The pathogen-encoded signalling receptor Tir exploits host-like intrinsic disorder for infection

Vieira, Marta F.M.; Hernandez, Guillem; Zhong, Qiyun; Arbesú, Miguel; Veloso, Tiago; Gomes, Tiago; Martins, Maria L.; Monteiro, Hugo; Frazão, Carlos; Frankel, Gad; Zanzoni, Andreas; Cordeiro, Tiago N.

doi:https://doi.org/10.1038/s42003-024-05856-9

Utilize este identificador para referenciar este registo: http://hdl.handle.net/10362/182732

Título:	The pathogen-encoded signalling receptor Tir exploits host-like intrinsic disorder for infection
Autor:	Vieira, Marta F.M. Hernandez, Guillem Zhong, Qiyun Arbesú, Miguel Veloso, Tiago Gomes, Tiago Martins, Maria L. Monteiro, Hugo Frazão, Carlos Frankel, Gad Zanzoni, Andreas Cordeiro, Tiago N.
Palavras-chave:	Medicine (miscellaneous) Biochemistry, Genetics and Molecular Biology(all) Agricultural and Biological Sciences(all)
Data:	13-Fev-2024
Resumo:	The translocated intimin receptor (Tir) is an essential type III secretion system (T3SS) effector of attaching and effacing pathogens contributing to the global foodborne disease burden. Tir acts as a cell-surface receptor in host cells, rewiring intracellular processes by targeting multiple host proteins. We investigated the molecular basis for Tir’s binding diversity in signalling, finding that Tir is a disordered protein with host-like binding motifs. Unexpectedly, also are several other T3SS effectors. By an integrative approach, we reveal that Tir dimerises via an antiparallel OB-fold within a highly disordered N-terminal cytosolic domain. Also, it has a long disordered C-terminal cytosolic domain partially structured at host-like motifs that bind lipids. Membrane affinity depends on lipid composition and phosphorylation, highlighting a previously unrecognised host interaction impacting Tir-induced actin polymerisation and cell death. Furthermore, multi-site tyrosine phosphorylation enables Tir to engage host SH2 domains in a multivalent fuzzy complex, consistent with Tir’s scaffolding role and binding promiscuity. Our findings provide insights into the intracellular Tir domains, highlighting the ability of T3SS effectors to exploit host-like protein disorder as a strategy for host evasion.
Descrição:	Funding Information: We acknowledge using the ESRF-BM29 (MX-2085-BAG) and DLS-B21 Bio-SAXS beamlines (MX20161-1, SM21035-177). We thank Miquel Pons, from UB, Lígia Martins, and Adriano Henriques from ITQB-NOVA, for many helpful discussions. We thank the staff of ITQB-NOVA’s Research Facilities for their technical assistance. MA thanks Prof. Hartmut Oschkinat and FMP-Berlin for the financial support. AZ thanks Fabrice Lopez and Aurélie Bergon (TAGC, Marseille) for technical assistance. We thank Luis Angel Fernandes for sharing EPEC-0. This work was supported by National funds through FCT, Project MOSTMICRO-ITQB (UIDB/04612/2020, UIDP/04612/2020), FEDER Funds through COMPETE 2020 (0145-FEDER-007660), and SR&TD project (PTDC/BIA-BFS/0391/2021). Financial support was provided by European EC Horizon2020 TIMB3 (Project 810856). NMR data were acquired at CERMAX, ITQB-NOVA, Oeiras, Portugal, with equipment funded by FCT, project AAC 01/SAICT/2016. MFMV is funded by a MolBioS FCT PhD program fellowship (PD/BD/135482/2018). GH thanks the PT-NMR FCT PhD Program (PD/BD/147227/2019) for financial support. A MOSTMICRO FCT PhD scholarship supports MLM (UI/BD/154576/2022). An Imperial College president’s scholarship supports QZ. AZ acknowledges the financial support of the JPI HDHL-INTIMIC action co-funded by the Agence Nationale de la Recherche (ANR-17-HDIM-0001). TNC is the recipient of the grant CEECIND/01443/2017. Funding Information: We acknowledge using the ESRF-BM29 (MX-2085-BAG) and DLS-B21 Bio-SAXS beamlines (MX20161-1, SM21035-177). We thank Miquel Pons, from UB, Lígia Martins, and Adriano Henriques from ITQB-NOVA, for many helpful discussions. We thank the staff of ITQB-NOVA’s Research Facilities for their technical assistance. MA thanks Prof. Hartmut Oschkinat and FMP-Berlin for the financial support. AZ thanks Fabrice Lopez and Aurélie Bergon (TAGC, Marseille) for technical assistance. We thank Luis Angel Fernandes for sharing EPEC-0. This work was supported by National funds through FCT, Project MOSTMICRO-ITQB (UIDB/04612/2020, UIDP/04612/2020), FEDER Funds through COMPETE 2020 (0145-FEDER-007660), and SR&TD project (PTDC/BIA-BFS/0391/2021). Financial support was provided by European EC Horizon2020 TIMB3 (Project 810856). NMR data were acquired at CERMAX, ITQB-NOVA, Oeiras, Portugal, with equipment funded by FCT, project AAC 01/SAICT/2016. MFMV is funded by a MolBioS FCT PhD program fellowship (PD/BD/135482/2018). GH thanks the PT-NMR FCT PhD Program (PD/BD/147227/2019) for financial support. A MOSTMICRO FCT PhD scholarship supports MLM (UI/BD/154576/2022). An Imperial College president’s scholarship supports QZ. AZ acknowledges the financial support of the JPI HDHL-INTIMIC action co-funded by the Agence Nationale de la Recherche (ANR-17-HDIM-0001). TNC is the recipient of the grant CEECIND/01443/2017. Publisher Copyright: © The Author(s) 2024.
Peer review:	yes
URI:	http://hdl.handle.net/10362/182732
DOI:	https://doi.org/10.1038/s42003-024-05856-9
Aparece nas colecções:	Home collection (ITQB)

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