| Literature DB >> 29335553 |
Louis S Ates1,2, Anzaan Dippenaar3, Roy Ummels4, Sander R Piersma5, Aniek D van der Woude4, Kim van der Kuij4, Fabien Le Chevalier6, Dulce Mata-Espinosa7, Jorge Barrios-Payán7, Brenda Marquina-Castillo7, Carolina Guapillo7, Connie R Jiménez5, Arnab Pain8, Edith N G Houben9, Robin M Warren3, Roland Brosch6, Rogelio Hernández-Pando7, Wilbert Bitter10,11.
Abstract
Mycobacterium tuberculosis requires a large number of secreted and exported proteins for its virulence, immune modulation and nutrient uptake. Most of these proteins are transported by the different type VII secretion systems1,2. The most recently evolved type VII secretion system, ESX-5, secretes dozens of substrates belonging to the PE and PPE families, which are named for conserved proline and glutamic acid residues close to the amino terminus3,4. However, the role of these proteins remains largely elusive 1 . Here, we show that mutations of ppe38 completely block the secretion of two large subsets of ESX-5 substrates, that is, PPE-MPTR and PE_PGRS, together comprising >80 proteins. Importantly, hypervirulent clinical M. tuberculosis strains of the Beijing lineage have such a mutation and a concomitant loss of secretion 5 . Restoration of PPE38-dependent secretion partially reverted the hypervirulence phenotype of a Beijing strain, and deletion of ppe38 in moderately virulent M. tuberculosis increased virulence. This indicates that these ESX-5 substrates have an important role in virulence attenuation. Phylogenetic analysis revealed that deletion of ppe38 occurred at the branching point of the 'modern' Beijing sublineage and is shared by Beijing outbreak strains worldwide, suggesting that this deletion may have contributed to their success and global distribution6,7.Entities:
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Year: 2018 PMID: 29335553 DOI: 10.1038/s41564-017-0090-6
Source DB: PubMed Journal: Nat Microbiol ISSN: 2058-5276 Impact factor: 17.745