Five authoritative scientists including Linda Partridge, founding director of the Max Planck Institute for Aging in Germany, have updated and improved the cellular aging markers based on aging research in the past 10 years, published in the top science journal published an authoritative review of the "12 Signs of Aging", providing K2LT'S Company with theoretical support for the development of anti-aging products!

The field of aging research has identified 12 markers that represent common characteristics of aging in different organisms. Intercellular communication change logo: Intercellular communication

Cell communication has become a major trend in cell biology and molecular biology in the past 20 years. The new field formed by the development of biotechnology is one of the current research hotspots in life sciences. Many of the major scientific and technological achievements in recent years have come from this field and have been quickly applied to clinical applications. These achievements not only clarify the pathogenesis of diseases, but can also be applied to diagnosis and treatment, becoming an important source of new diagnosis and treatment methods.

Results of human genome research in the 20th century indicate that of approximately 32,000 protein-coding genes, 20% are related to signal transduction The proteins they encode include transmembrane receptors, G proteins, signal-generating enzymes, etc., among which there are more than 520 protein kinases and more than 130 proteins that reversibly and accurately regulate protein phosphorylation. Protein kinases can be divided into tyrosine kinases or serine/threonine kinases according to different catalytic substrates, and some kinases have dual activities. There are more than 90 protein tyrosine kinase (PTK) genes known so far, including 58 receptor protein tyrosine kinase (RPTK) genes, divided into 20 subfamilies; cytoplasmic non-receptor protein tyrosine kinase genes 32 species, divided into 10 subfamilies. Among the approximately 30 known tumor suppressor genes and more than 100 oncogenes, protein kinase genes, especially PTK, account for a large proportion. Only multicellular animals have PTKs, accounting for about 3% of the genome, and they play an important role in the normal development of multicellular animals. Variations in these genes cause many cancers in humans.

Intracellular signal transduction begins with the binding of signaling molecules (such as cytokines) to cell surface receptors. This binding triggers a cascade of specific molecular sequences downstream of the signaling pathway, including gene activation and consequent protein coding. The transmission of signaling molecules from one cell to another is called intercellular communication. An unexpected number of diseases are associated with disruptions in cell communication. Tumors are a prominent example, but inflammation, autoimmune diseases, and even cardiovascular disease have also been implicated. Viruses and bacteria often cause disease in the human body by disrupting human cell communication.

The 21st century is the century of biology and the age of information. Research on cell communication from bacteria to humans will be in-depth. Research on the above-mentioned signal transduction-related genes and their products has just begun, and the theoretical and applied research prospects are promising. With the in-depth study of ion channel systems and related research on other cell communication mechanisms, the nature of meridians in the treasure trove of Chinese medicine should be clarified within this century; research on cell communication mechanisms will gradually overcome a number of unexplained diseases and incurable diseases. disease. The mass production of cytokines and their receptors provides new methods for the treatment of related diseases. The success of tyrosine kinase inhibitor (Signal Transduction Inhibitor, STI571, Gleevec) in the treatment of chronic myelogenous leukemia has opened up a new direction in finding disease treatment targets from signal transduction pathways. Recently, research on targeting Janus kinase 3 to treat leukemia and inflammation is becoming a new hot spot.

As we age, our cells become less efficient at communicating with each other. This manifests itself in many ways, including reduced immune system capacity and disruption of hormone levels and systemic blood factors;

Intercellular communication It means that the information sent by one cell is transmitted to another cell through the medium to produce a corresponding response. The signal transduction and gene expression regulation of the nervous, endocrine and immune regulatory systems are the basis of animal physiology and biochemistry. The purpose of cell signal transmission is to respond to and adapt to your internal and external environment. Because they help your body adjust, properly functioning cell signaling pathways are important to maintaining and improving health. So when cell signaling pathways work well, your body runs smoothly.

The positive effects of intercellular communication capsules are: the use of scientific formulas, advanced technology, and the quantitative and functional effects of natural ingredients synergy and integrity, and certainty of effect.

This product is composed of a mixture of K2LT'S proprietary substances, luteolin, astragaloside IV, rutin, and quercetin The combination has the effects of enhancing the body's immune function, anti-aging, and anti-fatigue. It is also anti-cancer, anti-viral, anti-bacterial, anti-inflammatory, analgesic, can enhance immunity, anti-tumor, anti-hyperuric acid, etc.

The biological significance of gap junction communication: adjacent cells can share small molecule substances, which can quickly and reversibly promote The coordinated response of adjacent cells to external signals. For example, under the action of glucagon, the intracellular concentration of small molecule CAMP increases in liver cells, which diffuses to other adjacent cells through gap junctions and jointly regulates the effects of these cells on glucose metabolism.

The composition of intercellular communication communicates by changing cell signals and receptors, thereby helping the body maintain brain-derived The level of neurotrophic factor (BDNF) helps the production of human neurons and helps the human body form healthy cognitive functions, memory, and attention.

K2LT'S uses high-tech means to produce this composition, which can effectively inhibit superoxide anion free radicals that cause aging And the generation of hydroxyl free radicals is a precious and effective anti-aging drug that can delay the passage of time, is safe, reliable, and has outstanding effects.

K2LT'S 12 major cellular anti-aging applications: altered intercellular communication, cellular senescence, uncontrolled nutrient sensing, proteins Loss of homeostasis, disabled macroautophagy, dysbiosis, epigenetic changes, genomic instability, mitochondrial dysfunction, stem cell failure, telomere loss, chronic inflammation; applying the most cutting-edge life science and technology to provide consumers with safe and efficient pure Natural, anti-cell aging high-tech products, intelligent combination + technological formula, significantly improve human life span.