What are Peptide Bioregulators ?

The Essential Function of Proteins in the Body

Proteins, often referred to as the building blocks of life, play an indispensable role in various biological processes within the body. Each protein is unique, possessing a specific structure that allows it to carry out a precisely defined function.

Hormonal Influence and Life Processes

Protein-based hormones are key to vital life processes including growth, reproduction, and many others. They guide and regulate numerous physiological activities.

Movement and Muscle Function

The ability to move is enabled by contractile proteins such as actin and myosin. These proteins are found within muscles and are responsible for contraction and relaxation, facilitating movement.

Enzymes and Chemical Processes

Proteins also function as enzymes, orchestrating essential chemical reactions. This includes respiration, digestion, metabolism, and more. For instance, pepsin, a protein found in gastric juice, aids in food digestion. Rhodopsin, a photosensitive protein in the retina, is vital for vision, as it helps form images.

Transportation and Oxygen Supply

Hemoglobin, a red blood cell protein, transports oxygen from the lungs to various tissues and aids in expelling carbon dioxide from the body. It acts as a crucial oxygen carrier, ensuring that all cells receive the necessary oxygen to function properly.

Defense Mechanisms

Proteins known as immunoglobulins, or antibodies, fortify the body’s defense system against pathogens such as viruses and bacteria. They are essential in keeping harmful invaders at bay.

Blood Clotting

The protein fibrinogen plays a significant role in blood clotting. It acts quickly in cases of cuts or bleeding wounds to prevent excessive blood loss.

Commonality Among Proteins: Amino Acids

Despite the remarkable diversity in function, all these substances are categorized as proteins. What unites them? It’s the fact that all proteins are composed of amino acids, the fundamental building blocks that give proteins their structure and functionality.

The role of proteins within a living organism is multifaceted and essential. From controlling growth to enabling movement, from managing chemical processes to safeguarding against diseases, proteins are intricately involved in nearly every aspect of life. Their common foundation in amino acids underscores the fascinating complexity and uniformity of life at the molecular level. Whether in the context of health, medicine, or biology, understanding proteins’ diverse roles is vital for a comprehensive view of life’s processes.

Understanding Peptides

Peptides: The Molecular Structure

A peptide is a molecular chain made up of two or more amino acids, held together by a peptide bond. Structurally, proteins appear as chains, and the length of these chains depends on the number of amino acids they contain. These chains can be either long or short, with the shorter ones referred to as peptides.

Peptides are small, measuring up to 1 nanometer, placing them within the realm of the Nanoworld. Generally, a peptide molecule comprises fewer than 100 amino acids, whereas a protein molecule contains over 100. Peptides can be found naturally in plants and animals or can be synthesized artificially.

The Role and Effects of Peptides

Life hinges on two types of molecules: peptides, which carry information, and DNA, the inert matrix that stores information. Together, peptides and specific DNA segments signal the synthesis of particular proteins.

In the body, peptides act as information carriers, transmitting biological data from cell to cell to ensure proper functioning. If a single cell is faulty, it can lead to diseases throughout the entire organism.

Peptides and Conventional Medicine

Traditional medicine often relies on non-organic drugs to treat illnesses, but the body can’t convert these into living cells. These non-organic substances can become oxalic acid salts, accumulating in the body and leading to various ailments such as arthrosis, arthritis, and atherosclerosis.

Many medications primarily block non-specific proteins produced by certain body parts, but medical professionals often struggle to understand why these proteins are being synthesized. Consequently, drugs may treat symptoms rather than underlying causes, making full recovery challenging.

Peptides in Therapeutic Approaches

Beyond traditional medicinal approaches, illnesses may be treated through replacement therapy, which involves supplementing the body with vitamins, hormones, and micronutrients. In these cases, the body might become passive as the systems responsible for creating these substances cease to function, leading to cellular dysfunction.

