Antimicrobials Reading

Question 1

What are 4 common mechanisms of antibacterial resistance?

Answer 1

1. altering receptor targets
2. decreased entry or efflux of drug out of microorganisms
3. alterations in metabolic pathway
4. inactivation of the drug

Question 2

What are the 4 main targets of antibacterials?

Answer 2

1. cell wall synthesis
2. protein synthesis
3. folic acid biosynthesis
4. DNA/RNA synthesis

Question 3

What is drug synergism?

Answer 3

When two drugs that have different mechanisms are used in conjunction to achieve amplified effects

Question 4

How do penicillins work?

Answer 4

they inhibit cell wall synthesis by preventing formation of the peptidoglycan layer of the cell wall.

Question 5

What do penicillins bind to?

Answer 5

transpeptidase enzyme, whose function is to cross-link N-acetyl muramic acid and N-acetyl glucosamine.
AND
they activate autolysins which destroy cell walls.
AND
carboxypeptidases and endopeptidases

There are several others and they are all referred to as penecillin-binding proteins (PBPs)

Question 6

List the common PBPs.

Answer 6

transpeptidases, autolysins, carboxypeptidases, endopeptidases

Question 7

How can bugs become resistant to penicillins?

Answer 7

modify their PBPs
actively pump the drug out of the cell
celave the B-lactam ring of penicillins with B-lactamases
alter their porins to prevent drugs from reaching PBPs

Question 8

What will happen if penecillins are used in conjunction with bacteriostatics?

Answer 8

bacteriostatics halt cell growth. Penecillins rely on the cell growing and building cell wall to kill it. There will be a antagonistic interaction.

Question 9

What type of drug is tetracycline?

Answer 9

it is a bacteriostatic which prevents cell growth and replication

Question 10

What effect can penicillin have on oral contraceptives?

Answer 10

oral contraceptives rely on bacteria in the gut that cleave estrogen-glucoronide conjugates and allow for estrogenic reabsorption. These natural flora are often killed by penecillin, causing concern that the drug half-life may be decreased when on antibiotics

Question 11

Can penicillin V be given orally? Penicillin G?

Answer 11

Yes. It is acid stable, unlike penicillin G, which is destroyed in the GI tract so can only be given IM

Question 12

What are aminopenicillins?

Answer 12

Include ampicillin and amoxicillin. Synthetic penicillins that can be given enterally or parenterally.

Question 13

What are penicillinase-resistant penicillins?

Answer 13

dicloxacillin, methicillin, oxacillin, nafcillin. They contain side groups that protect the drug from bacterial B-lactamases.

Question 14

How is dicloxacillin usually given?

Answer 14

orally

Question 15

How are methicillin, oxacillin, and nafcillin usually given?

Answer 15

parenterally.

Question 16

What are antipseudomonal penicillins?

Answer 16

extended-spectrum penicillins. Inlcude carbenicillin, ticarcillin, mezlocillin and piperacillin. All except carbenicillin must be given parenterally.

Question 17

What type of infections is oral carbenicillin useful for?

Answer 17

only reaches therapeutic levels in urinary tract

Question 18

What are irreversible inhibitors of B-lactamases?

Answer 18

clavulanic acid, sulbactam, tazobactam. They inhibit B-lactamases to protect penicillins.

Question 19

What are cephalosporins?

Answer 19

structurally resemble penicillin and possess B-lactam backbone, but are very stable to pH changes and can be taken with or without food.

Question 20

If a patient reports they are allergic to penicillin is it ok to give them cephalosporins?

Answer 20

no. Cephalosporins are very similar to penicillin structurally and will likely cause an adverse reaction

Question 21

What are carbapenems?

Answer 21

include imipenem, doripenem, ertapenem, and meropenem. Bactericidals that inhibit cell wall synthesis. B-lactam with a different structure so resistant to B-lactamases

Question 22

What are telavancin and vancomycin?

Answer 22

interfere with cell wall by blocking polymerization and cross-linking of peptidoglycan by binding to the D-Ala-D-Ala portion of cell walls. Telavancin also disrupts membrane potential and changes cell permeability because of lipophilic side chain.

Question 23

What is cycloserine?

Answer 23

inhibits cell wall synthesis in Gram- bacteria. Reserved for mycobacterium tuberculosis that is resistant to first-line antitubercular drugs

Question 24

What is polymyxin B?

Answer 24

bactericidal for Gram- (except Proteus). It is a cationic detergent that disrupts lipoproteins in cell walls, thus increasing membrane permeability.

Question 25

Which types of drugs interfere with bacterial protein synthesis?

