The peptidoglycan-associated protein NapA plays an important role in the envelope integrity and in the pathogenesis of the lyme disease spirochete

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Abstract

The bacterial pathogen responsible for causing Lyme disease, Borrelia burgdorferi, is an atypical Gram-negative spirochete that is transmitted to humans via the bite of an infected Ixodes tick. In diderms, peptidoglycan (PG) is sandwiched between the inner and outer membrane of the cell envelope. In many other Gram-negative bacteria, PG is bound by protein(s), which provide both structural integrity and continuity between envelope layers. Here, we present evidence of a peptidoglycan-associated protein (PAP) in B. burgdorferi. Using an unbiased proteomics approach, we identified Neutrophil Attracting Protein A (NapA) as a PAP. Interestingly, NapA is a Dps homologue, which typically functions to bind and protect cellular DNA from damage during times of stress. While B. burgdorferi NapA is known to be involved in the oxidative stress response, it lacks the critical residues necessary for DNA binding. Biochemical and cellular studies demonstrate that NapA is localized to the B. burgdorferi periplasm and is indeed a PAP. Cryo-electron microscopy indicates that mutant bacteria, unable to produce NapA, have structural abnormalities. Defects in cell-wall integrity impact growth rate and cause the napA mutant to be more susceptible to osmotic and PG-specific stresses. NapA-linked PG is secreted in outer membrane vesicles and augments IL-17 production, relative to PG alone. Using microfluidics, we demonstrate that NapA acts as a molecular beacon—exacerbating the pathogenic properties of B. burgdorferi PG. These studies further our understanding of the B. burgdorferi cell envelope, provide critical information that underlies its pathogenesis, and highlight how a highly conserved bacterial protein can evolve mechanistically, while maintaining biological function.

Author summary

Diderms typically produce peptidoglycan-associated proteins (PAPs) to enhance structural integrity and continuity within the cell envelope. We have identified a PAP in B. burgdorferi with structural and sequence homology to the near ubiquitous bacterial protein Dps ( DNA binding protein from starved bacteria). The B. burgdorferi Dps paralogue is incapable of binding DNA. Instead, it bolsters the protective properties of the PG layer, while playing an important role in host immune modulation. Collectively, our findings highlight the plasticity of bacterial proteins in that they may change how they perform a task despite maintaining the same basic biological function.

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Most cited references 94

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Automated electron microscope tomography using robust prediction of specimen movements.

David Mastronarde (2005)

A new method was developed to acquire images automatically at a series of specimen tilts, as required for tomographic reconstruction. The method uses changes in specimen position at previous tilt angles to predict the position at the current tilt angle. Actual measurement of the position or focus is skipped if the statistical error of the prediction is low enough. This method allows a tilt series to be acquired rapidly when conditions are good but falls back toward the traditional approach of taking focusing and tracking images when necessary. The method has been implemented in a program, SerialEM, that provides an efficient environment for data acquisition. This program includes control of an energy filter as well as a low-dose imaging mode, in which tracking and focusing occur away from the area of interest. The program can automatically acquire a montage of overlapping frames, allowing tomography of areas larger than the field of the CCD camera. It also includes tools for navigating between specimen positions and finding regions of interest.

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J R Kremer, D Mastronarde, J McIntosh (1996)

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Is Open Access

TrackMate: An open and extensible platform for single-particle tracking.

