Heteroaromatic Hybrid Benzimidazole/Oxadiazole (BZ/OZ) Ligand and Its Sm(III) Complex: Study of Their Antibacterial Activity, Toxicological Prediction and Interaction with Different Model Membranes
Alberto Aragón-Muriel, Alessio Ausili, Luciana Sampaio Lima, Cleydson B. R. Santos, David Morales-Morales, Dorian Polo-Cerón

TL;DR
A new benzimidazole/oxadiazole compound and its Sm(III) complex were studied for antibacterial activity, toxicity, and membrane interactions.
Contribution
The study introduces a novel tridentate Sm(III) complex with enhanced antibacterial activity and evaluates its toxicological and membrane interaction properties.
Findings
The Sm(III) complex showed higher antibacterial activity than the precursor ligand against both Gram-positive and Gram-negative bacteria.
In silico predictions revealed potential carcinogenicity of the ligand in mice, suggesting a need for structural modifications.
The compounds altered membrane properties without disrupting lamellar organization, indicating potential for antibacterial and toxicological applications.
Abstract
Two heteroaromatic hybrid compounds were synthesized and characterized using various analytical techniques. The results indicate that the benzimidazole/oxadiazole (BZ/OZ) metal derivative exhibits a tridentate coordination mode, where the carbonyl, imidazole and oxadiazole groups participate in coordination with the metal, in a ratio of 2:1 of the ligand to the metal. The antibacterial activities of the organic ligand and its metal complex were determined by in vitro tests against both Gram-positive bacterial strains and Gram-negative bacterial strains using the broth microdilution method. The metal complex showed greater antibacterial activities compared to the precursor ligand against all evaluated microorganisms. The results obtained through in silico predictions revealed significant toxicological differences among the analyzed molecules, suggesting special attention in the use of…
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Taxonomy
TopicsMetal complexes synthesis and properties · Thermal and Kinetic Analysis · Synthesis and biological activity
