Gram‐Positive and Gram‐Negative Antibiotic Activity of Asymmetric and Monomeric Robenidine Analogues

Desymmetrisation of robenidine ( 1 : N ′,2‐bis(( E )‐4‐chlorobenzylidene)hydrazine‐1‐carboximidhydrazide) and the introduction of imine alkyl substituents gave good antibiotic activity. Of note was the increased potency of two analogues against vancomycin‐resistant Enterococci (VRE), one of which returned a MIC of 0.5 μg mL −1 . Five analogues were found to be equipotent or more potent than the lead 1 . Introduction of an indole moiety resulted in the most active robenidine analogue against methicillin‐resistant S. aureus (MRSA), with a MIC of 1.0 μg mL −1 . Imine C=NH isosteres (C=O/C=S) were inactive. Monomeric analogues were 16–64 μg mL −1 active against MRSA and VRE. An analogue that lacks the terminal hydrazide NH moiety showed modest Gram‐negative activity at 64 μg mL −1 . A 4‐ tert ‐butyl analogue was shown to be active against both Gram‐positive and ‐negative strains at 16–64 μg mL −1 . In general, additional modifications with aromatic moieties was poorly tolerated, except with concomitant introduction of an imine C‐alkyl group. The activity of these analogues against MRSA and VRE ranged from 8 μg mL −1 to inactive (MIC>128 μg mL −1 ) with the naphthyl and indole analogues. Gram‐negative activity was most promising with two compounds at 16 μg mL −1 against E. coli . Against P. aeruginosa , the highest activity observed was with MIC values of 32 μg mL −1 with another two analogues. Combined, these findings support the further development of the ( E )‐2‐benzylidenehydrazine‐1‐carboximidamide scaffold as a promising scaffold for the development of antibiotics against Gram‐positive and Gram‐negative strains.