Bioactive and Antimicrobial Peptides in Kambo

• PHYLLOMEDUSIN: These peptides trigger contractions in smooth muscle tissue and enhance secretions throughout the gastrointestinal tract, including the salivary glands, stomach, small and large intestines, pancreas, and gallbladder. They are primarily responsible for the 'deep purge' effect experienced following the Kambo administration.

• PHYLLOKININ + PHYLLOMEDUSINS: Phyllokinin and phyllomedusins act as powerful vasodilators, enhancing the blood-brain barrier's permeability to facilitate their own entry, along with other active peptides. Additionally, they possess antimicrobial and antifungal characteristics.

• CAERULEINS + SAUVAGINES: These peptides, comprised of 40 amino acids, exhibit myotropic effects on smooth muscles, leading to contractions in the colon and urinary bladder. They cause a reduction in blood pressure alongside an increase in heart rate. Additionally, they activate the adrenal cortex and pituitary gland, enhancing sensory perception and resilience. The peptides are notably powerful analgesics, boosting physical strength, the ability to endure pain, stress, and illness, while also reducing fatigue symptoms. Within the medical realm, these peptides aid in digestion and offer pain relief for conditions such as renal colic, pain from peripheral vascular insufficiency, and tumor-related discomfort.

• DERMORPHIN + DELTORPHIN: Small peptides made up of 7 amino acids act as selective agonists for opiate receptors, demonstrating a potency 4000 times greater than morphine and 40 times stronger than naturally occurring endorphins.

• ADENOREGULINS: These substances interact with the human body via adenosine receptors, which are crucial elements in all human cellular energy processes. These receptors present a potential target for addressing conditions such as depression, stroke, and cognitive disorders, including Alzheimer's Disease and Parkinson's Disease.

• DERMASEPTINS: These peptides belong to a wide array of antimicrobial peptides that play a crucial role in the frog's defense mechanism against microbial invasions. They are notable for being the first vertebrate peptides identified to have deadly effects on filamentous fungi, which are known to cause severe opportunistic infections in cases of immunodeficiency syndrome or the use of immunosuppressive drugs. Furthermore, they exhibit lethal activity against a comprehensive range of bacteria, fungi, yeasts, and protozoa.

  Extensive research conducted at the University of Paris has demonstrated the effectiveness of the peptides Dermaseptin B2 and B3 in eradicating specific cancer cell types. In addition, a researcher from Queen's University in Belfast received a distinguished award for his innovative work in the field of cancer and Kambo. The mechanism through which it operates involves the inhibition of tumor cell angiogenesis, coupled with selective cytotoxicity towards these cells.

• BRADYKININS: These peptides share structural and functional similarities with human bradykinin. They exhibit hypotensive properties by inducing vasodilation, which aids in the contraction of non-vascular smooth muscle, enhances vascular permeability, and is associated with the process of inflammatory pain.

• BOMBESINS: These peptides enhance the production of hydrochloric acid by targeting the G cells in the stomach. Additionally, they boost pancreatic secretion, amplify intestinal myoelectric activity, and increase the contractility of smooth muscles.

• CERULEANS: These compounds activate the secretion of gastric fluids, bile, and pancreatic juices, as well as stimulate specific smooth muscles. They hold potential for use in treating paralytic ileus and serving as a diagnostic tool for pancreatic dysfunction.

• TRYPTOPHILINS: These neuropeptides, composed of 4-14 amino acids, are providing new insights into the functioning of the human brain.