Chemotherapeutic Agents Antimicrobials and Antibiotics
Normal Microbiota Body Cavities Closed = free of microbes Open = normal flora Regions Skin Mouth (teeth/gums) GI Genitourinary Upper = sterile Perineum
Bacterial Groups
Microbial Pathogenicity Cause of disease Means Invasiveness Toxigenesis Stages Colonization Adherence Nonspecific (dock) Specific (anchor) Invasion Enzymes Spread Digest Toxins
Definitions Chemotherapy Antimicrobials Antibiotics Synthetic Drugs Selective Toxicity
Paul Ehrlich
Antibiotic Development AB Natural Source Fungal molds Bacteria Bacillus Actinomycetes Chemotherapeutic Chemical Semi-synthetic Hybrid
Drug Basics Classification Chemtherapeutic Pharmacodynamic Miscellaneous Names (3+) Chemical Brand/Trade Generic Sites of Action Enzyme inhibition Receptor interactions Non-specific (i.e pH) Modes of Action (MOA) Pharmakokinetics Stimulate/Depress/Kill Effects Theruapeutic Adverse
Antimicrobial Characteristics Toxicity MOA Spectrum BS (both GP and GN) NS (GP or GN) Limited spectrum Target Tissue Adverse Effects Resistance Route of Administration
Mechanism of Action (MOA)
Effectiveness of AB Route of Administration Uptake Clearance Susceptibility Dosage Exceed MIC Therapeutic Selective Toxicity
Adverse Drug Reactions (ADR)
AB and Sx
Other Drug Considerations Availability Stability Cost
MOA Cell Wall Cell Membrane DNA Protein Synthesis 30S 50S Metabolites
Antimicrobial Resistance Natural (Inherent) G(-) LPS Lack target or transport Acquired Mutation Horizontal transfer Vertical Horizontal Transformation Transduction Conjugation
Plasmids
R-Plasmid
AB resistance
“Super Bugs”
Kirby-Bauer Disk Diffusion MH agar AB disks MIC Table Zone diameter Classified Susceptible Intermediate Resistant
Metabolite Inhibition
Sulfa Drugs
Sulfonamides Sulfa-; Sulpha- Antimetabolites Structural Analogs Decrease folic acid Bacteriostatic Side Effects Allergic KCS
PABA Competitive Enzyme Inhibition PABA Folic Acid Folic Acid (B vitamin) Synthesis of N bases TMPS actions as above Trimethoprim inhibits conversion of folic acid to its active form
Antimetabolite Action
TMPS BS Block pathway of synthesis for tetrahydrofolic acid No DNA No RNA Competitive antagonism Sulfa first enzyme Trimethoprim 3 rd enzyme Synergistic
Cell Wall Synthesis Inhibitors
Sir Alexander Fleming
Beta-Lactams
Penicillin Family Beta-lactams Penicillium mold source -cillin MOA Inhibits PGC synthesis Prevents cross-linking by transpeptidase Mimicks D-alanine at active enzyme site Bacteriocidal G(+) Adverse Rxn = allergies Penicillin G, Penicillin V, Oxacillin, Ampicillin, Cloxacillin, Ticarcillin, Nafcillin, Dicloxacillin, Carbenicillin
Inhibition of Cell Wall Synthesis Prevent cross linking Binds to transpeptidases Add new monomers Reseal wall Osmotic Lysis Bacterial Resistance Penicillinase MRSA VRSA Beta Lactamases Cephalosporinases
Beta-Lactam Inhibition
Beta-Lactamase Inhibitors Clavulanic acid Noncompetitive inhibitor of penicillinase Destroys enzyme
Carbapenems -penem Imipenem Beta-lactam BS Cell wall synthesis
Cephalosporins Modified B-lactam ring (6) Modified R groups Sewer fungus source Generations 1 st 2 nd 3 rd 4 th Cepha- or cef- Broad Spectrum; Bacteriocidal MOA Binds to transpeptidases No cross linking of NAM-NAM Prevents resealing Weak osmotic lysis
Cephalosporin Family 1 st Cefalixin Cephadroxil 2 nd Cefaclor Cefoxitin 3 rd Cefdinir Deftibuten 4 th
Glycopeptides Examples Vancomycin Teichoplanin MOA Bind to cell wall peptides Block cross-linking of transpeptidases (Alanine-Alanine) Blocks transglycolation NAM-NAG bond Result Weak cell wall Osmotic lysis Bacteriocidal GP VRSA has developed
Polypeptides Some can inhibit cell wall synthesis Inhibit PGC subunit release from carrier Inhibits teichoic acid synthesis Example Bacitracin NS: GP Topic Use Skin Ophthalmic
Bacitracin MOA Bactoprenol assembles new monomers for the cell wall in the PM Bacitracin binds to Bactoprenol in PM Blocks dephosphorylation (must loose 2 nd Phosphate) No monomers can inserted into cell wall Osmotic lysis
