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Transcript
Bleomycin Catalina Cuervo Outline of Topics • • • • • • Introduction to Bleomycin Structure Mechanism Resistance Analogs Conclusion Bleomycin • Phleomycin was discovered in 1956 by Hamao Umezawa • Exhibited inhibition of Ehrlich carcinoma with high therapeutic index but showed renal toxicity in dogs • During a search for antibiotics of similar type, Bleomycin (BLM) was discovered • Bleomycin showed reversible heptatotoxicity, but no renal toxicity • BLMs are glycopeptide antibiotics isolated from streptomyces verticillus • They are used as a chemotherapeutic agent to treat primarily head and neck cancer,testicular cancer, and lymphomas • BLMs interacts with DNA and induce damage • BLMs chelate iron and combine with oxygen molecules to form the active form Side effects: • 1% patients-BLM induced pulmonary fibrosis and die • 1% lymphoma patients-idiosyncratic reaction (confusion, fever, chills, and wheezing) • 10% patients-pneumonitis • 50% patients develop other side effects including rash and tenderness of skin • Treatment is discontinued in 2% of patients because of side effects • Because of allergic reactions in some lymphoma patients, a very small dose is administered (1-2 units) • Normal dose ranges from 0.25 unit per kilogram of body mass twice a week to 1 unit daily Structure • BLMs have the same backbone • They differ by their terminal amine • The mixture of BLMs that is used clinically is A2 (55-70%) and B2 (2532%) Structure is separated into three domains: 1.Metal-binding domain: ß-aminoalaninamide, pyrimidine, ß-hydroxyhistidine -Responsible for formation of the complex with Fe(II) 2.DNA binding domain: bithiazole ring system and terminal amine substituent 3.Carbohydrate moiety: aids in membrane permeability and recognizes tumor cells Metal Complex • BLMs can form metal complexes with Fe, Cu, Co, Zn, Mn • For therapeutic effects the Fe-BLM complex is used Cycle of Events: Activation of Bleomycin Activation of Bleomycin Complex Binding of BLM to DNA • The minor groove of the DNA helix is the binding site for BLM • Active BLMs bind to guanine bases in DNA through the bithiazole unit Mechanism • Two mechanisms account for DNA strand scission • Differences between mechanisms: products formed and amount of oxygen needed Mechanism 1 Mechanism 2 • Strand scission mediated by Bleomycin is sequence selective • 5‘-GT-3‘ and 5‘-GC-3‘ • Always at the 3‘ side of G Resistance • Resistance of cells to BLM is caused by an aminopeptidase (BLM hydrolase) that hydrolyses the carboxamide group of the L-aminoalaninecarboxamide substituent in the antibiotic that does not contain the metal Analogs • The major problems with Bleomycin stem from the drug’s cytotoxicity • Liblomycin and Victomycin are succeeding Bleomycin because they exhibit milder cytotoxicity Conclusion • Bleomycins are antitumor agents • Glycopeptides with the same backbone but differ in the structure of their terminal amine • Cause DNA breakage, a process that requires oxygen and Fe(II)
