Beta-lactam antibiotic

Beta-lactam antibiotic

β-lactam antibiotics are a broad class of antibiotics that include penicillin derivatives, cephalosporins, monobactams, carbapenems, and β-lactamase inhibitors, that is, any antibiotic agent that contains a β-lactam nucleus in its molecular structure. They are the most widely-used group of antibiotics available.

Clinical use

β-lactam antibiotics are indicated for the prophylaxis and treatment of bacterial infections caused by susceptible organisms. At first, β-lactam antibiotics were mainly active only against Gram-positive bacteria, yet the recent development of broad-spectrum β-lactam antibiotics active against various Gram-negative organisms has increased their usefulness.

Mode of action

β-Lactam antibiotics are bactericidal, and act by inhibiting the synthesis of the peptidoglycan layer of bacterial cell walls. The peptidoglycan layer is important for cell wall structural integrity, especially in Gram-positive organisms. The final transpeptidation step in the synthesis of the peptidoglycan is facilitated by transpeptidases known as penicillin-binding proteins (PBPs).

β-lactam antibiotics are analogues of D-alanyl-D-alanine - the terminal amino acid residues on the precursor NAM/NAG-peptide subunits of the nascent peptidoglycan layer. The structural similarity between β-lactam antibiotics and D-alanyl-D-alanine facilitates their binding to the active site of penicillin-binding proteins (PBPs). The β-lactam nucleus of the molecule irreversibly binds to (acylates) the Ser403 residue of the PBP active site. This irreversible inhibition of the PBPs prevents the final crosslinking (transpeptidation) of the nascent peptidoglycan layer, disrupting cell wall synthesis.

Under normal circumstances peptidoglycan precursors signal a reorganisation of the bacterial cell wall and, as a consequence, trigger the activation of autolytic cell wall hydrolases. Inhibition of cross-linkage by β-lactams causes a build-up of peptidoglycan precursors, which triggers the digestion of existing peptidoglycan by autolytic hydrolases without the production of new peptidoglycan. As a result, the bactericidal action of β-lactam antibiotics is further enhanced.

Modes of resistance

By definition, all β-lactam antibiotics have a β-lactam ring in their structure. The effectiveness of these antibiotics relies on their ability to reach the PBP intact and their ability to bind to the PBP. Hence, there are 2 main modes of bacterial resistance to β-lactams, as discussed below.

The first mode of β-lactam resistance is due to enzymatic hydrolysis of the β-lactam ring. If the bacteria produces the enzymes β-lactamase or penicillinase, these enzymes will break open the β-lactam ring of the antibiotic, rendering the antibiotic ineffective. The genes encoding these enzymes may be inherently present on the bacterial chromosome or may be acquired via plasmid transfer, and β-lactamase gene expression may be induced by exposure to beta-lactams. The production of a β-lactamase by a bacterium does not necessarily rule out all treatment options with β-lactam antibiotics. In some instances, β-lactam antibiotics may be co-administered with a β-lactamase inhibitor.

However, in all cases where infection with β-lactamase-producing bacteria is suspected, the choice of a suitable β-lactam antibiotic should be carefully considered prior to treatment. In particular, choosing appropriate β-lactam antibiotic therapy is of utmost importance against organisms with inducible β-lactamase expression. If β-lactamase production is inducible, then failure to use the most appropriate β-lactam antibiotic therapy at the onset of treatment will result in induction of β-lactamase production, thereby making further efforts with other β-lactam antibiotics more difficult.

The second mode of β-lactam resistance is due to possession of altered penicillin-binding proteins. β-lactams cannot bind as effectively to these altered PBPs, and, as a result, the β-lactams are less effective at disrupting cell wall synthesis. Notable examples of this mode of resistance include methicillin-resistant "Staphylococcus aureus" (MRSA) and penicillin-resistant "Streptococcus pneumoniae". Altered PBPs do not necessarily rule out all treatment options with β-lactam antibiotics.

