1. Antibiotics� and �Chemotherapeutic Agents
2. Chemotherapeutic agents and antibiotics can differ Chemotherapeutic agent - synthetic agents made in the laboratory
Antibiotic – compounds made by living organisms
3. Criteria of a good chemotherapeutic agent Selective Toxicity
Penetration of both tissues and cells
Does Not interfere with host’s natural defenses
4. Sulfanilamide and other sulfonamides interfere with metabolic reactions Competitive inhibition
Sulfamethoxazole
Sulfisoxazole acetyl
6. Other chemotherapeutic agents Isoniazid - antituberculosis drug
Nalidixic acid - blocks DNA sysnthesis in gram – bacteria
Nalidixic acid derivatives-fluoroquinolones
Cipro
Treat gram – infections in both urinary and intestinal tracts
Quinine, chloroquine, and primaquine
7. Criteria of a good Antibiotic Destroys a broad spectrum of microorganisms
Prevents the development of resistant strains
Produces no undesirable side effects
Does not interfere with normal flora
8. Sources of antibiotics Bacillus
Penicillium
Cephalosporium
Streptomyces
10. The discovery of antibiotics began with Fleming Penicillin - 1928 Fleming noted that penicillin inhibited gram+ bacteria
Florey and Chain - 1940 isolated the actual penicillin molecule.
11. Penicillin inhibits �bacterial cell wall synthesis Beta-lactam nucleus
Spectrum of activity
Development of resistant strains
Mode of action
12. A large group of semisynthetic penicillins has been developed Ampicillin
Amoxicillin
Carbenicillin
Methicillin
13. Cephalosporins also inhibit �cell wall synthesis Resemblance to penicillins
Generations of cephalosoporins
Application Penicillin resistance
Mode of action – Cell Wall inhibition
15. Aminoglycosides inhibit �protein synthesis Chemical structure – amino acids bonded to glycosides (carbohydrate molecules)
Mode of action – ribosomal attachment
Examples of Aminoglycosides
Streptomycin
Gentamicin
Kanamycin
16. Antibiotic Action on Protein synthesis
17. Chloramphenicol also�inhibits translation Discovery – 1947 beginning of Broad Sectrum
Spectrum of activity
Mode of action – Binds to 50S unit of Ribosome
Aplastic anemia
18. Antibiotic Action on Protein synthesis
19. Tetracyclines are another �group of drugs that affect �protein synthesis Origin – 1947 chlortetracycline
Spectrum of activity - broad
Mode of action – interferes with tRNA to mRNA binding
20. Antibiotic Action on Protein synthesis
21. Other antibiotics have �a variety of effects Erythromycin
Vancomycin
Rifampin
Bacitracin
Polymyxin B
22. Antibiotic Action on Protein synthesis
24. Antifungal antibiotics can produce toxic side effects Nystatin – Candida albicans infections
Amphotericin B – systemic fungal infections (degrades cell membrane)
25. Antiviral agents inhibit the�viral replication cycle Modes of action
Amantadine and zanamivir
Acyclovir and ganciclovir
AZT and ribavirin
Nevirapine and delavirdine
Saquinavir and ritonavir
Interferons
26. There are four mechanisms of antibiotic resistance Mechanisms
Altered metabolic pathway
Antibiotic inactivation
Reduced permeability/active export
Faulty transport system
Efflux system
Target modification
Altered binding proteins
Altered ribosomal target
Altered enzyme
Hyper-production of target
28. Antibiotics have been �misused and abused Evolving resistance in bacteria
Antibiotic misuse and abuse
Society
Hospitals
Livestock feeds
29. Transmission of resistance Conjugation
Transformation
Transduction
30. Minimization of resistance Avoid using antibiotics when not needed
Don’t use generalized infection antibiotics for topical applications
Use high enough dose
Don’t mix antibiotics
When resistance is evident switch antibiotics
31. There are several �antibiotic susceptibility assays Tube dilution method
Agar disk diffusion method
32. Kirby Bauer
33. Tube Dilution
