The blockage of somatostatin; a peptide secretion whose expression regulates the endocrine system and the processes that it governs
Additionally, scientific study based on animal test subjects has shown that it can boost the levels of calcium ion influx, which can in turn stimulate the production of more growth hormones.
Further scientific study based on animal test subjects has shown that GHRP-2 has the capacity to stimulate the production of ghrelin; a self-regulating 28 amino acid enzyme that is primarily produced in the stomach. In essence, the secretion of ghrelin serves to stimulate hunger for an animal test subject, which naturally causes a desire to consume food. Studies have indicated that GHRP-2 serves to boost the secretion levels of ghrelin, thus causing the animal test subject to experience the sensation of hunger for a longer, more sustained period of time. In turn, this grants the test subject a desire to consume a greater amount of food. This uptick of food consumption can then provide the fuel that is needed for the elevated protein synthesis that is caused by GHRP-2’s other functions in conjunction with the pituitary gland.
Also, scientific study based on animal test subjects has shown that GHRP-2 can increase the production of the liver-secreted protein IGF-1. Also known as Insulin-like Growth Factor-1, this particular protein has been shown to exhibit strong anabolic properties, meaning that it can play a vital role in the growth and repair of muscles and tissues.
GHRP-2 Hypothetical Benefits
Because GHRP-2 has been shown to boost protein synthesis through its association with the pituitary gland, ghrelin, and IGF-1, scientific study that has been conducted on animal test subjects has determined that the its presence could hypothetically play a key role in the elevation of several elevated processes.
The chief elevated process that has been associated with GHRP-2 relates to the proliferation of muscle growth. Because it has been shown to boost the functionality of the pituitary gland and elevate the production level of IGF-1, it is thought that its presence can induce a faster rate in which muscle mass can be developed and grown within an animal test subject. These process metrics have also led to the notion that its presence could lead to a more efficient means of injury recovery due to its ability to boost instances of muscle repair.
Another elevated process that has been linked to its functionality is that of the burning of adipose tissue, also known as body fat. Scientific study that has been based on animal test subjects has determined that its ability to invoke a more efficient means of protein synthesis can cause body fat to be broken down quicker, despite the fact that an animal test subject may consume a greater amount of food due to body fat.
A third elevated process relates to its ability to possibly enhance a body’s anit-inflammatory action in animal test subjects. Because of its capacity to increase the functionality of the pituitary gland, it is thought that it can cut down the instances of negative reaction that a body may have to various irritants, damaged cells, or other various pathogens.
Nowhere But a Restricted Environment
While plenty of research and study has been conducted regarding the overall functionality and mechanics of GHRP-2, the peptide is still solely intended for the use of scientific study at this point in time. Specifically, any research and the subsequent results of such research have solely been built on scientific study that has been based on animal test subjects. Because of this, it needs to be emphasized that any observations in relation to GHRP-2’s overall functionality or mechanics should be contained to a controlled environment like a medical research facility or a laboratory only.