(01) Antibiotic Classes

Question 1

What are the 4 ways that antimicrobial agents can act through?

Answer 1

• Inhibition of Cell Wall synthesis
• Inhibition of Protein Synthesis
• Inhibition of Folic Acid biosynthetic pathways
• Inhibition of DNA/RNA synthesis

Question 2

What type of bacteria is most sensitive to ß-lactams?

- why?

Answer 2

Gram + bacteria because they have a thick peptidoglycan cell wall

Question 3

What protects gram - bacteria from ß-lactams?

Answer 3

Only have a thin cell wall that is protected by a LIPOPOLYSACCHARIDE layer

Question 4

Why would you use a ß-lactimase inhibitor with penicillin?

• how does it work?
• what combinations are used?

Answer 4

• Resistant bacteria may have ß-lactimase present
• Bind to ß-lactimase to prevent them from cleaving ß-lactams

Combos:
- Clavulanic Acid + Amoxicillin

• Tazobactam + Pipercillin

Question 5

Narrow-Spectrum Penicillins

- structural and functional difference?

Answer 5

Structural:
- Large side chains prevent ß-lactamases from twisting the penicillin into different stereoisomers

Functional:
- Side chains limit their spectrum of activity

Question 6

Broad Spectrum Penicillin

• derivatives of…
• purpose
• administered with?
• Example?

Answer 6

Broad Spectrum Penicillins are derived from Aminopenicillins (extra amino group to cross LPS layer on gram - bacteria)

Purpose:
- kill more types of bacteria

Administered with:
- ß-lactamase inhibitors, because they are especially sensitive

E.g. Pip/Tazo

Question 7

Imipenem

• what is it
• activity
• what is it administered with
• why?

Answer 7

Imipenem = ß-lactam

Activity:
- Broad Spectrum

Administered with Cilastin (not and antimicrobial)

Cilastin inhibits Dehydropeptidase-1 (DHP-1) in kidney brush boarder than breaks down Imipenem

**Results in increased urinary concentrations of imipenem

Question 8

Describe the structural differences between penicillins and cephalosporins

Answer 8

Penicillin:
- Thiazolidine attached to ß-lactam ring

Cephalosporins:
- 6 membered ring attached to ß-lactam ring

Question 9

What do ß-lactams inhibit?

Answer 9

Inhibit Penicillin-Binding Proteins

• This leads to breakdown of the cell wall because transpeptidases can’t do their job

Question 10

What makes cephalosporins more user friendly?

Answer 10

• They can be taken with or without food

- They are more acid stable

Question 11

What is the trend as you move from the 1st generation of cephalosporins to the 4th?

Answer 11

Gram + activity is lost as Gram - activity is gained

Question 12

What is generally treated using 1st generation cephalosporins?
- 2 examples when specific types are used

Answer 12

Treats:
- streptococcus or staphylococcus

When:

• Cefazolin - surgical prophylaxis
• Cephalexin - most commonly perscribed Cephalosporin for outpatient use

Question 13

What is generally treated using 2nd generation cephalosporins?
- when are these used?

Answer 13

Mild Gram - Bacteroides infections (anaerobic)

• intraabdominal infections

Question 14

Would you use a second generation cephalosporin to treat a severe infection?
why or why not?

Answer 14

NO, because 3rd generation cephalosporins are more efficacious

Question 15

When are 3rd generation cephalosporins typically used and how?
- 2 specific examples

Answer 15

Treat severe infections in combination with a drug of a different class (with a different MOA)

1. Ceftriaxone - Treats STIs and Pediatric Meningitis
2. Cefepime - treats pseudomonal infections

Question 16

When are 4th generation cephalosporins used?

Answer 16

Nosocomial (hospital acquired) infections

• These have a tendency to be antibiotic resistant, more severe, or caused by gram - organisms

Question 17

What is the mechanism of action (MOA) of Vancomycin?

Answer 17

• Attach to the ends of peptidoglycan precursor units (pentapeptides)
• Transglycosylase binds and can’t let go
• This prevents peptidoglycan synthesis

Question 18

What kind of bacteria is Vancomycin effective against?

- why?

Answer 18

Gram + bacteria.

Effective because gram + bacteria have very thick cell walls and no new cell wall synthesis can occur

Question 19

Compare the MOA of ß-lactam agents to Vancomycin.