Jean-Yves Tinevez, Nick Perry, Johannes Schindelin … (2017)

We present TrackMate, an open source Fiji plugin for the automated, semi-automated, and manual tracking of single-particles. It offers a versatile and modular solution that works out of the box for end users, through a simple and intuitive user interface. It is also easily scriptable and adaptable, operating equally well on 1D over time, 2D over time, 3D over time, or other single and multi-channel image variants. TrackMate provides several visualization and analysis tools that aid in assessing the relevance of results. The utility of TrackMate is further enhanced through its ability to be readily customized to meet specific tracking problems. TrackMate is an extensible platform where developers can easily write their own detection, particle linking, visualization or analysis algorithms within the TrackMate environment. This evolving framework provides researchers with the opportunity to quickly develop and optimize new algorithms based on existing TrackMate modules without the need of having to write de novo user interfaces, including visualization, analysis and exporting tools. The current capabilities of TrackMate are presented in the context of three different biological problems. First, we perform Caenorhabditis-elegans lineage analysis to assess how light-induced damage during imaging impairs its early development. Our TrackMate-based lineage analysis indicates the lack of a cell-specific light-sensitive mechanism. Second, we investigate the recruitment of NEMO (NF-κB essential modulator) clusters in fibroblasts after stimulation by the cytokine IL-1 and show that photodamage can generate artifacts in the shape of TrackMate characterized movements that confuse motility analysis. Finally, we validate the use of TrackMate for quantitative lifetime analysis of clathrin-mediated endocytosis in plant cells.

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Author and article information

Contributors

Marisela M. Davis: Role: ConceptualizationRole: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Writing – original draft

Aaron M. Brock:

ORCID: https://orcid.org/0000-0002-3861-9074

Role: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Writing – review & editing

Tanner G. DeHart:

ORCID: https://orcid.org/0000-0002-8165-0376

Role: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Writing – review & editing

Brittany P. Boribong:

ORCID: https://orcid.org/0000-0003-1297-6337

Role: ConceptualizationRole: Formal analysisRole: MethodologyRole: Visualization

Katherine Lee:

ORCID: https://orcid.org/0000-0002-0654-1583

Role: ConceptualizationRole: Data curationRole: Formal analysisRole: MethodologyRole: Visualization

Mecaila E. McClune:

ORCID: https://orcid.org/0000-0002-9071-540X

Role: Data curationRole: Formal analysisRole: MethodologyRole: Writing – review & editing

Yunjie Chang: Role: Data curationRole: Formal analysisRole: MethodologyRole: Visualization

Nicholas Cramer:

ORCID: https://orcid.org/0000-0003-1237-4168

Role: Data curationRole: Formal analysisRole: MethodologyRole: Writing – review & editing

Jun Liu: Role: ConceptualizationRole: Data curationRole: Project administrationRole: ResourcesRole: Visualization

Caroline N. Jones:

ORCID: https://orcid.org/0000-0001-6003-9335

Role: ConceptualizationRole: Data curationRole: MethodologyRole: Project administrationRole: ResourcesRole: Writing – review & editing

Brandon L. Jutras:

ORCID: https://orcid.org/0000-0002-7989-1031

Role: ConceptualizationRole: Formal analysisRole: Funding acquisitionRole: InvestigationRole: MethodologyRole: Project administrationRole: ResourcesRole: SupervisionRole: Writing – original draft

D. Scott Samuels: Role: Editor

Journal

Journal ID (nlm-ta): PLoS Pathog

Journal ID (iso-abbrev): PLoS Pathog

Journal ID (publisher-id): plos

Journal ID (pmc): plospath

Title: PLoS Pathogens

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Print): 1553-7366

ISSN (Electronic): 1553-7374

Publication date (Electronic): 13 May 2021

Publication date Collection: May 2021

Volume: 17

Issue: 5

Electronic Location Identifier: e1009546

Affiliations

[1 ] Department of Biochemistry, Virginia Tech, Blacksburg, Virginia, United States of America

[2 ] Fralin Life Sciences Institute, Virginia Tech, Blacksburg, Virginia, United States of America

[3 ] Molecular and Cellular Biology, Virginia Tech, Blacksburg, Virginia, United States of America

[4 ] Genetics, Bioinformatics, and Computational Biology, Virginia Tech, Blacksburg, Virginia, United States of America

[5 ] Department of Biological Sciences, Virginia Tech, Blacksburg, Virginia, United States of America

[6 ] Department of Microbial Pathogenesis, Yale School of Medicine, New Haven, Connecticut, United States of America

[7 ] Microbial Sciences Institute, Yale University, West Haven, Connecticut, United States of America

[8 ] Center for Emerging, Zoonotic and Arthropod-borne Pathogens, Virginia Tech, Blacksburg, Virginia, United States of America

[9 ] Translational Biology, Medicine, and Health, Virginia Tech, Blacksburg, Virginia, United States of America

University of Montana, UNITED STATES

Author notes

All authors declare no competing interests.

