MI: Antimicrobials 1 Pt.1 Flashcards
Examples of selective targets for antibiotics
Peptidoglycan layer of cell wall
Inhibition of bacterial protein synthesis
Inhibition of DNA gyrase and other prokaryote specific enzymes
What is the broad mechanism of action of beta lactams?
Inhibition of cell wall synthesis
What is the broad mechanism of action of glycopeptide antibiotics?
Inhibition of cell wall synthesis
What 3 groups of antibiotics are classified as beta lactams?
Penicillins
Cephalosporins
Carbapenems
Name 2 glycopeptide antibiotics
Vancomycin
Teicoplanin
Describe the mechanism of action of beta lactams
Inhibits transpeptidase, which is an enzyme that forms cross links during the formation of the cell wall.
The resulting cell wall is therefore weak, and so the bacteria lyse because of osmotic pressure.
*They are effective against rapidly dividing bacteria - not useful if the cell wall has already been formed*
How does the cell wall of gram pos and gram neg bacteria differ?
Gram pos: thick peptidoglycan layer, no outer membrane
Gram neg: thin peptidoglycan layer, has an outer membrane (some antibiotics can’t get through this)
*Gram pos stain purple, gram neg stain pink*
What bacteria is penicillin active against?
Gram pos
Not effective against organisms with no peptidoglycan cell wall e.g. mycoplasma and chlamydia
What bacteria is amoxicillin active against?
Broad spectrum: gram pos and many gram neg
*Broken down by beta lactamase produced by S. aureus and other microorganisms*
Which beta lactam antibiotic is effective against pseudomonas?
Piperacillin
*Broken down by beta lactamase*
That’s why it’s used as tazocin
How can beta lactam resistance be overcome?
Include a beta lactamase inhibitor
Eg. Clavulanic acid + amoxicllin (in co-amoxiclav aka augmentin)
Eg. Tazobactam + piperacillin (in tazocin)
Alternatively, create antibiotics that are stable to beta lactamase eg. flucloxacillin
Recall an antibiotic that is associated with C. difficile
Ceftriaxone (cephalosporin)
Examples of cephalosporins
Cefalexin (1st generation)
Cefuroxime (2nd generation)
Ceftriaxone (3rd generation)
Ceftazidime (3rd generation)
Cefotaxime (3rd generation, paediatric cefotriaxone)
*As cephalosporins progressed from 1st to 3rd generation, they became more effective against gram negative and less effective against gram positive*
What limits the use of cephalosporins?
Extended spectrum beta lactamase (ESBL) producing organisms are resistant to cephalosporins
Which beta lactam antibiotics are stable to ESBL organisms?
Carbapenems
*However, carbapenemase enzyme producing organisms (acinetobacter and klebsiella) are becoming more prevalent*