On the other hand, natural peptides, as organic substances, regulate cell condition. When introduced into the body, they promote proper cellular function, enabling the body to heal itself. This normalization triggers the restoration of an ailing body part without the need for chemical or surgical intervention.

Even if the body is severely compromised, peptides can rapidly initiate recovery. Upon entering the body, they replace damaged cells, extend cell life by up to 30-40%, and activate a healing process.

Peptide bio-regulators uniquely enhance protein synthesis, often impaired by illness or aging. They also increase the body’s adaptive potential and functional activity. Furthermore, peptides can control gene activity by suppressing “bad” genes and activating “good” ones, stimulating the production of essential proteins.

Influence of Age and Other Factors on Protein Synthesis

Time and Protein Synthesis

Proteins are the essential building blocks of life, involved in every single process within an organism. While cells constantly synthesize and maintain proteins, the level of synthesis can vary based on factors such as stress (physical or emotional), climate adaptation, time zones, or a weakened immune system.

A significant reduction in protein synthesis occurs with aging, leading to body dysfunction and, ultimately, death. A 55-year-old person, for instance, might have ten times fewer peptides than a 20-year-old, resulting in longer illnesses and recovery periods.

Some individuals live to be 100 or more, relying on their natural resources, lifestyle, and diet. However, these exceptional cases comprise less than 1% of the population. What many perceive as natural aging actually begins after 90, and what we observe today is often accelerated or premature aging due to factors like ecology, social conditions, personal neglect, or an emergency-focused medical system.

Addressing these challenges requires either a substantial change in external factors or support for the body itself. Modern peptide bio-regulators present a highly effective way to enhance and prolong the quality of life.

Can Food Compensate for Protein (Peptide) Deficiency?

Peptides are found in various foods like fish, meat, and botanicals. Eating these foods allows the protein to be digested and split into short peptides, which are then absorbed into the stomach, small intestine, blood, and cells, eventually regulating gene activity.

Human protein metabolism is a complex process, with the need for specific proteins constantly fluctuating. As a result of daily activities, the body typically loses about 25-30 grams of proteins, necessitating a consistent dietary intake.

Unfortunately, modern eating habits often result in unbalanced diets with overcooked, refined, and nutrient-deficient foods. This can lead to protein deficiency and the subsequent failure of vital functions. Given the difficulty in maintaining an ideal diet, many people suffer from protein shortages. Peptide bio-regulators offer a practical solution, especially for the elderly or those with weakened systems, actively preventing aging and enhancing cellular resistance to harmful factors.

Who Should Use Peptides?

The development of safe and effective drugs to preserve the quality of life is a primary concern for gerontologists. Peptide bio-regulation is an emerging field with promising advancements, drawing attention from leading scientists worldwide.

Under the leadership of Prof. V.Kh. Khavinson, The Institute of Gerontology and Bio-Regulation has focused on preventing age-related issues and increasing longevity and productivity. The Russian government has even approved a program for integrating peptide medications into healthcare.

Systematic use of peptide drugs is recommended for those entering the second half of life (around age 40) or for those exposed to extreme factors, such as athletes. By normalizing protein synthesis, peptide bio-regulators prevent age- and illness-related changes and enhance rehabilitation methods after trauma, intoxication, infections, stress, and other challenges.

The Crucial Peptides in Youth Extension: An Insight by Dr. Anisimov

The head of the Gerontological Society at the Russian Science Academy, Dr. Anisimov, has highlighted two essential elements for maintaining youthfulness: a healthy lifestyle and a positive attitude. While the importance of lifestyle is widely accepted, the role of good mood in resisting aging is less understood and requires further explanation.

One well-known hormone associated with happiness is serotonin. What’s lesser-known, however, is its vital role in producing melatonin, a hormone instrumental in counteracting the aging process.

The body synthesizes serotonin from the amino acid tryptophan, which is commonly found in foods like cheese, cottage cheese, milk, eggs, lean meats, lentils, and monkey nuts. When consumed, tryptophan is mainly converted into serotonin.

