| Candidate ID: | R0146 |
| Source ID: | DB00438 |
| Source Type: | approved |
| Compound Type: |
small molecule
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| Compound Name: |
Ceftazidime
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| Synonyms: |
CAZ; Ceftazidime anhydrous
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| Molecular Formula: |
C22H22N6O7S2
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| SMILES: |
[O-]C(=O)C1=C(CS[C@]2([H])[C@H](NC(=O)C(=N/OC(C)(C)C(O)=O)\C3=CSC(N)=N3)C(=O)N12)C[N+]1=CC=CC=C1
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| Structure: |
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| DrugBank Description: |
Bacteria possess a cell wall comprising a glycopeptide polymer commonly known as peptidoglycan, which is synthesized and remodelled through the action of a family of enzymes known as "penicillin-binding proteins" (PBPs). β-lactam antibiotics, including cephalosporins, are PBP inhibitors that, through inhibition of essential PBPs, result in impaired cell wall homeostasis, loss of cell integrity, and ultimately bacterial cell death. Ceftazidime is a third-generation cephalosporin with broad-spectrum antibacterial activity, including against some treatment-resistant bacteria such as _Pseudomonas aeruginosa_.
Ceftazidime was approved by the FDA on July 19, 1985, and is currently available either alone or in combination with the non-β-lactam β-lactamase inhibitor to treat a variety of bacterial infections.
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| CAS Number: |
72558-82-8
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| Molecular Weight: |
546.576
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| DrugBank Indication: |
Ceftazidime is indicated for the treatment of lower respiratory tract infections, skin and skin structure infections, urinary tract infections, bacterial septicemia, bone and joint infections, gynecologic infections, intra-abdominal infections (including peritonitis), and central nervous system infections (including meningitis) caused by susceptible bacteria.
Ceftazidime is indicated in combination with to treat infections caused by susceptible Gram-negative organisms, including complicated intra-abdominal infections (cIAI), in conjunction with , and complicated urinary tract infections (cUTI), including pyelonephritis, in patients aged three months and older. This combination is also indicated to treat hospital-acquired and ventilator-associated bacterial pneumonia (HABP/VABP) in patients aged 18 years and older.
In all cases, to mitigate the risk of bacterial resistance and preserve clinical efficacy, ceftazidime should only be used for infections that are confirmed or strongly suspected to be caused by susceptible bacterial strains.
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| DrugBank Pharmacology: |
Ceftazidime is a semisynthetic, broad-spectrum, third-generation cephalosporin antibiotic that is bactericidal through inhibition of enzymes responsible for cell-wall synthesis, primarily penicillin-binding protein 3 (PBP3). Among cephalosporins, ceftazidime is notable for its resistance to numerous β-lactamases and its broad spectrum of activity against Gram-negative bacteria, including _Pseudomonas aeruginosa_. However, it is less active than first- and second-generation cephalosporins against _Staphylococcus aureus_ and other Gram-positive bacteria and also has low activity against anaerobes. Ceftazidime has confirmed activity against clinically relevant Gram-negative bacteria including _Citrobacter_ spp., _Enterobacter_ spp., _Klebsiella_ spp., _Proteus_ spp., _Serratia spp., _Escherichia coli_, _Haemophilus influenzae_, _Neisseria meningitidis_, _Pseudomonas aeruginosa_, and some Gram-positive bacteria including _Staphylococcus_ spp. and _Streptococcus_ spp. There are also _in vitro_ data for ceftazidime efficacy against a wide variety of other bacteria, such as _Acinetobacter baumannii_ and _Neisseria gonorrhoeae_, but no clear clinical studies to support the use of ceftazidime for infections caused by these bacteria.
Although β-lactam antibiotics like ceftazidime are generally well tolerated, there remains a risk of serious acute hypersensitivity reactions, which is higher in patients with a known allergy to ceftazidime or any other β-lactam antibiotic. As with all antibiotics, ceftazidime may result in the overgrowth of non-susceptible organisms and potentially serious effects including _Clostridium difficile_-associated diarrhea (CDAD); CDAD should be considered in patients who develop diarrhea and, in confirmed cases, supportive care initiated immediately. Ceftazidime is primarily renally excreted such that high and prolonged serum concentrations can occur in patients with renal insufficiency, leading to seizures, nonconvulsive status epilepticus (NCSE), encephalopathy, coma, asterixis, neuromuscular excitability, and myoclonia. Treatment may lead to the development or induction of resistance with a risk of treatment failure. Periodic susceptibility testing should be considered, and monotherapy failure may necessitate the addition of another antibiotic such as an aminoglycoside. Cephalosporin use may decrease prothrombin activity, which may be improved by exogenous vitamin K. Inadvertent intra-arterial administration of ceftazidime may result in distal necrosis.
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| DrugBank MoA: |
The bacterial cell wall, which is located at the periphery of Gram-positive bacteria and within the periplasm of Gram-negative bacteria, comprises a glycopeptide polymer synthesized through cross-linking of glycans to peptide stems on alternating saccharides, which is known commonly as peptidoglycan. Cell wall formation, recycling, and remodelling require numerous enzymes, including a family of enzymes with similar active site character despite distinct and sometimes overlapping roles as carboxypeptidases, endopeptidases, transpeptidases, and transglycosylases, known as "penicillin-binding proteins" (PBPs). The number of PBPs differs between bacteria, in which some are considered essential and others redundant. In general, inhibition of one or more essential PBPs results in impaired cell wall homeostasis, loss of cell integrity, and is ultimately bactericidal.
Ceftazidime is a semisynthetic third-generation cephalosporin with broad activity against numerous Gram-negative and some Gram-positive bacteria. Like other β-lactam antibiotics, ceftazidime exhibits its bactericidal effect primarily through direct inhibition of specific PBPs in susceptible bacteria. _In vitro_ experiments in Gram-negative bacteria such as _Escherichia coli_, _Pseudomonas aeruginosa_, _Acinetobacter baumannii_, and _Klebsiella pneumoniae_ suggest that ceftazidime primarily binds to PBP3, with weaker binding to PBP1a/1b and PBP2 as well; although binding to other PBPs, such as PBP4, is detectable, the concentrations required are much greater than those achieved clinically. Similarly, ceftazidime showed binding to _Staphylococcus aureus_ PBP 1, 2, and 3 with a much lower affinity for PBP4. Recent data for _Mycobacterium abcessus_ suggest that ceftazidime can inhibit PonA1, PonA2, and PbpA at intermediate concentrations.
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| Targets: |
Peptidoglycan synthase FtsI inhibitor; Penicillin-binding protein 1A inhibitor; Penicillin-binding protein 1B inhibitor; Penicillin-binding protein 2 inhibitor
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| Inclusion Criteria: |
Indication associated
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