Small Molecules Targeting Mycobacterium tuberculosis Type II NADH Dehydrogenase Exhibit Antimycobacterial Activity

The generation of ATP through oxidative phosphorylation is an essential metabolic function for Mycobaterium tuberculosis (Mtb), regardless of the growth environment. The type II NADH dehydrogenase (Ndh‐2) is the conduit for electrons into the pathway, and is absent in the mammalian genome, thus maki...

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Veröffentlicht in:	Angewandte Chemie 2018-03, Vol.130 (13), p.3536-3540
Hauptverfasser:	Harbut, Michael B., Yang, Baiyuan, Liu, Renhe, Yano, Takahiro, Vilchèze, Catherine, Cheng, Bo, Lockner, Jonathan, Guo, Hui, Yu, Chenguang, Franzblau, Scott G, Petrassi, H. Mike, Jacobs, William R., Rubin, Harvey, Chatterjee, Arnab K., Wang, Feng
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Schlagworte:	Antimikrobielle Verbindungen Bactericidal activity Chemistry Dehydrogenase Dehydrogenases Genomes Homology Minimum inhibitory concentration Mycobaterium tuberculosis NADH NADH dehydrogenase Ndh-2 Nicotinamide adenine dinucleotide Oxidative phosphorylation Oxidative Phosphorylierung Phosphorylation Tuberculosis Wirkstoff-Entdeckung
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creator	Harbut, Michael B. Yang, Baiyuan Liu, Renhe Yano, Takahiro Vilchèze, Catherine Cheng, Bo Lockner, Jonathan Guo, Hui Yu, Chenguang Franzblau, Scott G Petrassi, H. Mike Jacobs, William R. Rubin, Harvey Chatterjee, Arnab K. Wang, Feng
description	The generation of ATP through oxidative phosphorylation is an essential metabolic function for Mycobaterium tuberculosis (Mtb), regardless of the growth environment. The type II NADH dehydrogenase (Ndh‐2) is the conduit for electrons into the pathway, and is absent in the mammalian genome, thus making it a potential drug target. Herein, we report the identification of two types of small molecules as selective inhibitors for Ndh‐2 through a multicomponent high‐throughput screen. Both compounds block ATP synthesis, lead to effects consistent with loss of NADH turnover, and importantly, exert bactericidal activity against Mtb. Extensive medicinal chemistry optimization afforded the best analogue with an MIC of 90 nm against Mtb. Moreover, the two scaffolds have differential inhibitory activities against the two homologous Ndh‐2 enzymes in Mtb, which will allow precise control over Ndh‐2 function in Mtb to facilitate the assessment of this anti‐TB drug target. Einfach mal abschalten: Ein Hochdurchsatz‐Screening gegen den oxidativen Phosphorylierungsweg von M. tuberculosis führte zur Identifizierung zweier Inhibitoren der Typ‐II‐Dehydrogenase Ndh‐2. Sie zeigen unterschiedliche Hemmaktivitäten gegen eines oder beide Ndh‐2‐Isozyme. Durch die Behandlung von Mtb mit diesen Verbindungen wird die ATP‐Synthese abgeschaltet und das Bakterium getötet.
doi_str_mv	10.1002/ange.201800260
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Mike ; Jacobs, William R. ; Rubin, Harvey ; Chatterjee, Arnab K. ; Wang, Feng</creator><creatorcontrib>Harbut, Michael B. ; Yang, Baiyuan ; Liu, Renhe ; Yano, Takahiro ; Vilchèze, Catherine ; Cheng, Bo ; Lockner, Jonathan ; Guo, Hui ; Yu, Chenguang ; Franzblau, Scott G ; Petrassi, H. Mike ; Jacobs, William R. ; Rubin, Harvey ; Chatterjee, Arnab K. ; Wang, Feng</creatorcontrib><description>The generation of ATP through oxidative phosphorylation is an essential metabolic function for Mycobaterium tuberculosis (Mtb), regardless of the growth environment. The type II NADH dehydrogenase (Ndh‐2) is the conduit for electrons into the pathway, and is absent in the mammalian genome, thus making it a potential drug target. Herein, we report the identification of two types of small molecules as selective inhibitors for Ndh‐2 through a multicomponent high‐throughput screen. Both compounds block ATP synthesis, lead to effects consistent with loss of NADH turnover, and importantly, exert bactericidal activity against Mtb. Extensive medicinal chemistry optimization afforded the best analogue with an MIC of 90 nm against Mtb. Moreover, the two scaffolds have differential inhibitory activities against the two homologous Ndh‐2 enzymes in Mtb, which will allow precise control over Ndh‐2 function in Mtb to facilitate the assessment of this anti‐TB drug target. Einfach mal abschalten: Ein Hochdurchsatz‐Screening gegen den oxidativen Phosphorylierungsweg von M. tuberculosis führte zur Identifizierung zweier Inhibitoren der Typ‐II‐Dehydrogenase Ndh‐2. Sie zeigen unterschiedliche Hemmaktivitäten gegen eines oder beide Ndh‐2‐Isozyme. 