Pinealon 20mg

▎Pinealon Structure

▎Pinealon Research

What is the research background of Pinealon?

Pinealon originates from the in-depth exploration of the physiological functions of the pineal gland. For a long time, scientists have been highly interested in this mysterious endocrine organ, the pineal gland. Although it is small in size, it plays a crucial role in regulating the body's physiological rhythms and other aspects. Early research found that the pineal gland can secrete various bioactive substances, which inspired researchers' enthusiasm to explore components with special effects from it. With the progress of polypeptide research technology, people have been able to conduct more detailed analyses of substances related to the pineal gland. As a synthetic tripeptide, Pinealon was isolated and identified in this context. The research background also includes concerns about various nervous system diseases, aging-related issues, etc. Scientists expect to find effective means to improve brain function and delay the aging process, and the emergence of Pinealon has brought new hope for solving these problems, thus initiating research on it.

What is the mechanism of action of Pinealon?

Inhibiting the accumulation of reactive oxygen species

Pinealon shows a dose-dependent limitation of the accumulation process of reactive oxygen species (ROS) in cerebellar granule cells, neutrophils, and pheochromocytoma (PC12) cells induced by receptor-dependent or independent oxidative stress stimuli (Khavinson V, 2011). This indicates that it plays an important role in anti-oxidation and can reduce the damage to cells caused by oxidative stress. By inhibiting the accumulation of ROS, Pinealon helps maintain the normal physiological functions of cells and reduces the harm of oxidative damage to cells.

Reducing necrotic cell death

 Pinealon can reduce necrotic cell death measured by the propidium iodide assay^[1]. This means that Pinealon can protect cells from the threat of death and maintain cell viability. Its specific mechanism of action may involve the regulation of the cell death signaling pathway to prevent cells from entering the necrosis program.

Activating ERK 1/2 and regulating the cell cycle

The protective effect of Pinealon is accompanied by the activation of ERK 1/2 and a delayed time course of cell cycle changes^[1]. ERK 1/2 is an important intracellular signal transduction molecule, and its activation can promote cell proliferation, differentiation, and survival. The activation of ERK 1/2 by Pinealon may be one of the important ways for it to exert its cell protective effect. In addition, Pinealon can also regulate the cell cycle, which may help cells repair themselves and maintain normal growth and development when under stress.

Possible interaction with the cell genome

Since the limitation of ROS accumulation and cell death is saturated at lower concentrations, while the regulation of the cell cycle continues at higher concentrations of Pinealon, it can be concluded that in addition to its known antioxidant activity, Pinealon can also directly interact with the cell genome ^[1]. This interaction with the cell genome may involve the regulation of gene expression, thereby affecting the physiological functions and metabolic processes of cells.

What are the applications of Pinealon?

1. Improving memory

Memory is one of the important functions of the brain, and Pinealon may play a positive role in the formation and consolidation of memory. It may improve memory function through mechanisms such as regulating the balance of neurotransmitters, promoting nerve regeneration, and enhancing synaptic plasticity.

Pinealon can promote the growth and repair of nerve cells, and this effect may be achieved through multiple mechanisms. The growth and repair of nerve cells are crucial for maintaining the normal functions of the brain. On the one hand, it may stimulate the proliferation and differentiation of neural stem cells, thereby increasing the generation of new nerve cells^[2]. Neural stem cells have the ability to self-renew and differentiate into various types of nerve cells, and their proliferation and differentiation can replenish damaged or aged nerve cells and improve the structure and function of the brain. On the other hand, Pinealon may promote the growth and repair of nerve cells by regulating the expression of neurotrophic factors. Neurotrophic factors are a class of proteins that play an important role in the survival, growth, and differentiation of nerve cells. They can promote axonal growth, synapse formation, and neuron survival of nerve cells ^[3].

In addition, Pinealon's improvement of blood circulation in the brain also helps to enhance cognitive ability. Good blood circulation can provide the brain with sufficient oxygen and nutrients and maintain the normal metabolism and functions of nerve cells. It may improve blood circulation in the brain by dilating cerebral blood vessels and increasing cerebral blood flow. For symptoms such as Alzheimer's disease and memory loss, the effect of Pinealon may lie in its ability to improve the neurobiological functions of the brain and slow down the process of neurodegeneration. Neurodegenerative diseases such as Alzheimer's disease are usually accompanied by pathological changes such as nerve cell death, synaptic loss, and neuroinflammation. Pinealon may relieve these symptoms through mechanisms such as promoting the growth and repair of nerve cells and regulating neuroinflammation^[4].

2. Extreme psychological and emotional factors

Extreme psychological and emotional factors such as long-term stress, anxiety, and depression may cause damage to the nervous system, leading to problems such as cognitive dysfunction. Pinealon may improve the impact of extreme psychological and emotional factors on the nervous system through mechanisms such as regulating the balance of neurotransmitters, reducing the inflammatory response, and promoting nerve regeneration^[5]. Some studies have shown that Pinealon can improve emotional problems such as anxiety and depression and enhance the mental health level of patients.

3. Regulating sleep

Pinealon can regulate the human body's biological clock and promote the secretion of sleep hormones, which is of great significance for improving sleep quality and relieving insomnia symptoms.