Answer 25

aminoglycosides, macrolides, and tetracyclines

Question 26

What are aminoglycosides?

Answer 26

amikacin, gentamicin, kanamycin, netilmicin, streptomycin, tobramycin, and neomycin. Bind to 30S ribosomal subunits to interfere with protein synthesis. Interfere with formation of initiation complex, misread mRNA and miscode AAs in growing peptides, and cause ribosomes to separate from mRNA, creating monosomes.

Question 27

Can aminoglycosides be given orally?

Answer 27

no they are too water soluble. They are usually given parenterally. Penetrate the CNS and have short half-lives.

Question 28

Where can aminoglycosides accumulate?

Answer 28

inner ear and renal cortex., causing nephro and oto-toxicity

Question 29

What is the postantibiotic effect?

Answer 29

because aminoglycosides have a translational mechanism, microorganisms continue to die even after drug concentration declines.

Question 30

Will aminoglycosides kill gram+ bacteria?

Answer 30

No, they are only effective for gram- bacterium

Question 31

How can bacteria develop resistance to aminoglycosides?

Answer 31

they can alter receptor proteins on their ribosomes to prevent drug binding. They can also attack the aminoglycosides themsives with enzymes or other reactions. Resistance is especially common in anaerobes

Question 32

What are tetracyclines?

Answer 32

all drugs that end in -cycline. bacteriostatics. inhibit protein synthesis through reversible binding to bacterial 30S ribosomal subunits to prevent new incoming AAs, thus interfering with peptide growth.

Question 33

Which is the first line tetracycline used?

Answer 33

tigecycline

Question 34

What are the common modes of resistance to tetracyclines and which tetracycline can combat this?

Answer 34

efflux pumps and ribosomal protection.

glycylcycline can bypass these.

Question 35

How is doxycycline metabolized?

Answer 35

excreted in feces so safe for renal dysfunction patients

Question 36

How do gram+ bacteria become resistant to tetracyclines? Gram-?

Answer 36

efflux pumping.

Gram- prevent drug entry to membrane

Question 37

What is chloramphenicol?

Answer 37

bacteriostatic that binds to 50S ribosomal subunit and blocks linkage of incoming AAs by interfering with enzyme peptidyl transferase.

Question 38

How is chloramphenicol metabolized?

Answer 38

via glucoronidation. It accumulates in patients with hepatic disease, causing gray baby or gray adult, a syndrome in which people fail to eat, thrive, and become pale and cyanotic.

Question 39

What are Lincosamides?

Answer 39

clindamycin. interrupts protein synthesis by binding to 50S ribosomal subunits and preventing translocation of incoming AAs from ribosomal site A to site P.

Question 40

What are macrolides?

Answer 40

erythromycins and azithromycin. inhibit protein synthesis by binding to same site on prokaryotic ribosomal 50 S subunits as clindamycin and chloramphenicol. Prevent ranslocation of AAs from A site to P site. They can interefere with these other drugs and cause cross-resistance.
Can be either bacteriostatic or cidal

Question 41

How do bugs become resistant to macrolides?

Answer 41

they alter membrane permeability, methylate 50 S subunits to prevent binding, or enzymatically attack the drug.

Question 42

What are the adverse effects of erythromycins?

Answer 42

GI distress. Cholestatic hepatitis, which can potentiate the actions of other drugs by inhibiting P450 3A4 metabolism. Prolongs QT interval on EKGs.

Question 43

Which erythyromycin-like drug does not increase QT interval?

Answer 43

azithromycin

Question 44

What are ketolides?

Answer 44

telithromycin. Inhibits 50 S ribosomal subunits. Binds to two separate domains within the 50 S to decrease chance of resistance. It is also a poor substrate for efflux pumps making it even more powerful.

Question 45

What is retapamulin?

Answer 45

topical ointment pleuromutilin antibiotic that disrupts protein synthesis by interfereing with peptidyl transferase by binding to a unique site on 50S ribosomal subunit, and blocks P-site interactions

Question 46

What is mupirocon?

Answer 46

topical ointment antibiotic that inhibits tRNA that transports isoleucine. Causes no cross-resistances because the mechanism is different than all other antimicrobials.

Question 47

What is linezolid?

Answer 47

interferes with protein synthesis by binding to a unique site on the 50 S subunit, preventing formation of the 70 S complex.

Question 48

What are streptogramins?

Answer 48

combination of quinupristin and dalfopristin. acts at bacterial ribosomes and interferes with protein synthesis. Used to treat life-threatening infections by vancomycin-resistant enterococci and MRSA skin infections

Question 49

What is quinupristin?

