OBJECTIVES: We examined the antistaphylococcal activity of the novel cephalosporin CB-181963 (formerly known as CAB-175), with emphasis on its microbiological activity and penicillin-binding protein specificities. METHODS: Using established procedures, we examined the activity of CB-181963 against methicillin-susceptible (MSSA) and methicillin-resistant (MRSA) strains of Staphylococcus aureus in both planktonic and biofilm culture. We also determined whether CB-181963 exhibited a post-antibiotic effect (PAE). A radioactive competition assay with (3)H-labelled benzylpenicillin was used to determine penicillin-binding protein (PBP) affinities of CB-181963, including binding to PBP2a from MRSA. The potential for emergence of CB-181963-resistant mutants in MSSA and MRSA strains was examined using plating procedures. RESULTS: CB-181963 showed excellent activity against MRSA strains resistant to other cephalosporins in both planktonic and biofilm cultures. However, in common with other cephalosporins it was unable to eradicate biofilms. CB-181963 had a short PAE compared with other beta-lactam antibiotics. CB-181963 retained activity against a strain expressing type A beta-lactamase and demonstrated affinity for PBP2a of MRSA. Mutants resistant to CB-181963 were not recovered in either MSSA or MRSA. CONCLUSIONS: CB-181963 is a potent antistaphylococcal agent with better activity against MRSA than other cephalosporins. The anti-MRSA activity is correlated with elevated binding to PBP2a. CB-181963 may have a role in the treatment of staphylococcal infections, including those caused by MRSA and in the prophylaxis of biofilm-associated MSSA and MRSA infections. However, because of its short PAE, CB-181963 may have to be administered more frequently than other beta-lactam antibiotics, or given via prolonged infusion.
OBJECTIVES: We examined the antistaphylococcal activity of the novel cephalosporin CB-181963 (formerly known as CAB-175), with emphasis on its microbiological activity and penicillin-binding protein specificities. METHODS: Using established procedures, we examined the activity of CB-181963 against methicillin-susceptible (MSSA) and methicillin-resistant (MRSA) strains of Staphylococcus aureus in both planktonic and biofilm culture. We also determined whether CB-181963 exhibited a post-antibiotic effect (PAE). A radioactive competition assay with (3)H-labelled benzylpenicillin was used to determine penicillin-binding protein (PBP) affinities of CB-181963, including binding to PBP2a from MRSA. The potential for emergence of CB-181963-resistant mutants in MSSA and MRSA strains was examined using plating procedures. RESULTS:CB-181963 showed excellent activity against MRSA strains resistant to other cephalosporins in both planktonic and biofilm cultures. However, in common with other cephalosporins it was unable to eradicate biofilms. CB-181963 had a short PAE compared with other beta-lactam antibiotics. CB-181963 retained activity against a strain expressing type A beta-lactamase and demonstrated affinity for PBP2a of MRSA. Mutants resistant to CB-181963 were not recovered in either MSSA or MRSA. CONCLUSIONS:CB-181963 is a potent antistaphylococcal agent with better activity against MRSA than other cephalosporins. The anti-MRSA activity is correlated with elevated binding to PBP2a. CB-181963 may have a role in the treatment of staphylococcal infections, including those caused by MRSA and in the prophylaxis of biofilm-associated MSSA and MRSA infections. However, because of its short PAE, CB-181963 may have to be administered more frequently than other beta-lactam antibiotics, or given via prolonged infusion.