Β-lactamases: Difference between revisions
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Β-lactamases
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*The most common β-lactamase is TEM-1 |
*The most common β-lactamase is TEM-1 |
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*The most common carbapenemases in the US are KPCs, followed by NDM and OXA-48-like carbapenemases |
*The most common carbapenemases in the US are KPCs, followed by NDM and OXA-48-like carbapenemases |
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== Common β-Lactamases == |
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{| class="wikitable" |
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!β-lactamase[[CiteRef::cantón2008ir]] |
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!AMX |
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!AMC |
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!TIC |
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!TIM |
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!PIP |
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!TZP |
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!CFZ |
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!FOX |
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!CRO |
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|- |
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|TEM-1 |
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|R |
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|S |
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|R |
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|S |
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|I/R |
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|S |
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|S/I/R |
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|S |
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|S |
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|- |
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|TEM-1 hyperproduction |
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|R |
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|I/R |
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|R |
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|I/R |
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|R |
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|S/I/R |
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|I/R |
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|S |
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|S |
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|- |
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|OXA-1 |
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|R |
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|I/R |
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|R |
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|I/R |
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|R |
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|I/R |
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|R |
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|S |
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|S |
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|- |
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|IRT type |
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|R |
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|I/R |
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|I/R |
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|I/R |
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|S/I/R |
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|S/I/R |
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|S |
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|S |
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|S |
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|- |
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|CMT type |
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|R |
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|R |
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|R |
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|I/R |
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|R |
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|I/R |
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|I/R |
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|S |
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|I/R |
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|- |
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|ESBL type |
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|R |
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|S/I |
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|R |
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|S |
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|I/R |
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|S/I |
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|R |
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|S |
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|R |
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|- |
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|[[AmpC β-lactamase|AmpC hyperproduction]] |
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|R |
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|R |
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|I/R |
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|I/R |
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|I/R |
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|I/R |
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|R |
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|I/R |
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|S/I/R |
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==Management== |
==Management== |
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*Antibiotic therapy tailored to the resistance pattern |
*Antibiotic therapy tailored to the resistance pattern |
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*[[Carbapenems]], [[aminoglycosides]], [[fluoroquinolones]], and [[TMP-SMX]] typically work well |
*[[Carbapenems]], [[aminoglycosides]], [[fluoroquinolones]], and [[TMP-SMX]] typically work well |
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*See also [[Carbapenem-resistant organisms]] |
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==Further Reading== |
==Further Reading== |
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Latest revision as of 17:46, 19 September 2024
Background
- Includes a spectrum of molecules that hydrolyze β-lactams, from penicillins to carbapenems
- See also extended-spectrum β-lactamases and carbapenemases
Ambler Classification
- Classification based on amino acid sequences rather than function
| Class | Binding Site | Examples | Inhibitors |
|---|---|---|---|
| A | serine | TEM, SHV, KPC, CTX-M, GES | clavulanic acid, tazobactam, avibactam, vaborbactam, relebactam |
| B | metallo | VIM, NDM, IMP | |
| C | serine | AmpC, P99 | avibactam, vaborbactam, relebactam |
| D | serine | OXA (oxacillinase) enzymes | avibactam (OXA-48), ±clavulanic aciid |
Serine β-lactamases
- Amber classes A, B, and C are the serine β-lactamases
- Contain a serine residue at the active site
- Class A: inhibited by clavulanic acid or tazobactam
- Constitutively expressed plasmid
- Most common ESBL in Gram-negative bacteria
- Resistance to 2nd and 3rd generation cephalosporins
- Common in E. coli, Klebsiella, and Proteus spp.
