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Abstract Title:

The insertion of functional groups in organic selenium compounds promote changes in mitochondrial parameters and raise the antibacterial activity.

Abstract Source:

Bioorg Chem. 2020 Mar 5 ;98:103727. Epub 2020 Mar 5. PMID: 32179285

Abstract Author(s):

Sílvio Terra Stefanello, Caren Rigon Mizdal, Débora Farina Gonçalves, Diane Duarte Hartmann, Fernando Dobrachinski, Nélson Rodrigues de Carvalho, Syed Muhammad Salman, André C Sauer, Luciano Dornelles, Marli Matiko Anraku de Campos, Félix Alexandre Antunes Soares

Article Affiliation:

Sílvio Terra Stefanello

Abstract:

Organic selenium compounds are widely associated with numerous pharmacological properties. However, selenium compounds, such as Ebselen (Ebs) and Diphenyl Diselenide (DPDS), could interact with mitochondrial respiratory complexes, especially with thiol groups. The present study evaluated whether the insertion of functional groups, o-methoxy, and p-methyl on organic selenium compounds promotes changes in mitochondrial functioning parameters and whether this is related to antibacterial activity. Here we tested some in vitro parameters after the exposure of mitochondria to different concentrations ofβ-selenoamines 1-phenyl-3-(p-tolylselanyl)propan-2-amine (C1) and 1-(2-methoxyphenylselanyl)-3-phenylpropan-2-amine (C2) and analogs of DPDS 1,2-bis(2-methoxyphenyl)diselenide (C3) and 1,2-bisp-tolyldiselenide (C4). We also evaluated the antibacterial activity of β-selenoamines and diselenides against Methicillin-resistant Staphylococcus aureus and Escherichia coli. Our results showed that o-methoxy insertion increased the antioxidant properties, without affecting the mitochondrial membrane potential. The compounds with a p-methyl insertion affected the mitochondrial membrane potential and significantly decreased the State III respiration and RCR. Besides, the p-methyl compounds presented antibacterial activity at lower concentrations than those shown in o-methoxy, precisely by the same mechanism that promotes damage to thiol groups and better absorption in gram-positive bacteria due to their relationship with cell wall constituents. Finally, our study confirms that structural modifications in organic selenium compounds provide changes in mitochondrial functioning but also raise their antibacterial effect. This strategy can be used as a target for the development of new enough potent antibacterial to restrict the advance of resistant bacterial infections.

Study Type : In Vitro Study

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