New scientific breakthroughs are constantly occurring in countless industries, including skin care technology. The latest of these discoveries involves the understanding and manipulation of the biological pathways that lead to skin aging. Ongoing research may now be closer than ever to discovering the best natural ingredients to activate biological processes that could help accelerate the skin’s healing process to reverse fine lines, wrinkles, sagging skin, discoloration, and other blemishes.
What Are Biological Pathways?
Biological pathways are occurring in all of the living cells of your body at all times. This refers to the chain of molecular actions that happen on a cellular level and lead to a particular end result. Some pathways are designed to produce new materials, such as the formation of new collagen proteins by connective tissue cells. Others might cause cells to move or even turn on or off.
These processes are what drive our body’s daily functions on an ongoing basis without our even realizing it. Metabolism, gene expression, and message transmission between cells are all examples of different biological pathways .
Pathways in Bee Secretions
So what do biological pathways have to do with skin care? New scientific discoveries have found that certain products and ingredients found in nature have the ability to affect these processes, which could have a number of significant implications for their use in skin care.
Most recently, scientists identified that a specific protein called royalactin in royal jelly, a honey bee secretion, acts on gene expression within bees to help them grow larger and age more slowly. What’s more, this protein has also been shown to help bees live ten times longer and be much more protected from environmental stressors .
By mimicking the function of royalactin with a peptide, researchers were able to synthesize the anti-aging effects of this special protein for use in skin care. This particular peptide, called RoyalEpigen P5, may help to improve tissue renewal and cell regeneration, thus also improving the appearance of the skin.
Very similarly, separate research on Centella asiatica, an herbaceous plant native to Asia, has shown that its medicinal and potential anti-aging properties may also be due to its interaction with certain biological pathways. In particular, researchers have looked at the way it may manipulate pathways within the epidermis and dermis of the skin to aid in wound healing, the repair of photodamage, and even improving the appearance of stretch marks and acne .
The Role of Peptides and Amino Acids
Peptides, which are short chains of two or more amino acids, have long been shown to help improve the skin’s natural repair process, boost collagen production, and improve the signs of aging on the skin. While many amino acids and peptides are already naturally-occurring within the body, some, such as RoyalEpigen P5 and Bio 6, can be scientifically rendered to be very effective when applied topically.
Bio 6 is the innovative super peptide found in AminoGenesis Therapeutic Facial Repair Cream with Bio 6, which helps to diminish fine lines and wrinkles while also hydrating and firming the skin. Instead of simply covering and sealing the skin like a typical moisturizer, Therapeutic Facial Repair is rapidly absorbed to directly hydrate and nourish the skin with 17 different amino acids. Nine of these are known as essential, meaning the body cannot produce them, so they must be acquired from outside the body. This product effectively delivers them where they’re most needed.
While new peptide blends and formulations are constantly being discovered and perfected, there are currently amino-acid-based products, such as the AminoGenesis collection, that are readily available. These may modify specific biological pathways within skin cells to aid in the healing and repair process and improve the appearance of skin aging. Utilizing these powerhouse ingredients in your everyday skin care routine can make a world of difference when it comes to the overall look and feel of your complexion.