Unveiling the Potency: Synthesis and Assessment of Antimicrobial Potential of Some Bis(indolyl)methane Derivatives
Aditi Boruah, Devi Basumatary, Iftakur Rahman, Bandita Pathak, Jagat Chandra Borah, Pranjal K. BaruahBackground:
The urgent need for new antimicrobial compounds arises from the growing threat of multidrug-resistant human pathogens responsible for infectious diseases. The indole moiety, a prevalent heterocyclic ring system found in nature, is a key structural element in many pharmaceutical agents due to its wide range of biological activities. Bis(in-dolyl)methanes, in particular, have emerged as promising candidates for antibacterial activ-ity.
Aim:
This study aimed to evaluate the antibacterial activity of nine bis(indolyl)methane derivatives against a range of pathogenic bacterial strains responsible for various human diseases.
Methods:
The compounds were synthesized using a solvent-free method, and their antibac-terial activity was evaluated using the disk diffusion assay. The minimum inhibitory con-centration (MIC) of the active compounds identified in the disk diffusion assay was deter-mined by the microtiter broth dilution method in 96-well microtiter plates. Bacterial strains in the mid-log phase of growth were utilized. Bacterial suspensions equivalent to 0.5 McFar-land standards were prepared by suspending the bacterial inoculum in sterile water. A work-ing concentration of 100 μg/mL was achieved by diluting the test compounds in 100% DMSO.
Results:
The antimicrobial activity of nine synthetic compounds was evaluated against nine medically significant pathogenic strains. These include Pseudomonas aeruginosa, Bacillus cereus, and Shigella flexneri, known for producing toxins that cause acute foodborne ill-nesses, as well as Escherichia coli K12 and Enterococcus faecalis, which can disrupt the intestinal barrier in immunocompromised individuals. The results suggest that these com-pounds have the potential to be effective antimicrobial agents.
Conclusion:
Our findings demonstrate the promising antimicrobial activity of the synthe-sized compounds, with 1-ethyl-3-((1-ethyl-1H-indol-3-yl)(phenyl)methyl)-1H-indole emerging as the most potent, significantly inhibiting most tested bacterial strains. These results highlight the potential for developing novel compounds for antibacterial treatment.