Answer 19

ß-lactam:
- inhibits transpeptidases

Vancomycin:
- inhibits transglycosylases

Question 20

When would you administer vancomycin orally vs. IV?

- why do you have to do this?

Answer 20

• Vancomycin is poorly absorbed by the digestive tract

Orally:
- Will kill things like C-Diff Colitis in the Colon

IV:
- Can work in blood, soft tissues, brain, heart, etc.

Question 21

What is the mechanism of action for cephalosporins?

Answer 21

Inhibit Transpeptidases in the same way that penicillin does via the ß-lactam ring

Question 22

What is the mechanism of action of fosfomycin?

- why is this significant

Answer 22

• Epoxide group irreversibly inhibits enolpyruvyl transferase by binding in place of PEP
• Blocks condensation of Uridine Diphosphate-N-acetyleglucosamine with p-enolpyruvate

**Key 1st step in bacterial cell wall synthesis

Question 23

Aminoglycosides

• polarity
• consequences of polarity
• Toxicity?

Answer 23

Aminoglycosides are polar

Consequence:

• Poor Penetration of Biological Membranes
• NOT GIVEN ORALLY, NOT ABSORBED IN GI TRACT

Toxicity:

• Proximal Tubule is the only place Aminoglycosides are absorbed.
• Aminoglycosides accumulate in kidney cells and cause Nephrotoxicity

Question 24

What is the mechanism of action of Aminoglycosides?

- what kind of infections do they treat?

Answer 24

1. Irreversibly bind to 30s Ribosomal subunit of bacteria

Low Concentration:
- cause misreading of mRNA by ribosomes

High Concentration:
- Halt Protein Synthesis, trapping Ribosomes at the AUG start codon

2. Cationic Antibiotic molecules create fissures in outer membrane allowing contents to leak
   * Gram - bacterial infections

Question 25

Why are aminolgycosides less effective against anaerobes?

Answer 25

Polar aminoglycosides must enter via active transport.

Anaerobes have less energy and are less likely to absorb the drug

Question 26

What does bacteriostatic mean?

Answer 26

a drug that inhibits replication but does not actively kill existing bacteria is bacteriostatic

Question 27

T or F: aminoglycosides are bacteriostatic like most other protein synthesis inhibitors

Answer 27

False, Aminoglycosides are bactericidal because they cause leaks in the membrane in addition to halting protein synthesis

Question 28

What are the classes of protein synthesis inhibitors?

Answer 28

1. Aminoglycosides
2. Macrolides
3. Lincosamides
4. Tetracyclines
5. Streptogramins
6. Mupirocin

Question 29

Macrolides

• MOA
• Common macrolides
• Bacteriostatic or Bacteriocidal

Answer 29

• Bind 23s RNA molecule of 50s subunit of bacterial ribosome and inhibit PEPTIDYLTRANSFERASE
• Phagocytized by Macrophages which is a WBC and will travel to site of infection and bring drug with it

1. Erythromycin
2. Azithromycin

• Bacteriostatic (bacteriocidal at high enough conc.)

Question 30

Lincosamides

• MOA
• example of a lincosamide
• Bacteriostatic or Bacteriocidal

Answer 30

MOA
- bind 23S rRNA molecule of 50S RSU and block transfer of a new Aminoacid onto a growing chain

Clindamycin is a Lincosaminde

Bacteriostatic (bacteriocidal at high enough concentrations)

Question 31

Why are lincosamides considered beneficial in toxin producing infections?

Answer 31

• Toxins are proteins or are made by proteins within the bacteria
• Since these block protein synthesis, they also block toxin production

Question 32

Tetracyclines

• MOA
• Bacteriostatic or Bacteriocidal

Answer 32

MOA:
- bind REVERSIBLY to 16S rRNA of 30S RSU

• Weakens the ribosome-tRNA interaction and prevents addition of AA to growing peptide

Bacteriostatic

Question 33

What are 2 characteristics of Tetracyclines that makes them selective for bacteria over human cells?

