Week 1: Nucleic Acid Synthesis inhibitors Flashcards
Learning Objectives
Classes of bacterial protein synthesis inhibitors
- Free-radical generators
- Antimetabolites
- DNA Gyrase Inhibitors
Free-radical generators
Metronidazole
Antimetabolites
- Sulfonamides
- Trimethoprim
DNA Gyrase Inhibitors
Fluorquinones
Fluoroquinolones
- Ciprofloxacin
- Levofloxacin
- Moxifloxicin
Metronidazole drug class
Free-radical generatory bacterial protein synthesis inhibitor
Metronidazole MOA
- Low redox potential in anaerobic systems required for reduction of the nitro group
- Reduction of the nitro group generates reactive intermediates (eg Anion nitroso free-radicals)
- Reactive froups disrupt nucleic acid and protein structure and function
Metronidazole Spectrum of activity
- Active against obligate anaerobic bacteria and selected parasites, bactericidal
- Concentration dependent killing with PAE
PAE AKA
Post-Antibiotic Effect
Metronidazole route of administration
- Oral
- Topical
- Parenteral
Metronidazole distribution
Wide distribution including secretions, bone and CNS
Metronidazole metabolism and elimination
Hepatic metabolism with urinary elimination of unchanged drug and hepatic metabolites
Metronidazole and hepatic dysfunction
Dose REDUCTION is necessary in severe-hepatic dysfunction
Metronidazole toxicities
- CNS toxicity: including ataxia, psychosis and convulsions
- Disulfiram-like effect with alcohol - inhibits acetaldehyde dehydrogenase leading to acetaldehyde poisoning, recent evidence suggests a central serotonin-syndrome
- Immunosuppressive and anti-inflammatory
- Candida superinfection
- Mutagenic, possibly carcinogenic
Metronidazole spectrum
Anaerobes:
- C. difficile (also vancomycin, fidaxomicin)
- Bacteroides fragilis
- Eubacteria
- Peptostreptococcus
- Trichomonas vaginalis
- Giardiasis
- Amebiasis
Used against H. pylori in combination with other drugs (eg tetracycline, amoxicillin, clarithromycin, + proton pump inhibitor
Sulfonamides and Trimethoprim MOA
- Sulfonamides are PABA analogs that inhibit folic acid synthesis by dihydroteroate synthetase
- Trimethoprim is a pterdine analog that inhibits dihydrofolate reductase
- Trimethoprim/Sulfamethoxazole produces synergistic antibacterial effects given at 1:5 resulting in optimal blood and tissue ratios ~1:20; paired for similar t1/2 (~10 hours)
- Selectivity - sensitive bacteria synthesize folic acid in contrast to our uptake of preformed folic acid and trimethoprim is relatively selective for bacterial DHFR
Sulfonamides and Trimethoprim site of action
Sulfonamides and Trimethoprim absorption and distribution
- Good oral availability
- Large volume of distribution including CSF
Sulfonamides and Trimethoprim metabolism and excretion
- Sulfonamides are eliminated by hepatic metabolism; metabolites and parent drug are eliminated in the urine
- Trimethoprim is eliminated unchanged in the urine
Toxicities of sulfonamides
- Allergic rxns: minor to life-threatening rash
- Acute hemolytic anemia in G6PD deficiency
- Crystalluria causing renal impairment
- Kernicterus (CNS damage in newborns caused by displacing bilirubin from plasma protein binding sites
Sulfonamides drug interactions
increases warfarin or oral hypoglycemic drug levels by CYP450 inhibition
Toxicities of Trimethoprim
- Megaloblastic anemia
- Leukopenia
- Inhibits tubular secretion of creatinine
- TMP/SMX is associated with rare sudden death in patients taking ACE inhibitors or ARBs due to hyperkalemia
- Stevens-Johnson syndrome
Sulfonamide antibiotics cross-hypersensitivity
Sulfamethoxazole
Thiazide diuretics and potential cross-hypersensitivity
Hydrochlorothiazide
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