Sleep hormones mainly refer to melatonin, which is a hormone secreted by the pineal gland and plays a key role in regulating the sleep-wake cycle. Pinealon may promote the secretion of melatonin by regulating the function of the pineal gland^[6]. The pineal gland is an endocrine organ located in the brain. It is very sensitive to the light-dark cycle. It will secrete melatonin in a dark environment to promote sleep, while it will inhibit the secretion of melatonin in a light environment to promote wakefulness.

In addition, the sleep-regulating effect of Pinealon may also be related to its other regulatory effects on the nervous system. For example, it may regulate the neurotransmitter system in the brain, such as serotonin and dopamine, which also play important roles in sleep regulation^[7]. Serotonin is a neurotransmitter closely related to physiological functions such as emotion, sleep, and appetite. It can promote sleep and relieve emotional problems such as anxiety and depression. Dopamine is a neurotransmitter closely related to physiological functions such as reward, motivation, and attention. It can regulate the depth and quality of sleep.

4. Enhancing immunity

Pinealon can stimulate the activity of immune system cells and improve the body's immune function. The immune system is the body's defense system, which is composed of various cells and molecules, including white blood cells, antibodies, cytokines, etc. These cells and molecules work together to recognize and eliminate pathogens invading the body and protect the body from infections and diseases.

Pinealon may stimulate the activity of immune system cells through multiple mechanisms. It can directly act on immune cells, such as lymphocytes and macrophages, and promote their proliferation, differentiation, and activity^[8]. Lymphocytes are important cells in the immune system and can be divided into different types such as T cells, B cells, and natural killer cells, which are respectively involved in cellular immunity and humoral immunity. Macrophages are a type of phagocyte that can phagocytose and digest pathogens invading the body and also secrete cytokines to regulate the functions of the immune system.

In conclusion, Pinealon has a remarkable effect on improving brain cognitive function. It can effectively enhance memory and attention, enabling people to perform better in study and work, especially being of great significance to the elderly population and patients with brain diseases. In terms of sleep regulation, it can make the biological clock function normally, relieve insomnia problems, and improve sleep quality, providing a guarantee for the body's recovery and function maintenance. Its characteristic of enhancing immunity helps the human body resist the invasion of various diseases and reduces the risk of illness.

About The Author

The above-mentioned materials are all researched, edited and compiled by Cocer Peptides.

Scientific Journal Author

Altschule M was a prominent internist and clinical researcher. He received his medical degree from Harvard Medical School in 1932. Altschule served as Clinical Professor of Medicine at Harvard Medical School and was the Director of Internal Medicine and Research in Clinical Psychology at McLean Hospital in Belmont, Massachusetts, from 1947 to 1968. His research interests spanned a wide range of topics, including the cardiovascular system, cardiorespiratory physiology, and the endocrine system.

Altschule authored numerous publications and books. One of his notable works is "The Pineal," published in 1969 in JAMA. This article, co-authored with Julian I. Kitay, provides an in-depth review of the pineal gland's physiology and its potential effects on various physiological processes. Altschule's contributions to medical research and education have left a lasting impact on the fields of internal medicine and endocrinology.

Altschule M is listed in the reference of citation [2].

▎Relevant Citations

[1]    Khavinson V, Ribakova Y, Kulebiakin K, et al. Pinealon Increases Cell Viability by Suppression of Free Radical Levels and Activating Proliferative Processes[J]. Rejuvenation Research, 2011,14(5):535-541.DOI:10.1089/rej.2011.1172.

[2]    Altschule M. The Pineal[J]. Jama-Journal of the American Medical Association, 1969,208:1193.DOI:10.1001/jama.1969.03160070071030.

[3]    Chlubek D, Sikora M. Fluoride and Pineal Gland[J]. Applied Sciences, 2020,10:2885. https://api.semanticscholar.org/CorpusID:219100653.

[4]    Arutjunyan A, Kozina L, Stvolinskiy S, et al. Pinealon protects the rat offspring from prenatal hyperhomocysteinemia[J]. International Journal of Clinical and Experimental Medicine, 2012,5(2):179-185.

[5]    Rao Y, Medini E, Haselow R E, et al. Pineal and ectopic pineal tumors - the role of radiation-therapy[J]. Cancer, 1981,48(3):708-713.DOI:10.1002/1097-0142(19810801)48:3<708::AID-CNCR2820480308>3.0.CO;2-S.

[6]    Huang P, Wu Z. Potential Protective Effects of Melatonin on Alzheimer’s Disease Through Regulating Sleep and Circadian Rhythms[J]. 2022 International Conference On Biotechnology, Life Science and Medical Engineering (Blsme 2022), 2022. https://api.semanticscholar.org/CorpusID:248936297.

[7]    de Souza C A P, Nishino F A, Do Amaral F G, et al. Pineal Microdialysis[J]. Methods Mol Biol, 2022,2550:63-74.DOI:10.1007/978-1-0716-2593-4_9.

[8]    Bharti V K, Pandi-Perumal S R, Subramanian P. Pineal Gland Physiology and Aging-Related Alterations in the Circadian Timing System[M]//Jagota A. Sleep and Clocks in Aging and Longevity. Cham: Springer International Publishing, 2023:223-235. https://doi.org/10.1007/978-3-031-22468-3_11

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