Inhibition of AFB MOA Disrupt cell wall synthesis Cycloserine Prevents replication Clofazimine Disrupt Waxy layer Mycolic acid and Arabinogalactan Examples Isoniazid Ethambutal Mycobacterium Multidrug Therapies
TB resistance
Ribosomes
Protein Synthesis Steps Transcription DNA mRNA RNA polymerase Translation Initiation mRNA 30S 50S Elongation P site A site Translocation Peptide bond formation Termination
Protein Synthesis Inhibition
50S Inhibition
Chloramphenicol CHPC BS Synthetic MOA Attaches to 50S ribosome Interferes with peptide bonds Results Inhibits protein synthesis Side Effects Aplastic anemia Can inhibit mitochondrial protein synthesis
Macrolides -mycin (usually) Actinomyces source Examples Erythromycin Azithromycin Clarithromycin Dithromycin MOA 50S reversible binding Inhibits elongation Blocks translocation Result Inhibit protein synthesis G(+) and select G(-) [resp] Erythromycin
Macrolide MOA
Lincosamides Semisynthetic Actinomyces source Example Clindamycin Lincomycin G(+), some anaerobes MOA Bind to 50S Block elongation Inhibits protein synthesis
Streptogramins Two Groups A: nonpeptide B: cyclic peptides Examples A: Dalfopristin B: Quinupristin MOA Group A Distort ribosomes Prevent tRNA binding Group B Block translocation Results Inhibit protein synthesis Synergistic if both groups used
30S Inhibition
Aminoglycosides -mycin (usually) Streptomyces source NS: G(-) but some have BS Examples Streptomycin Gentamicin Neomycin Amikacin Tobramycin MOA Binds to 30S, irreversibly Changes shape of 30S 50S can not bind Interferes with initiation Misreads mRNA codons Wrong AA inserted by tRNA Results Inhibit protein synthesis by interfering with translation Side Effects Toxicity CN 8 Kidney
Tetracyclines -cycline Streptomyces source BS GN, GP Rickettsial organisms Examples Tetracycline Doxycycline (semi-synthetic) Oxytetracycline Tigecycline Minocycline MOA Bind to 30S subunit reversibly Block tRNA attachment at A site Inhibit codon-anticodon interaction Result Inhibit protein synthesis Side effects Affect bone development Stain teeth in children
Tetracycline MOA
Tetracycline Resistance
Oxazolidinones New AB -zolid Example Linezolid MOA Prevents 30S-50S assembly Interferes with mRNA Disrupts initiation Results Inhibits translation Use G(+) MRSA / VRSA
Ribosome Inhibition Summary
Bacterial Resistance Pump out AB (efflux) Methylate Ribosomes Obscure target Block binding site Modify AB so it can’t bind to ribosome target
Nucleic Acid Inhibition
Quinolones Generations 1 st 2 nd 3 rd 4th Examples Naldixic acid MOA Block A subunit of DNA gyrase Results Bactericidal GN
Fluroquinolones -floxacin Second generation quinolone Examples Levofloxacin Norfloxacin MOA Bind to DNA gyrase Bind to Tropoisomerase IV Result: Blocks DNA Repair Replication Transcription Bacteriocidal BS DNA gyrase
Adverse Effects
Bacterial Resistance Modify DNA gyrase Bacterial synthesis of sort DNA segments to trick quinolones
Metronidizole Activated by bacteria Nicks in DNA to fragment strand Used in anaerobic infections Trade Name Flagyl
Rifampin Semi-synthetic GN and Mycobacteria Example Rifampicin MOA Binds to RNA polymerase Results Prevents transcription
Plasma Membrane Disruption
Polypeptides Example Polymixins Polymixin B Polymixin E (colistin) MOA Detergents Replace Mg++ and Ca++ Damage phospholipids Binds to Lipid A Results Alter PM Cell contents leak out
Antibiotic MOA Summary
Antifungals
Polyenes MOA Inactivatate sterols Changes membrane permeability Leakage of interacellular components Examples Amphotericin Nystatin Results Antifungal -static -cidal Dose dependant
Fungal Cell Walls
Helminths
Protozoa
Pentamide MOA Binds to prokaryote DNA Inhibits transcription and translation Antiprotozoal Examples Pentamide Pentam Pneumopent
Antivirals
Antisense Nucleic Acids MOA ssDNA or ssRNA binds as complementary strand to mRNA Blocks translation Examples Fomivirsen Use CMV
Questions?