MmpL3 belongs to the Resistance, Nodulation and Division (RND) superfamily whose role in mycobacteria is the formation of the outer membrane. Indeed, it has been shown that MmpL3 is associated with the export of mycolic acids in the form of trehalose monomycolates (TMM) to the periplasmic space or the outer membrane. In the last few years several whole cell-based screenings of compound libraries brought by a number of diverse chemical scaffolds active against M. tuberculosis (Mtb) that surprisingly share MmpL3 as target. The diverse identified pharmacophores owe important differences among each other, in fact while some of them display inhibitory activity against pathogens that are devoid of mycolic acids and are active against non-replicating Mtb bacilli, some others specifically target mycobacteria and do not kill non-replicating bacilli. The scope of this review is to provide the recent advances in MmpL3 inhibitor discovery with a special focus on structure activity relationship (SAR) studies in order to provide information that could help in developing novel membrane-active anti- TB agents. Moreover, this review will provide the most recent insights into the modes of action of the MmpL3 inhibitors.

MmpL3 inhibitors: diverse chemical scaffolds inhibit the same target / Poce, Giovanna; Consalvi, Sara; Biava, Mariangela. - In: MINI-REVIEWS IN MEDICINAL CHEMISTRY. - ISSN 1389-5575. - 16:16(2016), pp. 1274-1283. [10.2174/1389557516666160118105319]

MmpL3 inhibitors: diverse chemical scaffolds inhibit the same target

Poce, Giovanna
Primo
;
Consalvi, Sara
Secondo
;
Biava, Mariangela
Ultimo
2016

Abstract

MmpL3 belongs to the Resistance, Nodulation and Division (RND) superfamily whose role in mycobacteria is the formation of the outer membrane. Indeed, it has been shown that MmpL3 is associated with the export of mycolic acids in the form of trehalose monomycolates (TMM) to the periplasmic space or the outer membrane. In the last few years several whole cell-based screenings of compound libraries brought by a number of diverse chemical scaffolds active against M. tuberculosis (Mtb) that surprisingly share MmpL3 as target. The diverse identified pharmacophores owe important differences among each other, in fact while some of them display inhibitory activity against pathogens that are devoid of mycolic acids and are active against non-replicating Mtb bacilli, some others specifically target mycobacteria and do not kill non-replicating bacilli. The scope of this review is to provide the recent advances in MmpL3 inhibitor discovery with a special focus on structure activity relationship (SAR) studies in order to provide information that could help in developing novel membrane-active anti- TB agents. Moreover, this review will provide the most recent insights into the modes of action of the MmpL3 inhibitors.
2016
anti-tubercular agents; drug discovery; drug-target; M. tuberculosis; MmpL3; structure-activity relationship; pharmacology; drug discovery3003 pharmaceutical science
01 Pubblicazione su rivista::01a Articolo in rivista
MmpL3 inhibitors: diverse chemical scaffolds inhibit the same target / Poce, Giovanna; Consalvi, Sara; Biava, Mariangela. - In: MINI-REVIEWS IN MEDICINAL CHEMISTRY. - ISSN 1389-5575. - 16:16(2016), pp. 1274-1283. [10.2174/1389557516666160118105319]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1191315
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