Resistance (Kays)

Question 1

What are PBPs?

Answer 1

penicillin-binding proteins; the enzymes vital for cell wall synthesis, cell shape, and structural integrity

Question 2

What is the most important PBP and why?

Answer 2

transpeptidase
it catalyzes final cross link between sugar and peptide in peptidoglycan molecule

Question 3

What are the 3 types of genetic exchange that lead to resistance?

Answer 3

1. conjugation
2. transduction
3. transformation

Question 4

What is conjugation?

Answer 4

direct contact or mating via sex pilli (most common)

Question 5

What is transduction?

Answer 5

genes transferred via bacteriophages (viruses) between bacteria

Question 6

What is transformation?

Answer 6

uptake of “free floating” DNA from the environment then gets integrated into the hosts DNA

Question 7

Plasmids or transposons:

• transferred from organism to organism
• self-replicating
• extrachromosomal DNA

Answer 7

plasmid

Question 8

What are the 3 main mechanisms of bacterial resistance?

Answer 8

1. enzymatic inactivation
2. alteration of target site
3. altered permeability of bacterial cell

Question 9

Give examples of antibiotic resistance via enzymatic inactivation.

Answer 9

• beta-lactamases
• aminoglycoside-modifying enzyme

Question 10

Give examples of antibiotic resistance via alteration of the target site.

Answer 10

• PBPs
• cell wall precursors
• ribosomes
• DNA gyrase/topoisomerase

Question 11

Give examples of antibiotic resistance via altered permeability of the bacterial cell.

Answer 11

• efflux pumps
• porin changes

Question 12

What are beta-lactamases and how do they work?

Answer 12

they inactivate beta-lactam antibiotics by hydrolyzing/splitting the amide bond

Question 13

What gene in beta lactamases are we expected to know?

Answer 13

AmpC

Question 14

Which bacteria typically contain AmpC?

Answer 14

SPICE

(serratia, pseudomonas, indole-positive proteus, citrobacter, enterobacter)

Question 15

What drugs are beta-lactamase inhibitors?

Answer 15

• tazobactam
• clavulanic acid
• sulbactam (resistance to the SPICE organisms has happened)
• avibactam (lactamase inhibited in SPICE by this drug does happen)

Question 16

How is AmpC induced?

Answer 16

the gene is normally repressed; when a beta-lactam is present, the gene gets DEREPRESSED which causes beta-lactamase production

when inducer is removed, the gene gets repressed again

Question 17

What antibiotics are strong inducers of AmpC?

Answer 17

• Penicillin G
• Ampicillin
• 1st gen cephalosporins
• Cefoxitin
• Clavulanic acid = potent inducer of AmpC beta-lactamases

Question 18

SPICE are typically constitutively making beta-lactamases… what antibiotics should we avoid using because of developed resistance?

Answer 18

avoid 3rd generation cephalosporins

Question 19

ESBLs are seen most frequently in what bacteria?

Answer 19

• K. pneumoniae
• E.Coli

Question 20

ESBLs are _____ mediated and tend to hydrolyze _______ and ______.

Answer 20

plasmid mediated;
hydrolyze PCNs and cephalosporins

Question 21

What drug may be useful for the CTX-M enzyme of ESBLs?

Answer 21

tazobactam

Question 22

What is normally the treatment of choice for ESBLs?

Answer 22

carbapenems

Question 23

What are the 3 most important carbapenemases?

Answer 23

• KPC (klebsiella pneumoniae carbapenemase)
• OXA-type (seen in acinetobacter)
• NDM (New Dehli metallo-beta-lactamases)

Question 24

True or false: CRE can last in the body for a maximum of 6 months.

Answer 24

False; carbapenemase-resistant enzymes can last in the body for 12 months (bacteria can get spread allllll over)

Question 25

NDM-1 is resistant to all antibiotics except what?

Answer 25

Colistin

Question 26

What is the best way to treat CRE bugs?

