Microfold Cells Actively Translocate Mycobacterium tuberculosis to Initiate Infection

Vidhya R. Nair; Luis H. Franco; Vineetha M. Zacharia; Haaris S. Khan; Chelsea E. Stamm; Wu You; Denise K. Marciano; Hideo Yagita; Beth Levine; Michael U. Shiloh

doi:10.1016/j.celrep.2016.06.080

Microfold Cells Actively Translocate Mycobacterium tuberculosis to Initiate Infection

Vidhya R. Nair, Luis H. Franco, Vineetha M. Zacharia, Haaris S. Khan, Chelsea E. Stamm, Wu You, Denise K. Marciano, Hideo Yagita, Beth Levine, Michael U. Shiloh

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

The prevailing paradigm is that tuberculosis infection is initiated when patrolling alveolar macrophages and dendritic cells within the terminal alveolus ingest inhaled Mycobacterium tuberculosis (Mtb). However, definitive data for this model are lacking. Among the epithelial cells of the upper airway, a specialized epithelial cell known as a microfold cell (M cell) overlies various components of mucosa-associated lymphatic tissue. Here, using multiple mouse models, we show that Mtb invades via M cells to initiate infection. Intranasal Mtb infection in mice lacking M cells either genetically or by antibody depletion resulted in reduced invasion and dissemination to draining lymph nodes. M cell-depleted mice infected via aerosol also had delayed dissemination to lymph nodes and reduced mortality. Translocation of Mtb across two M cell transwell models was rapid and transcellular. Thus, M cell translocation is a vital entry mechanism that contributes to the pathogenesis of Mtb.

Original language	English (US)
Pages (from-to)	1253-1258
Number of pages	6
Journal	Cell Reports
Volume	16
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2016.06.080
State	Published - Aug 2 2016

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2016.06.080

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title = "Microfold Cells Actively Translocate Mycobacterium tuberculosis to Initiate Infection",

abstract = "The prevailing paradigm is that tuberculosis infection is initiated when patrolling alveolar macrophages and dendritic cells within the terminal alveolus ingest inhaled Mycobacterium tuberculosis (Mtb). However, definitive data for this model are lacking. Among the epithelial cells of the upper airway, a specialized epithelial cell known as a microfold cell (M cell) overlies various components of mucosa-associated lymphatic tissue. Here, using multiple mouse models, we show that Mtb invades via M cells to initiate infection. Intranasal Mtb infection in mice lacking M cells either genetically or by antibody depletion resulted in reduced invasion and dissemination to draining lymph nodes. M cell-depleted mice infected via aerosol also had delayed dissemination to lymph nodes and reduced mortality. Translocation of Mtb across two M cell transwell models was rapid and transcellular. Thus, M cell translocation is a vital entry mechanism that contributes to the pathogenesis of Mtb.",

author = "Nair, {Vidhya R.} and Franco, {Luis H.} and Zacharia, {Vineetha M.} and Khan, {Haaris S.} and Stamm, {Chelsea E.} and Wu You and Marciano, {Denise K.} and Hideo Yagita and Beth Levine and Shiloh, {Michael U.}",

note = "Funding Information: We thank R. Sumpter for help with microscopy and the University of Texas Southwestern microscopy core for assistance with electron microscopy. We thank L. Desvignes and J. Ernst (New York University) for sharing their flow cytometry protocol for pulmonary cells. This work was supported by NIH Grants R01 AI099439 and R21 AI111023 (to M.U.S.), R01 DK099478 (to D.K.M.), U19 AI109725 (to B.L. and M.U.S.), and T32AI007520 (to V.M.Z. and C.E.S.). M.U.S. is a Disease-Oriented Clinical Scholar at University of Texas Southwestern Medical Center. Publisher Copyright: {\textcopyright} 2016 The Author(s)",

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AU - Nair, Vidhya R.

AU - Franco, Luis H.

AU - Zacharia, Vineetha M.

AU - Khan, Haaris S.

AU - Stamm, Chelsea E.

AU - You, Wu

AU - Marciano, Denise K.

AU - Yagita, Hideo

AU - Levine, Beth

AU - Shiloh, Michael U.

N1 - Funding Information: We thank R. Sumpter for help with microscopy and the University of Texas Southwestern microscopy core for assistance with electron microscopy. We thank L. Desvignes and J. Ernst (New York University) for sharing their flow cytometry protocol for pulmonary cells. This work was supported by NIH Grants R01 AI099439 and R21 AI111023 (to M.U.S.), R01 DK099478 (to D.K.M.), U19 AI109725 (to B.L. and M.U.S.), and T32AI007520 (to V.M.Z. and C.E.S.). M.U.S. is a Disease-Oriented Clinical Scholar at University of Texas Southwestern Medical Center. Publisher Copyright: © 2016 The Author(s)

PY - 2016/8/2

Y1 - 2016/8/2

N2 - The prevailing paradigm is that tuberculosis infection is initiated when patrolling alveolar macrophages and dendritic cells within the terminal alveolus ingest inhaled Mycobacterium tuberculosis (Mtb). However, definitive data for this model are lacking. Among the epithelial cells of the upper airway, a specialized epithelial cell known as a microfold cell (M cell) overlies various components of mucosa-associated lymphatic tissue. Here, using multiple mouse models, we show that Mtb invades via M cells to initiate infection. Intranasal Mtb infection in mice lacking M cells either genetically or by antibody depletion resulted in reduced invasion and dissemination to draining lymph nodes. M cell-depleted mice infected via aerosol also had delayed dissemination to lymph nodes and reduced mortality. Translocation of Mtb across two M cell transwell models was rapid and transcellular. Thus, M cell translocation is a vital entry mechanism that contributes to the pathogenesis of Mtb.

AB - The prevailing paradigm is that tuberculosis infection is initiated when patrolling alveolar macrophages and dendritic cells within the terminal alveolus ingest inhaled Mycobacterium tuberculosis (Mtb). However, definitive data for this model are lacking. Among the epithelial cells of the upper airway, a specialized epithelial cell known as a microfold cell (M cell) overlies various components of mucosa-associated lymphatic tissue. Here, using multiple mouse models, we show that Mtb invades via M cells to initiate infection. Intranasal Mtb infection in mice lacking M cells either genetically or by antibody depletion resulted in reduced invasion and dissemination to draining lymph nodes. M cell-depleted mice infected via aerosol also had delayed dissemination to lymph nodes and reduced mortality. Translocation of Mtb across two M cell transwell models was rapid and transcellular. Thus, M cell translocation is a vital entry mechanism that contributes to the pathogenesis of Mtb.

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Microfold Cells Actively Translocate Mycobacterium tuberculosis to Initiate Infection

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