Interestingly, the enzymes that transform serotonin into melatonin are inhibited by light. This means melatonin production predominantly occurs at night, specifically between midnight and 3 am. During this period, melatonin, which is essential in preventing aging, is synthesized. Consistent night shift work, however, can disrupt this process, accelerating the aging effect. Thus, proper night sleep plays a crucial role in melatonin production.

Notably, some foods like corn, rice, tomatoes, oats, raisins, and bananas contain melatonin in its ready form.

Synthesized melatonin is also available for purchase in pharmacies. In the United States, it’s classified as a biologically active food supplement and is commonly used for insomnia and jet lag. In countries like Germany, it is available only by prescription. Long-term or consistent use of synthesized melatonin is cautioned against, as its effects are not fully understood, and it can cause addiction. Some researchers even believe it could potentially stimulate the growth of cancer cells.

Melatonin is produced by the pineal gland cells, or epiphysis, a vital organ in the human body responsible for daily and seasonal rhythms, immune system regulation, endocrine gland functionality, and protection against free radicals, cancer, and AIDS. The state of another essential endocrine gland, the thymus, relies heavily on the epiphysis.

The thymus gland plays a pivotal role in building immunity by stimulating the growth of T-cells, a type of lymphocyte. These T-cells actively combat foreign substances and oversee the creation of antibodies against disease-causing agents.

The Endocrine System and Peptides:

The Role of Epiphysis and Thymus in Youth

The epiphysis and thymus glands are exceptionally active in children and young people’s brains. As one grows older, the epiphysis starts to degrade, resulting in reduced melatonin synthesis. A similar process occurs with the thymus, leading to a decrease in the synthesis of thymulin hormone, vital for fighting illnesses with T-cells. These changes negatively impact the immune system and can cause organ dysfunction, accelerating the aging process and leading to chronic illnesses.

Interactions and Control within the Endocrine System

Research into the epiphysis has revealed that it doesn’t just interact with the thymus but also with other endocrine glands like the thyroid, adrenal, and pituitary. By regulating the function of the epiphysis, one can potentially control the whole body’s functionality.

The first peptide regulators identified were:

• Epithalamin (Endoluten): Peptides from the epiphysis, crucial for maintaining the right rhythm in the human pineal gland to produce the youth hormone.
• Thymalin (Vladonix): Thymus peptides, vital for immune system regulation, especially concerning autoimmune illnesses.

Other essential peptide preparations include:

• Ventfort: Affects the cardiovascular system
• Cerluten: Affects neural tissue and the brain
• Svetinorm: Affects the liver
• Zhenoluten/Libidon: Affects ovary/prostate cells

These preparations are generally recommended for individuals over 40 as preventive measures, with other peptides being taken as needed.

Consuming Peptides

The restoration of cellular function through peptides occurs gradually, typically becoming noticeable after 1-2 weeks. A course usually lasts 1-3 months, and the effects can linger for over half a year, with subsequent courses enhancing these benefits.

Peptide bio-regulators come in both capsule and liquid forms. Since short peptides remain intact during digestion, they can easily be consumed in capsule form.

Inside the digestive tract, peptides break down into di- and tri-peptides, followed by further disintegration into amino acids. These peptides can be taken without a capsule if necessary, accommodating those who cannot swallow capsules, including children and frail individuals.

Liquid Peptide Complexes

Liquid peptide complexes, which are 2-2.5 times less potent than capsules, are applied to the inner forearm or wrist and massaged until absorbed. They bind to dendritic cells within 7-15 minutes, allowing transport to the lymph nodes and then to specific organs and tissues. Enhanced by connection to fatty acids, these peptides can penetrate the skin, providing a unique method of application.

Peptides in Cosmetology: Peptide Creams

Introduction to Peptides in Skincare

Peptides have made their way not only into medicinal applications but also various other products, including cellular cosmetics. Both natural and synthesized peptides that work on deep skin layers are key to slowing down external skin aging. Factors like lifestyle, stress, sunlight, climate, and diet all contribute to aging. Over time, skin becomes dehydrated, less elastic, and wrinkled. While halting the aging process is impossible, it can be slowed using innovative cosmetology ingredients such as low molecular peptides.