[¤a]

Current address: Department of Microbiology and Immunology, Virginia Commonwealth University, Richmond, Virginia, United States of America

[¤b]

Current address: Department of Bioengineering, University of Texas, Dallas, Texas, United States of America

* E-mail: bjutras@ 123456vt.edu

Author information

Aaron M. Brock https://orcid.org/0000-0002-3861-9074

Tanner G. DeHart https://orcid.org/0000-0002-8165-0376

Brittany P. Boribong https://orcid.org/0000-0003-1297-6337

Katherine Lee https://orcid.org/0000-0002-0654-1583

Mecaila E. McClune https://orcid.org/0000-0002-9071-540X

Nicholas Cramer https://orcid.org/0000-0003-1237-4168

Caroline N. Jones https://orcid.org/0000-0001-6003-9335

Brandon L. Jutras https://orcid.org/0000-0002-7989-1031

Article

Publisher ID: PPATHOGENS-D-21-00267

DOI: 10.1371/journal.ppat.1009546

PMC ID: 8118282

PubMed ID: 33984073

SO-VID: 60f8fd73-3f9b-4384-b39a-52f0687e1692

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 3 February 2021

Date accepted : 8 April 2021

Page count

Figures: 6, Tables: 0, Pages: 28

Funding

Funded by: Steven & Alexandra Cohen Foundation

Award Recipient :

ORCID: https://orcid.org/0000-0002-7989-1031

Brandon L. Jutras

Funded by: National Institutes Allergy and Infectious Disease

Award ID: R21AI159800-01

Award Recipient :

ORCID: https://orcid.org/0000-0002-7989-1031

Brandon L. Jutras

Funded by: Virginia Tech

Award Recipient :

ORCID: https://orcid.org/0000-0002-7989-1031

Brandon L. Jutras

Funded by: Fralin Life Sciences Institute

Award Recipient :

ORCID: https://orcid.org/0000-0002-7989-1031

Brandon L. Jutras

Funded by: funder-id http://dx.doi.org/10.13039/100000199, U.S. Department of Agriculture;

Award ID: VA-160113

Award Recipient :

ORCID: https://orcid.org/0000-0002-7989-1031

Brandon L. Jutras

Funded by: George Washington Carver Fellowship

Award Recipient : Mari M. Davis

Funded by: George Washington Carver Fellowship

Award Recipient :

ORCID: https://orcid.org/0000-0002-3861-9074

Aaron M. Brock

Funding was provided in part by the Steven & Alexandra Cohen Foundation, the National Institutes Allergy and Infectious Disease (R21AI159800-01), Virginia Tech, the Fralin Life Sciences Institute, and the USDA (VA-160113), all awarded to BLJ. MMD and AB are supported by a George Washington Carver Fellowship. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of manuscript.

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Data Availability All relevant data are within the manuscript and Supporting information.

ScienceOpen disciplines: Infectious disease & Microbiology

Data availability:

ScienceOpen disciplines: Infectious disease & Microbiology

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The peptidoglycan-associated protein NapA plays an important role in the envelope integrity and in the pathogenesis of the lyme disease spirochete

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AIP Publishing: Coronavirus

Most cited references 94

Automated electron microscope tomography using robust prediction of specimen movements.

Computer visualization of three-dimensional image data using IMOD.

TrackMate: An open and extensible platform for single-particle tracking.

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