Answer 49

a streptogramin that irreversibly blocks ribosomes and inhibits late phases of protein synthesis

Question 50

What is dalfopristin?

Answer 50

a streptogramin that inhibits early phases of protein synthesis.

Question 51

Describe the pathway of bacterial folic acid synthesis.

Answer 51

dihyrdopteridine and PABA converted to dihydropteroic acid by dihydropteroate synthetase. Dihydropteroic acid and glutamic acid form dihydrofolic acid.
Dihydrofolic acid converted to tetrahydrofolic acid by dihydrofolate reductase.

Question 52

What are sulfonamides?

Answer 52

compete with para-aminobenzoic acid at the first step of folic acid pathway

Question 53

What kind of drugs can sulfonamides interfere with?

Answer 53

sulfonamides are highly protein-bound and can displace other drugs that are protein-bound, such as warfarin. Can damage fetus in pregnant women because it displaces bilirubin.

Question 54

How does resistance to sulfonamides develop?

Answer 54

reduced bacterial uptake.
alternative metabolic pathways of folic acid
production of excessive para-aminobenzoic acid to compete with the drug.
altering dihydropteroate synthase to prevent drug binding

Question 55

How are sulfonamides metabolized?

Answer 55

hepatically, then renally excreted.

Question 56

What is trimethoprim?

Answer 56

inhibits dihydrofolate reductase, the enzyme that catalyzes the last step of bacterial folic acid synthesis.

Question 57

How does trimethoprim resistance develop?

Answer 57

reduced bacterial uptake
altered dihydrofolate reductase to prevent drug binding
overproduction of dihydrofolate reductase

Question 58

What are fluoroquinolones?

Answer 58

drugs ending in -floxacin. interefere with bacterial DNA synthesiss by inhibiting DNA gyrase or topoisomerase IV.

Question 59

What is DNA gyrase?

Answer 59

bacterial enzyme that is responsible for relaxing supercoiled DNA.

Question 60

What is topoisomerase IV?

Answer 60

enzyme involved in separating DNA into daughter cells during replication.

Question 61

Why is gemifloxacin special?

Answer 61

it inhibits both DNA gyrase and topoisomerase IV, making it hard to develop resistance to.

Question 62

What are lipopeptides?

Answer 62

daptomycin. binds to bacterial membrane, causing rapid epolarization of cell, halting DNA, RNA and protein synthesis, killing the ell.

Question 63

How is daptomycin metabolized?

Answer 63

excreted unchanged in urine

Question 64

What is metronidazole?

Answer 64

selectively absorbed by anaerobic bacteria and sensitive protozoa. It is reduced by reacting with ferrodoxin, causing production of toxic metabolites that inhibit DNA synthesis and degrade existing DNA, as well as nucleic acid synthesis, killing the cell.

Question 65

What is nitazoxanide?

Answer 65

intereferes with pyruvate/ferrodoxin oxidoreductase enzyme-dependent electron transfer, which is essential for anaerobic metabolism

Question 66

What is tinidazole?

Answer 66

causes cytotoxicity by damaging DNA and inhibiting synthesis.

Question 67

What are the downsides of metronidazoe, nitazoxanide, and tinidazole?

Answer 67

carcinogenic and cant be used during pregancy.

Question 68

What is rifaximin?

Answer 68

inhibits bacterial RNA synthesis by binding to DNA-dependent RNA polymerase

Question 69

How is rifaximin metabolized?

Answer 69

excreted unchanged in feces. Does not interfere with CYP450

Question 70

Why are mycobacteria hard to treat?

Answer 70

they grow slowly, can lie dormant, have thick impermeable cell walls, can reside within host cels, and quickly develop resistances.

Question 71

What is isoniazid?

Answer 71

inhibits synthesis of mycolic acids, essential components of mycobacterial cell walls.

Question 72

How is isoniazid metabolized?

Answer 72

acylation.

Question 73

What is rifampin?

Answer 73

inhibits bacterial RNA polymerase and prevents transcription. It is a potent inducer of drug metabolism and alters the plasma levels of many drugs

Question 74

What is pyrazinamide?

Answer 74

lowers pH in the tubercule cavity to inhibit growth of mycobacterium

Question 75

What is ethambutol?

Answer 75

inhibits RNA synthesis and decreases replication of tubercle bacilli

Question 76

What is clofazimine?

Answer 76

binds to mycobacterial DNA and inhibits RNA polymerase actions. Has very slow actions and require minimum of 2 years treatment, often for life.