- Examples include:
- Penicillinases: TEM-1 (common in GNBs), SHV-1
- ESBLs: CTX-M, TEM-3
- Carbapenemases: K. pneumoniae carbapenemase (KPC)
- Class C: not inhibited by clavulanic acid or EDTA, resistant to cefoxitin, inhibited by cloxicillin in vitro
- AmpC = chromosomal
- Often an inducible AmpC gene present in the genome
- Common in Citrobacter, Serratia, and Enterobacter
- Class D: not inhibited by EDTA, variably inhibited by clavulanic acid; hard to identify
- Common in Pseudomonas
- Difficult to detect with routine screening
- Examples include:
- ESBLs: OXA-11
- Carbapenemases: OXA-23, OXA-48
Metallo-β-lactamases
- Ambler Class B are the metallo-β-lactamases
- Contain a zinc ion at the active site
- Inhibited by EDTA, not inhibited by clavulanic acid
- Examples include:
- Carbapenemases:
- New Delhi metallo-beta-lactamase (NDM-1)
- Imipenemases (IMP)
- Verona integron-encoded metallo-β-lactamases (VIM)
- L1 β-lactamase, present in the Stenotrophomonas maltophilia chromosome
- Carbapenemases:
Bush-Jacoby Classification
| Group | Ambler | Substrates | Inhibitors | Definition | Examples | |
|---|---|---|---|---|---|---|
| CA/TZB | EDTA | |||||
| Group 1: Cephalosporinases | ||||||
| 1 | C | cephalosporins | — | — | hydrolyzes cephalosporins better than benzylpenicillin, and hydrolyzes cephamycins | E. coli AmpC, P99, ACT-1, CMY-2, FOX-1, MIR-1 |
| cephalosporins | — | — | increased hydrolysis of ceftazidime and other oxyimino-β-lactams | GC1, CMY-37 | ||
| Group 2: β-Lactamases | ||||||
| 2a | A | penicillins | yes | — | hydrolyzes benzylpenicillin better than cephalosporins | PC1 |
| 2b | penicillins and early cephalosporins | yes | — | hydrolyzes benzylpenicillin similar to cephalosporins | TEM-1, TEM-2, SHV-1 | |
| 2be | extended-spectrum cephalosporins, monobactams | yes | — | increased hydrolysis of oxyimino-β-lactams (third-generation plus monobactams) | TEM-3, SHV-2, CTX-M-15, PER-1, VEB-1 | |
| 2br | penicillins | — | — | resistance to clavulanic acid, sulbactam, and tazobactam | TEM-30, SHV-10 | |
| 2ber | extended-spectrum cephalosporins, monobactams | — | — | increased hydrolysis of oxyimino-β-lactams plus resistance to clavulanic acid, sulbactam, and tazobactam | TEM-50 | |
| 2c | carbenicillin | yes | — | increased hydrolysis of carbenicillin | PSE-1, CARB-3 | |
| 2ce | carbenicillin, cefepime | yes | — | increased hydrolysis of carbenicillin, cefepime, and cefpirome | RTG-4 | |
| 2d | D | cloxacillin | variable | — | increased hydrolysis of cloxacillin or oxacillin | OXA-1, OXA-10 |
| 2de | extended-spectrum cephalosporins | variable | — | hydrolyzes cloxacillin or oxacillin and oxyimino-β-lactams | OXA-11, OXA-15 | |
| 2df | carbapenems | variable | — | hydrolyzes cloxacillin or oxacillin and carbapenems | OXA-23, OXA-48 | |
| 2e | A | extended-spectrum cephalosporins | yes | — | hydrolyzes cephalosporins, and inhibited by clavulanic acid but not aztreonem | CepA |
| 2f | carbapenems | variable | — | increased hydrolysis of carbapenems, oxyimino-β-lactams, cephamycins | KPC-2, IMI-1, SME-1 | |
| Group 3: Carbapenemases | ||||||
| 3a | B | carbapenems | — | yes | broad-spectrum hydrolysis including carbapenems but not monobactams | IMP-1, VIM-1, CcrA, IND-1, L1, CAU-1, GOB-1, FEZ-1 |
| 3b | carbapenems | — | yes | preferential hydrolysis of carbapenems | CphA, Sfh-1 | |
Epidemiology
- The most common β-lactamase is TEM-1
- The most common carbapenemases in the US are KPCs, followed by NDM and OXA-48-like carbapenemases
Common β-Lactamases
| β-lactamase1 | AMX | AMC | TIC | TIM | PIP | TZP | CFZ | FOX | CRO |
|---|---|---|---|---|---|---|---|---|---|
| TEM-1 | R | S | R | S | I/R | S | S/I/R | S | S |
| TEM-1 hyperproduction | R | I/R | R | I/R | R | S/I/R | I/R | S | S |
| OXA-1 | R | I/R | R | I/R | R | I/R | R | S | S |
| IRT type | R | I/R | I/R | I/R | S/I/R | S/I/R | S | S | S |
| CMT type | R | R | R | I/R | R | I/R | I/R | S | I/R |
| ESBL type | R | S/I | R | S | I/R | S/I | R | S | R |
| AmpC hyperproduction | R | R | I/R | I/R | I/R | I/R | R | I/R | S/I/R |
Management
- Antibiotic therapy tailored to the resistance pattern
- Carbapenems, aminoglycosides, fluoroquinolones, and TMP-SMX typically work well
- See also Carbapenem-resistant organisms
Further Reading
- Updated Functional Classification of β-Lactamases. Antimicrob Agents Chemother. 2010;54(3):969-976. doi: 10.1128/AAC.01009-09
References
- ^ R. Cantón, M.I. Morosini, O. Martin, S. de la Maza, E. Gomez G. de la Pedrosa. IRT and CMT β-lactamases and inhibitor resistance. Clinical Microbiology and Infection. 2008;14:53-62. doi:10.1111/j.1469-0691.2007.01849.x.