Common β-lactam antibiotics

Penicillins

Narrow-spectrum

*benzathine penicillin
*benzylpenicillin (penicillin G)
*phenoxymethylpenicillin (penicillin V)
*procaine penicillin
*oxacillin

Narrow-spectrum penicillinase-resistant penicillins

*methicillin
*dicloxacillin
*flucloxacillin

Narrow-spectrum β-lactamase-resistant penicillins

*temocillin

Moderate-spectrum

*amoxicillin
*ampicillin

Broad-spectrum

*co-amoxiclav (amoxicillin+clavulanic acid)

Extended-spectrum

*azlocillin
*carbenicillin
*ticarcillin
*mezlocillin
*piperacillin

Cephalosporins

First generation

Moderate spectrum.
*cephalexin
*cephalothin
*cefazolin

econd generation

Moderate spectrum with anti-"Haemophilus" activity.
*cefaclor
*cefuroxime
*cefamandole

econd generation cephamycins

Moderate spectrum with anti-anaerobic activity.
*cefotetan
*cefoxitin

Third generation

Broad spectrum.
*ceftriaxone
*cefotaxime
*cefpodoxime

Broad spectrum with anti-"Pseudomonas" activity.
*ceftazidime

Fourth generation

Broad spectrum with enhanced activity against Gram positive bacteria and beta-lactamase stability.
*cefepime
*cefpirome

Carbapenems

Broadest spectrum of beta-lactam antibiotics.
*imipenem (with cilastatin)
*meropenem
*ertapenem
*faropenem
*doripenem

Monobactams

Unlike other beta-lactams, the monobactam contains a nucleus with no fused ring attached. Thus, there is less probability of cross-sensitivity reactions.
*aztreonam (Azactam)

Beta-lactamase inhibitors

Although they exhibit negligible antimicrobial activity, they contain the beta-lactam ring. Their sole purpose is to prevent the inactivation of beta-lactam antibiotics by binding the beta-lactamases, and, as such, they are co-administered with beta-lactam antibiotics.
*clavulanic acid
*tazobactam
*sulbactam

Adverse effects

Adverse drug reactions

Common adverse drug reactions (ADRs) for the β-lactam antibiotics include diarrhea, nausea, rash, urticaria, superinfection (including candidiasis). (Rossi, 2004)

Infrequent ADRs include fever, vomiting, erythema, dermatitis, angioedema, pseudomembranous colitis. (Rossi, 2004)

Pain and inflammation at the injection site is also common for parenterally-administered β-lactam antibiotics.

Allergy/hypersensitivity

Immunologically-mediated adverse reactions to any β-lactam antibiotic may occur in up to 10% of patients receiving that agent (a small fraction of which are truly IgE-mediated allergic reactions, see amoxicillin rash). Anaphylaxis will occur in approximately 0.01% of patients. (Rossi, 2004; Pichichero 2005) There is perhaps a 5%-10% cross-sensitivity between penicillin-derivatives, cephalosporins, and carbapenems; but this figure has been challenged by various investigators.

Nevertheless, the risk of cross-reactivity is sufficient to warrant the contraindication of all β-lactam antibiotics in patients with a history of severe allergic reactions (urticaria, anaphylaxis, interstitial nephritis) to any β-lactam antibiotic.

References

* Martín-Gil J, Villa FM, Ramos-Sánchez MC, Martín-Gil FJ. “Studies on Beta-lactam Antibiotics - Differential Thermal Analysis of Cephalosporins”. "J. Thermal Anal Cal", 1984, 29 (6): 1351-1357.
* Pichichero, Michael E. "A Review of Evidence Supporting the American Academy of Pediatrics Recommendation for Prescribing Cephalosporin Antibiotics for Penicillin-Allergic Patients." "Pediatrics", 2005, 115 1048-1057. PMID 15805383
* Rossi S (Ed.) (2004). "Australian Medicines Handbook 2004". Adelaide: Australian Medicines Handbook. ISBN 0-9578521-4-2.


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