Answer 33

1. Active transport system by which they are taken up is present only in bacteria
2. Like the others, it is specific to prokaryotic Ribosomal subunits (30S)

Question 34

Streptogramins

• MOA
• Relationship of Quinpristin and Dalfopristin
• Bacteriostatic or bactericidal

Answer 34

MOA:
- Bind to 50S RSU

Synergistic Relationship:
Quinupristin
- binds at same place as macrolides and has similar effect

Dalfopristin

• binds 50S near Quinprisitin causing conformational change that ENHANCES QUINUPRISTIN BINDING
• also directly interferes with chain formation

**Bactericidal

Question 35

Mupirocin

- MOA

Answer 35

Inhibition of isoleucyl transfer-RNA synthetase

**Applied Topically

Question 36

Chloramphenicol

• MOA
• Drug-Drug interactions, why?

Answer 36

MOA:
Binds to 50S RSU and at transpeptidyl transferase and inhibits trasnpeptidation reaction

Interferes with:
- Macrolides and Lincosamides because they have Clindamycin because they bind near the same site

Question 37

Fluroquinolones

• MOA
• Bacteriostatic or Bactricidal?

Answer 37

MOA:
Gram -
- Inhibit DNA gyrase (topoisomerase II)

Gram +

• Inhibit DNA gyrase (topoisomerase IV)
• Prevents separation of replicated DNA into respective daughter cells

*Allows Double Strand break but prevents reattachment

Bactricidal:
- accumulation of DNA fragments leads to cell death

Question 38

Why do Fluroquinolones not affect humans to any great extent?

Answer 38

we have different forms of Topoisomerase II and Topoisomerase IV

**Note: these are enzymes that relax supercoiled DNA

Question 39

What is the MOA of Rifamprins?

Answer 39

Bind PROKARYOTIC RNA polymerase, prevents initiation of RNA synthesis

**does NOT affect elongation

Question 40

What important characteristic of Rifamprin gives it access into many different enviroments?
- what are some examples of environments that it can access?

Answer 40

Rifamprin is lipofilic and can therefore penetrate into many different areas.

1. Mycobacterial walls - contain long fatty acids (mycolic acids)
2. Biofilms
3. CNS - can treat meningitis
4. Phagocytic cells - can kill bacteria that can live intracellularly

Question 41

Cotrimioxazole

• Composition
• MOA
• uses?

Answer 41

Composition:
Trimethoprim and Sulfamethoxazole (sulfonamide)

MOA:
Sulfamethoazole
-prevents PABA from entering Folic Acid

Trimethoprim
- prevents reduction of Dihydrofolate to Tetrahydrofolate by DIHYDROFOLATE REDUCTASE

Uses:
- Uncomplicated UTIs and acute exacerbations of chronic bronchitiits

Question 42

Why does Trimethorprim not affect human DHF reductase?

Answer 42

The drug is much more selective for the bacterial form.

100,000 times the normal dose is required to inhibit human dihydrofolate reductase

Question 43

DAPTOMYCIN

• MOA
• Bacteria affected
• Bacteriostatic or Bactricidal?
• what system can it not be used to treat and why?

Answer 43

MOA:
- Lipopeptides bind to membrane and cause rapid depolarization

• Protein, DNA, and RNA synthesis is halted and cell dies
• Affects Gram + bacteria
• Bactricidal
• Doesn’t treat pulmonary infections because drug is deactivated by surfactant in lungs

Question 44

Fidaxomicin

• MOA
• Cross resistance issues?

Answer 44

MOA:
- Inhibits sigma dependent transcription of Bacterial RNA polymerases

No Cross resistance (even with rifamprin)

Question 45

Cell wall inhibitors 8 total

Answer 45

5 Penicillins

1. Penicillin G
2. Ampicillin
3. Piperacillin
4. Aztreonam
5. Imipenem

3 others

1. Ceftriaxone
2. Vancomycin
3. Cephalexin

Question 46

8 protein synthesis inhibitors

Answer 46

Aminoglycosides:
1. Gentamicin

Macrolides:

2. Azithromycin
3. Clarithromycin
4. Erythromycin

Oxazolidinones:
5. Linezolid

Tetracylines:

6. Doxycycline
7. Tigecyline

Others:
8. Mupirocin

Question 47

7 Drugs that affect nucleic acid metabolism.

Answer 47

Fluoroquinolones
1. Ciprofloxacin

Rifamycins
2. Rifampin

Nitroimidazoles
3. Metronidazole

Dihydrofolate Reductase inhibitors
4. Cotrimoxazole

Sulfonamides
5. Cotrimoxazole

Others

6. Daptomycin
7. Fidaxomicin