Evolution and Antibacterial Evaluation of 8-Hydroxy-cycloberberine Derivatives as a Novel Family of Antibacterial Agents Against MRSA.

Twenty-five new derivatives of 8-hydroxycycloberberine (1) were synthesized and evaluated for their activities against Gram-positive bacteria, taking 1 as the lead. Part of them displayed satisfactory antibacterial activities against methicillin-susceptible Staphylococcus aureus (MSSA) and methicillin-resistant Staphylococcus aureus (MRSA), as well as vancomycin-intermediate Staphylococcus aureus (VISA). Especially, compound 15a displayed an excellent anti-MRSA activity with MICs (minimum inhibitory concentrations) of 0.25⁻0.5 µg/mL, better than that of 1. It also displayed high stability in liver microsomes and whole blood, and the LD50 value of over 65.6 mg·kg-1 in mice via intravenous route, suggesting a good druglike feature. The mode of action showed that 15a could effectively suppress topo IV-mediated decatenation activity at the concentration of 7.5 µg/mL, through binding a different active pocket of bacterial topo IV from quinolones. Taken together, the derivatives of 1 constituted a promising kind of anti-MRSA agents with a unique chemical scaffold and a specific biological mechanism, and compound 15a has been chosen for the next investigation.

Synthesis and biological evaluation of 7-substituted cycloberberine derivatives as potent antibacterial agents against MRSA.

A series of new 7-substituted cycloberberine (CBBR) derivatives were synthesized and evaluated for their antibacterial activities against Gram-positive pathogens, taking CBBR as the lead. The SAR revealed that the introduction of a substituent at the C7 position resulted in a potency against both the reference Gram-positive bacteria and MDR clinical isolates, much higher than that of CBBR. Compound 1f with a 7-phenyl group exhibited higher activities against MRSA and VRE than that of vancomycin, with MIC values of 1-8 µg/mL. Its rapid bactericidal action against MRSA was further confirmed in time-kill study. The preliminary mechanism study indicated that 1f might target bacterial DNA Topo IV ParE subunit, indicating a mode of action distinct from the currently used antibacterial drugs such as quinolones. These results supplemented and enriched the SAR of its kind, and provided powerful information for developing these compounds into a novel class of antibacterial candidates against MRSA.

Synthesis and antibacterial evaluation of 13-substituted cycloberberine derivatives as a novel class of anti-MRSA agents.

A series of new 13-substituted cycloberberine (CBBR) derivatives were prepared and evaluated for their antibacterial activities against Gram-positive bacteria taking CBBR as the lead. Structure-activity relationship revealed that the introduction of a suitable electron-donating group at the 13-position in CBBR might be beneficial for the antibacterial potency. Among them, compounds 5b and 5w exhibited high potency against methicillin-sensitive (MSSA) and resistant strains of S. aureus (MRSA) with MIC values of 1-4 µg/mL. Both of them also displayed high stabilities in blood, and good in vivo safety profiles with LD50 values of 65.6 and 41.2 mg kg-1 in intravenous route respectively. Molecular docking analysis indicated that compound 5b might target FtsZ protein that could inhibit cell division, with the advantage of activity against multidrug resistant S. aureus. Therefore, we consider 13-substituted CBBR derivatives to be a novel class of anti-MRSA agents worthy of further investigation.