Resistance to b-lactam antibiotics within the Enterobacteriaceae Paul D. Fey, Ph. D. University of Nebraska Medical Center.

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Transcript Resistance to b-lactam antibiotics within the Enterobacteriaceae Paul D. Fey, Ph. D. University of Nebraska Medical Center. 

Resistance to b-lactam antibiotics
within the Enterobacteriaceae
Paul D. Fey, Ph. D.
University of Nebraska Medical Center
Objectives
Understand the mechanisms of b-lactam resistance in GNRs
Understand how b-lactamases are transferred.
Know the characteristics of three classes of b-lactamases
ESBLs
AmpC
KPC
Mechanism of b-Lactam Action
•
•
Bactericidal
•
b-lactams bind and inhibit
penicillin binding proteins
(PBPs)
•
PBPs are responsible for
assembly, maintenance, and
regulation of peptidoglycan
(cell wall) metabolism.
•
Disruption of peptidoglycan
synthesis
Mechanisms of GNR Resistance to blactams
Porin-mediated resistance
Antibiotic does not reach target.
b-lactamase
Majority of resistance to b-lactam antibiotics mediated through
b-lactamases.
Many different types of b-lactamases with different substrate
(antibiotic) specificities.
Common b-Lactamases in GNRs
NEJM 352:4. 2005
How are b-lactamases transferred?
Transfer of Plasmids.
Extrachromosomal DNA
Usually carry antibiotic
resistance genes
These genes can be encoded
on transposons, which are
also mobile.
TEM-1 has been transferred
between the Enterobacteriaceae
and H. influenzae and the
Neisseriaceae
b-lactam antibiotics
Penicillins
Ampicillin
Piperacillin
Beta-lactam/beta-lactamase inhibitors
Ampicillin/sulbactam
Amoxicillin/clavulanate
Ticarcillin/clavulanate
Piperacillin/Tazobactam
b-lactam antibiotics
First Generation cephalosporins
Cefazolin
Cephalothin
Second Generation oral antibiotics
Cefuroxime (many others)
Second Generation cephamycins
Cefoxitin
Cefotetan
b-lactam antibiotics
Third generation cephalosporins
Cefotaxime
Ceftriaxone
Ceftazidime
Fourth generation cephalosporins
Cefepime
Monobactams
Aztreonam
b-lactam antibiotics
Carbapenems
Imipenem
Meropenem
Ertapenem
Doripenem
ESBLs
Enzymes capable of hydrolyzing third-generation
cephalosporins.
Plasmid-mediated
Derivatives (mutants) of original TEM-1 and SHV-1 blactamases.
Susceptible in-vitro to clavulanate and cefoxitin.
E. coli susceptibility Report
Ampicillin
R
Piperacillin
R
Cephalothin
R
Cefoxitin
S
Cefotaxime
R
Ceftazidime
I
Ceftriaxone
R
Aztreonam
I
Cefepime
S
Pip/Tazo
I
Imipenem
S
Laboratory detection of ESBLs
Resistance or intermediate to third-generation
cephalosporins.
Cefoxitin and cefotetan susceptible.
ESBL disk diffusion test (clavulanate inhibition)
E-test ESBL strip
Confirmatory ESBL MIC test (Microscan)
K. pneumoniae, K. oxytoca, E. coli, P. mirabilis
E. coli ESBL susceptibility
report
Ampicillin
R
Piperacillin
R
Cephalothin
R
Cefoxitin
S
Cefotaxime
R
Ceftazidime
IR
Ceftriaxone
R
Aztreonam
IR
Cefepime
SR
Pip/Tazo
I
Imipenem
S
Enterobacter cloacae susceptibility
report
Ampicillin
R
Piperacillin
R
Cephalothin
R
Cefoxitin
R
Cefotaxime
R
Ceftazidime
I
Ceftriaxone
R
Aztreonam
I
Cefepime
S
Pip/Tazo
R
Imipenem
S
AmpC b-lactamases
Chromosomally encoded-cell wall turnover
Enterobacter sp., Citrobacter sp., Serratia sp.,
Morganella sp. Even E. coli.
Third-generation cephalosporins are not good
inducers of AmpC b-lactamase
Third-generation cephalosporin resistant strains
are derepressed—meaning that the AmpC blactamase is not inducible anymore.
AmpC mutants are cephamycin resistant
E. coli susceptibility report
Ampicillin
R
Piperacillin
R
Cephalothin
R
Cefoxitin
R
Cefotaxime
R
Ceftazidime
I
Ceftriaxone
R
Aztreonam
I
Cefepime
S
Pip/Tazo
R
Imipenem
S
•What do you do?
Other concepts to know about
AmpC b-lactamases
They are transferred on plasmids as well.
CMY, LAT, BIL, MOX, ACC, FOX, DHA
Almost all ceftriaxone-resistant Salmonella isolated in
the United States carry a plasmid-mediated AmpC blactamase called CMY-2.
E. coli UTI isolates carry plasmid-mediated AmpC blactamases
Mechanisms of Carbapenem
Resistance
Carbapenemase hydrolyzing enzymes
Porin loss “OprD”
ESBL or AmpC + porin loss
Carbapenemases
The most versatile family of b-lactamases
Two major groups based on the hydrolytic mechanism at the
active site
Serine at the active site: class A and D
Zinc at the active site: class B
All carbapenemases hydrolyze penicillins, extended spectrum
cephalosporins, and carbapenems
Carbapenemase Classification
Molecular
Class
Functional
Group
Aztreonam
Hydrolysis
EDTA
Inhibition
Clavulanate
Inhibition
A
B
D
2f
3
2d
+
-
-
-
+
-
+
-

