The Biotin Biosynthetic Pathway in Mycobacterium tuberculosis is a Validated Target for the Development of Antibacterial Agents-Reference-Cited by-同舟云学术

The Biotin Biosynthetic Pathway in Mycobacterium tuberculosis is a Validated Target for the Development of Antibacterial Agents

Published:2020-07-22 Issue:25 Volume:27 Page:4194-4232
ISSN:0929-8673
Container-title:Current Medicinal Chemistry
language:en
Short-container-title:CMC

Author:

Bockman Matthew R.¹,Mishra Neeraj¹,Aldrich Courtney C.¹

Affiliation:

1. Department of Medicinal Chemistry, University of Minnesota, Minneapolis, MN 55455, United States

Abstract

Mycobacterium tuberculosis, responsible for Tuberculosis (TB), remains the leading cause of mortality among infectious diseases worldwide from a single infectious agent, with an estimated 1.7 million deaths in 2016. Biotin is an essential cofactor in M. tuberculosis that is required for lipid biosynthesis and gluconeogenesis. M. tuberculosis relies on de novo biotin biosynthesis to obtain this vital cofactor since it cannot scavenge sufficient biotin from a mammalian host. The biotin biosynthetic pathway in M. tuberculosis has been well studied and rigorously genetically validated providing a solid foundation for medicinal chemistry efforts. This review examines the mechanism and structure of the enzymes involved in biotin biosynthesis and ligation, summarizes the reported genetic validation studies of the pathway, and then analyzes the most promising inhibitors and natural products obtained from structure-based drug design and phenotypic screening.

Funder

National Institutes of Health

Publisher

Bentham Science Publishers Ltd.

Subject

Pharmacology,Molecular Medicine,Drug Discovery,Biochemistry,Organic Chemistry

Reference252 articles.

1. Brosch R.; Pym A.S.; Gordon S.V.; Cole S.T.; The evolution of mycobacterial pathogenicity: clues from comparative genomics. Trends Microbiol 2001,9(9),452-458

2. Brosch R.; Gordon S.V.; Marmiesse M.; Brodin P.; Buchrieser C.; Eiglmeier K.; Garnier T.; Gutierrez C.; Hewinson G.; Kremer K.; Parsons L.M.; Pym A.S.; Samper S.; van Soolingen D.; Cole S.T.; A new evolutionary scenario for the Mycobacterium tuberculosis complex. Proc Natl Acad Sci USA 2002,99(6),3684-3689

3. Comas I.; Coscolla M.; Luo T.; Borrell S.; Holt K.E.; Kato-Maeda M.; Parkhill J.; Malla B.; Berg S.; Thwaites G.; Yeboah-Manu D.; Bothamley G.; Mei J.; Wei L.; Bentley S.; Harris S.R.; Niemann S.; Diel R.; Aseffa A.; Gao Q.; Young D.; Gagneux S.; Out-of-Africa migration and Neolithic coexpansion of Mycobacterium tuberculosis with modern humans. Nat Genet 2013,45(10),1176-1182

4. Merker M.; Blin C.; Mona S.; Duforet-Frebourg N.; Lecher S.; Willery E.; Blum M.G.; Rüsch-Gerdes S.; Mokrousov I.; Aleksic E.; Allix-Béguec C.; Antierens A.; Augustynowicz-Kopeć E.; Ballif M.; Barletta F.; Beck H.P.; Barry C.E.; Bonnet M.; Borroni E.; Campos-Herrero I.; Cirillo D.; Cox H.; Crowe S.; Crudu V.; Diel R.; Drobniewski F.; Fauville-Dufaux M.; Gagneux S.; Ghebremichael S.; Hanekom M.; Hoffner S.; Jiao W.W.; Kalon S.; Kohl T.A.; Kontsevaya I.; Lillebæk T.; Maeda S.; Nikolayevskyy V.; Rasmussen M.; Rastogi N.; Samper S.; Sanchez-Padilla E.; Savic B.; Shamputa I.C.; Shen A.; Sng L.H.; Stakenas P.; Toit K.; Varaine F.; Vukovic D.; Wahl C.; Warren R.; Supply P.; Niemann S.; Wirth T.; Evolutionary history and global spread of the Mycobacterium tuberculosis Beijing lineage. Nat Genet 2015,47(3),242-249

5. Organization W.H.; Organization W.H. Global tuberculosis report 2018, Global tuberculosis report 2017, 2017

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