Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor

Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor

The second messenger c-di-GMP (or cyclic diguanylate) regulates biofilm formation, a physiological adaptation process in bacteria, via a widely conserved signaling node comprising a prototypical transmembrane receptor for c-di-GMP, LapD, and a cognate periplasmic protease, LapG. Previously, we repor...

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Main Authors: Richard B Cooley, John P O’Donnell, Holger Sondermann
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2016-12-01
Series:eLife
Subjects:
biofilm formation
second messenger
membrane protein structure
membrane signaling
Online Access:https://elifesciences.org/articles/21848
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spelling doaj-1c25c1d1b9e04017bcb0f8dc87dd830c2021-05-05T00:47:07ZengeLife Sciences Publications LtdeLife2050-084X2016-12-01510.7554/eLife.21848Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptorRichard B Cooley0John P O’Donnell1Holger Sondermann2https://orcid.org/0000-0003-2211-6234Department of Molecular Medicine, College of Veterinary Medicine, Cornell University, Ithaca, United StatesDepartment of Molecular Medicine, College of Veterinary Medicine, Cornell University, Ithaca, United StatesDepartment of Molecular Medicine, College of Veterinary Medicine, Cornell University, Ithaca, United StatesThe second messenger c-di-GMP (or cyclic diguanylate) regulates biofilm formation, a physiological adaptation process in bacteria, via a widely conserved signaling node comprising a prototypical transmembrane receptor for c-di-GMP, LapD, and a cognate periplasmic protease, LapG. Previously, we reported a structure-function study of a soluble LapD•LapG complex, which established conformational changes in the receptor that lead to c-di-GMP-dependent protease recruitment (Chatterjee et al., 2014). This work also revealed a basal affinity of c-di-GMP-unbound receptor for LapG, the relevance of which remained enigmatic. Here, we elucidate the structural basis of coincidence detection that relies on both c-di-GMP and LapG binding to LapD for receptor activation. The data indicate that high-affinity for LapG relies on the formation of a receptor dimer-of-dimers, rather than a simple conformational change within dimeric LapD. The proposed mechanism provides a rationale of how external proteins can regulate receptor function and may also apply to c-di-GMP-metabolizing enzymes that are akin to LapD.https://elifesciences.org/articles/21848biofilm formationsecond messengermembrane protein structuremembrane signaling
collection DOAJ
language English
format Article
sources DOAJ
author Richard B Cooley
John P O’Donnell
Holger Sondermann
spellingShingle Richard B Cooley
John P O’Donnell
Holger Sondermann
Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
eLife
biofilm formation
second messenger
membrane protein structure
membrane signaling
author_facet Richard B Cooley
John P O’Donnell
Holger Sondermann
author_sort Richard B Cooley
title Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
title_short Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
title_full Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
title_fullStr Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
title_full_unstemmed Coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
title_sort coincidence detection and bi-directional transmembrane signaling control a bacterial second messenger receptor
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2016-12-01
description The second messenger c-di-GMP (or cyclic diguanylate) regulates biofilm formation, a physiological adaptation process in bacteria, via a widely conserved signaling node comprising a prototypical transmembrane receptor for c-di-GMP, LapD, and a cognate periplasmic protease, LapG. Previously, we reported a structure-function study of a soluble LapD•LapG complex, which established conformational changes in the receptor that lead to c-di-GMP-dependent protease recruitment (Chatterjee et al., 2014). This work also revealed a basal affinity of c-di-GMP-unbound receptor for LapG, the relevance of which remained enigmatic. Here, we elucidate the structural basis of coincidence detection that relies on both c-di-GMP and LapG binding to LapD for receptor activation. The data indicate that high-affinity for LapG relies on the formation of a receptor dimer-of-dimers, rather than a simple conformational change within dimeric LapD. The proposed mechanism provides a rationale of how external proteins can regulate receptor function and may also apply to c-di-GMP-metabolizing enzymes that are akin to LapD.
topic biofilm formation
second messenger
membrane protein structure
membrane signaling
url https://elifesciences.org/articles/21848
work_keys_str_mv AT richardbcooley coincidencedetectionandbidirectionaltransmembranesignalingcontrolabacterialsecondmessengerreceptor
AT johnpodonnell coincidencedetectionandbidirectionaltransmembranesignalingcontrolabacterialsecondmessengerreceptor
AT holgersondermann coincidencedetectionandbidirectionaltransmembranesignalingcontrolabacterialsecondmessengerreceptor
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