Klebsiella pneumoniae
Ampicillin
R
Cefepime
S
Piperacillin
R
Pip/Tazo
R
Cephalothin
R
Imipenem
I
Cefoxitin
S
Cefotaxime
R
Ceftazidime
I
Ceftriaxone
R
Aztreonam
I
Might need to screen for
carbapenemase
Carbapenemases Class A
First identified 1982 in UK
Four major families
Chromosomally encoded
Serratia marcescens enzyme (SME)
Not metalloenzyme carbapenemases (NMC)
Imipenem-hydrolyzing b-lactamases (IMI)
Plasmid encoded
Klebsiella pneumoniae carabapenemases (KPC)
Guiana Extended-Spectrum (GES)
KPC
Molecular class A and functional group 2f
Inhibited by clavulanic acid but not by EDTA
Confers resistance to ALL b-LACTAM antibiotics
Plasmid-encoded
Associated with other resistant genes
(aminoglycosides, fluoroquinolones)
Transferable
KPC Epidemiology
Predominantly in K. pneumoniae (KP)
Reported in Enterobacter spp., Salmonella spp., E. coli, P.
aeruginosa, and Citrobacter spp.
First identified in KP clinical isolate from North Carolina in
1996 (KPC-1)
KPC-2, -3, and -4 have been reported.
Mostly identified on the East cost
KPC Epidemiology
KPC producers have been identified outside USA
France
Brazil
Columbia
China
Not detected at the University of Nebraska Medical
Center
45 ESBL-like isolates collected-6 had elevated
carbapenem MICs-none contained KPC
When to Suspect a KPC Producer
Enterobacteriaceae
Resistance to extended spectrum cephalosporins (cefotaxime,
ceftazidime, and ceftriaxone)
Variable susceptibility to cephamycins (cefoxitin, cefotetan)
Carbapenem MICs  2 g/ml
How to Detect a KPC Producer
Antimicrobial susceptibility tests (ASTs)
MIC
Carbapenem MIC  2 g/ml
Disk diffusion
Carbapenem: “I” or “R”
Among carbapenems, ertapenem:
Most sensitive
less specific
Anderson et al. 2007. JCM 45 (8): 2723
How to Detect a KPC Producer
Commercial systems
Inconsistent detection of KPC-producing isolates
Tenover et al. 2006. EID. 12:1209-1213
Breakpoints do not match CLSI recommendations
Definitive ID of a KPC Producer
Modified Hodge test
100% sensitivity to detect KPC
1. Swab E. coli ATCC 25922
onto plate to create lawn
Place imipenem disk in
center.
pos
pos
pos
2. Streak test isolates from
edge of disk to end of plate.
3. Incubate overnight.
4. Look for growth of E. coli
around test isolate streak indicates carbapenemhydrolyzing enzyme.
neg
neg
neg
meropenem ertapenem imipenem
Janet Hindler, What’s New in the 2008 CLSI Standards for
(AST)?
Definitive ID of a KPC Producer
PCR
The method of choice to confirm KPC
Alternative Treatment for a KPC
Producer
Tigecycline (100.0% effective)
Colistin (88.1% effective)
SENTRY report. AAC. 2008. Feb;52(2):570-3
Minocycline
A strategy for susceptibility testing is needed
Conclusions
ESBL detection—CLSI guidelines present
Need to have guidelines to detect ESBLs present in
other species besides E. coli, K. pneumoniae, K. oxytoca,
and P. mirabilis.
AmpC detection-No guidelines available
KPC detection-Not widespread, need to have lower
concentrations of carbapenems on panels.