Answer 26

serine carbapenemase = ceftazidime + avibactam

NDM-1/metallo-beta-lactamase = aztreonam

Question 27

What are the aminoglycoside modifying enzyme mechanisms? (3 total)

Answer 27

• acetylation
• nucleotidylation
• phosphorylation

Question 28

Aminoglycoside-modifying enzyme:
they modify the structure by transferring an indicated chemical group to a ___________;
this will impair ______ and/or _______

Answer 28

to a specific side chain
impair cellular uptake/binding to ribosome

Question 29

Bifunctional enzyme that modifies aminoglycosides:
mainly seen in what bacteria?
the enzyme leads to high level resistance to ______ but not _______

Answer 29

mainly seen in ENTEROCOCCI
resistance to gentamicin
not resistant to streptomycin

Question 30

Resistance mechanisms:
What are examples of altered target sites - PBPs?

Answer 30

• S. Pneumoniae resistant to PCN and cephalosporins
• Staphylococci is resistant to methicillin via mecA gene

Question 31

Methicillin resistance is seen in which antibiotics because of what gene?

Answer 31

staphylococci; mecA gene

Question 32

The mecA gene encodes for production of a new PBP that is called ______.

Answer 32

PBP2A or PBP2’

Question 33

How does vancomycin normally work as an antibiotic?

Answer 33

inhibits cell wall synthesis by binding to D-alanine-D-alanine terminus of pentapeptide (a peptidoglycan precursor)

Question 34

What bacteria is known to have vancomycin resistance through the VanA gene?

Answer 34

S. Aureus = VRSA

Question 35

How does the VanA gene cause resistance?

Answer 35

D-Ala-D-Ala part becomes D-Ala-D-Lac and vancomycin can’t bind

Question 36

Altered ribosomal targets lead to resistance in what antibiotics?

Answer 36

• macrolides
• azolides
• aminoglycosides
• tetracyclines
• clindamycin

Question 37

Altered DNA gyrase/topoisomerases lead to resistance in which drug class?
This resistance is seen in what organisms most?

Answer 37

fluoroquinolones
seen in S. Pneumoniae and gram-negative

Question 38

What are some drugs that have had reported chromosomal/plasmid mediated resistance with efflux pumps?

Answer 38

• Macrolides/Azolides
• Carbapenems

Question 39

What bug has had reported efflux pump resistance to macrolides/azolides?

Answer 39

S. Pneumoniae

Question 40

What bug has had reported efflux pump resistance to carbapenems?

Answer 40

P. Aeruginosa

Question 41

For P. Aerugonisa that’s resistant to carbapenems, which carbapenem is best to use? (because it does not get effluxed out)

Answer 41

imipenem

Question 42

Porins will typically allow a drug to go through it when the drug is…

• small or large?
• more or less negative?
• hydrophobic or hydrophillic?

Answer 42

• small
• less negative charges (prefers zwitterionic charge)
• hydrophillic

Question 43

Mutations in porins are seen most commonly in what organisms?

Answer 43

Enterobacteriaceae and P. Aeruginosa

Question 44

What resistance mechanisms are most common for beta-lactam drugs?

Answer 44

• hydrolysis (aka beta lactamase)
• altered target site
• efflux

Question 45

What resistance mechanisms are common for aminoglycosides?

Answer 45

• aminoglycoside modifying enzymes
• altered target site
• efflux

Question 46

What resistance mechanisms are most common for glycopeptides (aka vancomycin)?

Answer 46

altered cell wall precursors (D-Ala-D-Lac)

Question 47

What organism has intrinsic resistance to beta-lactams?

Answer 47

Mycoplasma

Question 48

What organisms have intrinsic resistance to vancomycin?

Answer 48

gram-negative (no peptidoglycan)

Question 49

What organism has intrinsic resistance to cephalosporins?

Answer 49

enterococci

Question 50

What organisms have intrinsic resistance to aminoglycosides?

Answer 50

anaerobes

Question 51

P. Aeruginosa: common resistance mechanisms?

Answer 51

• ESBLs
• Efflux Pump
• Reduced outer membrane permeability

Question 52

K. Pneumoniae: common resistance mechanisms?

Answer 52

carbapenemases

Question 53

E. Coli: common resistance mechanisms?

Answer 53

ESBL

Question 54

S. Aureus: common resistance mechanisms?

Answer 54

• Methicillin resistance (mecA)
• Vancomycin resistance

Question 55

Enterococci: common resistance mechanisms?

Answer 55

vancomycin resistance via altered cell wall precursors