Staurosporine CAS NO 62996-74-1 Inquire about Staurosporine
Tecoland supplies Staurosporine bulk active pharmaceutical ingredient (API) to the pharmaceutical industry. Our Staurosporine is manufactured by cGMP compliant facility. Welcome to contact us for further details including current DMF status for the product and up to date regulatory status of the manufacturing facility. We look forward to assisting you with your research and development projects.
What is Staurosporine
Staurosporine is a natural product originally isolated in 1977 from the bacterium Streptomyces staurosporeus. It was the first of over 50 alkaloids to be isolated with this type of bis-indole chemical structure. The chemical structure of staurosporine was elucidated by X-ray analysis of a single crystal and the absolute stereochemical configuration by the same method in 1994.
Staurosporine was discovered to have biological activities ranging from anti-fungal to anti-hypertensive. The interest in these activities resulted in a large investigative effort in chemistry and biology and the discovery of the potential for anti-cancer treatment.
Biological activities
The main biological activity of staurosporine is the inhibition of protein kinases through the prevention of ATP binding to the kinase. This is achieved through the stronger affinity of staurosporine to the ATP-binding site on the kinase. Staurosporine is a prototypical ATP-competitive kinase inhibitor in that it binds to many kinases with high affinity, though with little selectivity. Structural analysis of kinase pockets demonstrated that main chain atoms which are conserved in their relative positions to staurosporine contributes to staurosporine promiscuity. This lack of specificity has precluded its clinical use, but has made it a valuable research tool. In research, staurosporine is used to induce apoptosis. The mechanism of how it mediates this is not well understood. It has been found that one way in which staurosporine induces apoptosis is by activating caspase-3. At lower concentration, depending on the cell type, staurosporine induces specific cell cycle effects arresting cells either in G1 or in G2 phase of the cell cycle
Research in preclinical use
When encapsulated in liposome nanoparticle, staurosporine is shown to suppress tumors in vivo in a mouse model without the toxic side effects which have prohibited its use as an anti-cancer drug with high apoptotic activity. Researchers in UC San Diego Moores Cancer Center develop a platform technology of high drug-loading efficiency by manipulating the pH environment of the cells. When injected into the mouse glioblastoma model, staurosporine is found to accumulate primarily in the tumor via fluorescence confirmation, and the mice did not suffer weight loss compared to the control mice administered with the free compound, an indicator of reduced toxicity.
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