lundi 4 novembre 2024 11:00
Labo AFMB
The type VI secretion system (T6SS) is dedicated to the delivery of toxin proteins into eukaryotic and prokaryotic cells. T6SS effectors have diverse biochemical activities and can manipulate a wide variety of host cell functions . T6SS is considered as an important virulence factor for a number of human pathogen. The apparent conservation of T6SS composition and architecture conceal the lack of direct investigation of species-specific adaptation. Ground-breaking studies that have described for the first time the architecture of bacterial nanomachines – T1SS, T3SS, T4SS, T6SS – in specific bacteria led their authors to present these structures as an archetypal and universal model of these machineries. However, in-depth investigations on these nanomachines in different bacterial species have revealed a highly conserved « core » domain but also significant structural adaptations that have provided valuable information on how these nanomachines work and evolve. In this seminar I will report two specific adaptations of the T6SS “central nervous system”, the membrane complex, which is the channel that mediates the transport of toxins across bacterial membranes:
“Flapping of butterfly wings could cause huge waves”: How does the Acinetobacter baumannii membrane complex crosses the outer membrane? We have characterized for the first time the A. baumannii’s specific T6SS membrane complex (AbMC). Notably, we revealed its unique characteristic and behavior, its membrane localization and assembly dynamics that is coordinated with the sheath dynamics. We also revealed its original composition, demonstrating that its biogenesis employs three Acinetobacter-specific envelope-associated proteins.
“One small step for man, one giant leap for mankind”: Bacteroides fragilis re-invents the concept of T6SS membrane complex. B. fragilis possesses a functional T6SS albeit with no apparent components building the membrane complex. We have identified five genes in B. fragilis (tssNQOPR) that are essential for T6SS function and encode a Bacteroidota-specific membrane complex. These genes encode four inner membrane proteins TssN-PQ-O and the outer membrane lipoprotein TssR. We have purified this complex, revealed its dimensions using electron microscopy, and identified a protein-protein interaction network underlying the assembly of the MC including the stoichiometry of the five TssNQOPR components.
References
Durand E, Nguyen VS, Zoued A, Logger L, Péhau-Arnaudet G, Aschtgen M-S, Spinelli S, Desmyter A Bardiaux B, Dujeancourt A, Roussel A, Cambillau C, Cascales E, Fronzes R.
Biogenesis and structure of a bacterial Type VI secretion membrane core complex. Nature 2015 Jul 30;523(7562):555-60. doi: 10.1038/nature14667. Epub 2015 Jul 22. PMID: 26200339. hal-01778556v1.
Kandolo O, Cherrak Y, Filella-Merce I, Le Guenno H, Kosta A, Espinosa L, Santucci P, Verthuy C, Lebrun R, Nilges M, Pellarin R, Durand E.
Acinetobacter type VI secretion system comprises a non-canonical membrane complex. PLoS Pathogens, 2023 Sep 28;19(9):e1011687. doi:10.1371/journal.ppat.1011687. PMID: 37769028. hal-04233058
Bongiovanni TR, Latario CJ, Le Cras Y, Trus E, Robitaille S, Swartz K, Schmidtke D, Vincent M, Kosta A, Orth J, Stengel F, Pellarin R, Rocha EPC, Ross BD, Durand E.
Assembly of a unique membrane complex in type VI secretion systems of Bacteroidota. Nat Commun. 2024 Jan 10;15(1):429. doi:10.1038/s41467-023-44426-1. PMID: 38200008. hal-04390477
Publié le octobre 21, 2024