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Both compounds block ATP synthesis, lead to effects consistent with loss of NADH turnover, and importantly, exert bactericidal activity against Mtb. Extensive medicinal chemistry optimization afforded the best analogue with an MIC of 90 nm against Mtb. Moreover, the two scaffolds have differential inhibitory activities against the two homologous Ndh‐2 enzymes in Mtb, which will allow precise control over Ndh‐2 function in Mtb to facilitate the assessment of this anti‐TB drug target. Einfach mal abschalten: Ein Hochdurchsatz‐Screening gegen den oxidativen Phosphorylierungsweg von M. tuberculosis führte zur Identifizierung zweier Inhibitoren der Typ‐II‐Dehydrogenase Ndh‐2. Sie zeigen unterschiedliche Hemmaktivitäten gegen eines oder beide Ndh‐2‐Isozyme. Durch die Behandlung von Mtb mit diesen Verbindungen wird die ATP‐Synthese abgeschaltet und das Bakterium getötet.</description><subject>Antimikrobielle Verbindungen</subject><subject>Bactericidal activity</subject><subject>Chemistry</subject><subject>Dehydrogenase</subject><subject>Dehydrogenases</subject><subject>Genomes</subject><subject>Homology</subject><subject>Minimum inhibitory concentration</subject><subject>Mycobaterium tuberculosis</subject><subject>NADH</subject><subject>NADH dehydrogenase</subject><subject>Ndh-2</subject><subject>Nicotinamide adenine dinucleotide</subject><subject>Oxidative phosphorylation</subject><subject>Oxidative Phosphorylierung</subject><subject>Phosphorylation</subject><subject>Tuberculosis</subject><subject>Wirkstoff-Entdeckung</subject><issn>0044-8249</issn><issn>1521-3757</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNqFkE1PwkAQhjdGExG9et7Ec3E_2m57bACBBPAgnpvtdlqW9AN3W7X_3iUYOXqaTPK872QehB4pmVBC2LNsSpgwQiO3hOQKjWjAqMdFIK7RiBDf9yLmx7foztoDISRkIh4h81bLqsKbtgLVV2DxTpoSOt2UeDOoNpOqA6P7Gnd9BsYhrdUOGo6AVyu8TWZLPIP9kJu2hEZawPPvvc50h5Om0_WlQVY4UZ3-1N1wj24KWVl4-J1j9P4y302X3vp1sZoma08xwogX-4UQ7p08DvyccuIXESguwlxlnAueh0WRZzTMglhwxfOCAkSCqkiFglFZKD5GT-feo2k_erBdemh707iTqavlzGkKiKMmZ0qZ1loDRXo0upZmSClJT17Tk9f0z6sLxOfAl65g-IdOk-1ifsn-AHvffak</recordid><startdate>20180319</startdate><enddate>20180319</enddate><creator>Harbut, Michael B.</creator><creator>Yang, Baiyuan</creator><creator>Liu, Renhe</creator><creator>Yano, Takahiro</creator><creator>Vilchèze, Catherine</creator><creator>Cheng, Bo</creator><creator>Lockner, Jonathan</creator><creator>Guo, Hui</creator><creator>Yu, Chenguang</creator><creator>Franzblau, Scott G</creator><creator>Petrassi, H. 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Herein, we report the identification of two types of small molecules as selective inhibitors for Ndh‐2 through a multicomponent high‐throughput screen. Both compounds block ATP synthesis, lead to effects consistent with loss of NADH turnover, and importantly, exert bactericidal activity against Mtb. Extensive medicinal chemistry optimization afforded the best analogue with an MIC of 90 nm against Mtb. Moreover, the two scaffolds have differential inhibitory activities against the two homologous Ndh‐2 enzymes in Mtb, which will allow precise control over Ndh‐2 function in Mtb to facilitate the assessment of this anti‐TB drug target. Einfach mal abschalten: Ein Hochdurchsatz‐Screening gegen den oxidativen Phosphorylierungsweg von M. tuberculosis führte zur Identifizierung zweier Inhibitoren der Typ‐II‐Dehydrogenase Ndh‐2. Sie zeigen unterschiedliche Hemmaktivitäten gegen eines oder beide Ndh‐2‐Isozyme. 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subjects	Antimikrobielle Verbindungen Bactericidal activity Chemistry Dehydrogenase Dehydrogenases Genomes Homology Minimum inhibitory concentration Mycobaterium tuberculosis NADH NADH dehydrogenase Ndh-2 Nicotinamide adenine dinucleotide Oxidative phosphorylation Oxidative Phosphorylierung Phosphorylation Tuberculosis Wirkstoff-Entdeckung
title	Small Molecules Targeting Mycobacterium tuberculosis Type II NADH Dehydrogenase Exhibit Antimycobacterial Activity
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