The Unique Nature of Peptides

Peptides are distinctive because they can penetrate through the skin’s surface layers, reaching living cells and capillaries in the dermis. This deep penetration initiates skin recovery, maintaining freshness over prolonged periods. Unlike certain hormonal cosmetics that can cause addiction, peptide-based cosmetology is addiction-free.

Misleading Marketing in Cosmetology

The world of cosmetology is filled with products promising miraculous results, but these claims are often mere marketing tactics. For instance, many companies tout collagen as the main ingredient in their creams. However, research from various UK universities has shown that collagen molecules are too large to penetrate the skin, rendering them ineffective.

Another trendy ingredient, resveratrol, although a powerful antioxidant and immune stimulator, only functions as a micro-injection and has no impact on collagen synthesis when applied topically.

Innovations in Cosmetics

A notable exception to these marketing gimmicks is the truly unique series of cellular cosmetics developed by scientists at the Saint Petersburg Institute of Bio-regulation and Gerontology. These products are founded on natural peptide complexes with various applications, significantly impacting the skin.

As a result, skin recovery processes and blood microcirculation are stimulated, enhancing lifting, texture, color, and moisture. The peptide series of cellular cosmetics, Reviline®, also includes potent antioxidants like natural superoxide dismutase (SOD), providing various beneficial effects like UV-a protection and accelerated skin cell detoxification and regeneration.

There are 19 different Reviline creams targeting various skin problems, from anti-aging to spider veins, cellulite, eye puffiness, and more. Their effectiveness has been validated through extensive experiments and clinical research.

Holistic Approach to Aging

Peptides alone are not a panacea for aging. Dr. Khavinson, a leading creator of peptide drugs, emphasizes that aging is primarily a lifestyle issue. Only 25% depends on genetics, he argues.

Peptides do hold tremendous recreational potential, but relying solely on them would be misguided. A more holistic approach to health is necessary, involving proper nutrition, exercise, lifestyle habits, and the consumption of bio-regulators.

Additionally, other aspects, such as sugar consumption, can impact appearance due to a process called glycosylation, which affects collagen and elastin, leading to dull and aging skin. Reducing sugar intake and daily skincare can counteract these effects.

Are Peptides a Universal Cure for Aging?

The Connection Between Lifestyle and Aging

According to Dr. Khavinson, the creator of peptide drugs, aging is profoundly influenced by lifestyle choices. He asserts, “No drugs, including peptides, will be effective unless a person adopts a well-rounded approach involving the regulation of biorhythms, proper nutrition, exercise, and the utilization of specific bio-regulators.” In his view, genetic factors only account for 25% of a person’s susceptibility to aging.

Peptides: Potential but Not a Panacea

Dr. Khavinson believes that peptide complexes hold significant recreational potential, contributing positively to the body’s overall well-being. However, he warns against treating peptides as a miracle cure or panacea for aging. They are part of a broader health strategy but not a solution by themselves.

A Comprehensive Approach to Health and Aging

The key to a vibrant and healthy future lies in our hands. By embracing sports, abandoning harmful habits, and adopting better eating practices, we lay the groundwork for wellness. Utilizing peptide bio-regulators as part of this regimen can support overall health.

As we age, taking care of our health becomes increasingly crucial. Procrastination and negligence can lead to a situation where we become a burden to our relatives and find ourselves alone and in despair. To avoid such an outcome, we must begin to prioritize our well-being now.

Conclusion

Peptides, though promising in the fight against aging, are not a one-size-fits-all solution. They must be integrated into a comprehensive lifestyle strategy focused on balance, proper nutrition, and conscious living. Aging is a complex process, and while science offers innovative tools like peptides to support our health, they must be used wisely and in conjunction with other healthy habits to truly make a difference.