Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis

Arshad Khan; Kangling Zhang; Vipul K. Singh; Abhishek Mishra; Priyanka Kachroo; Tian Bing; Jong Hak Won; Arunmani Mani; Ramesha Papanna; Lovepreet K. Mann; Eder Ledezma-Campos; Genesis Aguillon-Duran; David H. Canaday; Sunil A. David; Blanca I. Restrepo; Nhung Nguyen Viet; Ha Phan; Edward A. Graviss; James M. Musser; Deepak Kaushal; Marie Claire Gauduin; Chinnaswamy Jagannath

doi:10.1038/s42003-022-03387-9

Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis

Arshad Khan, Kangling Zhang, Vipul K. Singh, Abhishek Mishra, Priyanka Kachroo, Tian Bing, Jong Hak Won, Arunmani Mani, Ramesha Papanna, Lovepreet K. Mann, Eder Ledezma-Campos, Genesis Aguillon-Duran, David H. Canaday, Sunil A. David, Blanca I. Restrepo, Nhung Nguyen Viet, Ha Phan, Edward A. Graviss, James M. Musser, Deepak KaushalMarie Claire Gauduin, Chinnaswamy Jagannath

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

10 Scopus citations

Abstract

Mycobacterium tuberculosis (Mtb) is responsible for approximately 1.5 million deaths each year. Though 10% of patients develop tuberculosis (TB) after infection, 90% of these infections are latent. Further, mice are nearly uniformly susceptible to Mtb but their M1-polarized macrophages (M1-MΦs) can inhibit Mtb in vitro, suggesting that M1-MΦs may be able to regulate anti-TB immunity. We sought to determine whether human MΦ heterogeneity contributes to TB immunity. Here we show that IFN-γ-programmed M1-MΦs degrade Mtb through increased expression of innate immunity regulatory genes (Inregs). In contrast, IL-4-programmed M2-polarized MΦs (M2-MΦs) are permissive for Mtb proliferation and exhibit reduced Inregs expression. M1-MΦs and M2-MΦs express pro- and anti-inflammatory cytokine-chemokines, respectively, and M1-MΦs show nitric oxide and autophagy-dependent degradation of Mtb, leading to increased antigen presentation to T cells through an ATG-RAB7-cathepsin pathway. Despite Mtb infection, M1-MΦs show increased histone acetylation at the ATG5 promoter and pro-autophagy phenotypes, while increased histone deacetylases lead to decreased autophagy in M2-MΦs. Finally, Mtb-infected neonatal macaques express human Inregs in their lymph nodes and macrophages, suggesting that M1 and M2 phenotypes can mediate immunity to TB in both humans and macaques. We conclude that human MФ subsets show unique patterns of gene expression that enable differential control of TB after infection. These genes could serve as targets for diagnosis and immunotherapy of TB.

Original language	English (US)
Article number	480
Pages (from-to)	480
Journal	Communications Biology
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s42003-022-03387-9
State	Published - May 19 2022

Keywords

Animals
Cytokines/genetics
Humans
Immunity, Innate/genetics
Macrophages/metabolism
Mice
Mycobacterium tuberculosis
Tuberculosis/metabolism

ASJC Scopus subject areas

Agricultural and Biological Sciences(all)
Biochemistry, Genetics and Molecular Biology(all)
Medicine (miscellaneous)

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10.1038/s42003-022-03387-9

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Khan, A., Zhang, K., Singh, V. K., Mishra, A., Kachroo, P., Bing, T., Won, J. H., Mani, A., Papanna, R., Mann, L. K., Ledezma-Campos, E., Aguillon-Duran, G., Canaday, D. H., David, S. A., Restrepo, B. I., Viet, N. N., Phan, H., Graviss, E. A., Musser, J. M., ... Jagannath, C. (2022). Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis. Communications Biology, 5(1), 480. Article 480. https://doi.org/10.1038/s42003-022-03387-9

Khan, A, Zhang, K, Singh, VK, Mishra, A, Kachroo, P, Bing, T, Won, JH, Mani, A, Papanna, R, Mann, LK, Ledezma-Campos, E, Aguillon-Duran, G, Canaday, DH, David, SA, Restrepo, BI, Viet, NN, Phan, H, Graviss, EA , Musser, JM, Kaushal, D, Gauduin, MC & Jagannath, C 2022, 'Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis', Communications Biology, vol. 5, no. 1, 480, pp. 480. https://doi.org/10.1038/s42003-022-03387-9

@article{a9499918ad5f4e82b4e3048cbb40763b,

title = "Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis",

abstract = "Mycobacterium tuberculosis (Mtb) is responsible for approximately 1.5 million deaths each year. Though 10% of patients develop tuberculosis (TB) after infection, 90% of these infections are latent. Further, mice are nearly uniformly susceptible to Mtb but their M1-polarized macrophages (M1-MΦs) can inhibit Mtb in vitro, suggesting that M1-MΦs may be able to regulate anti-TB immunity. We sought to determine whether human MΦ heterogeneity contributes to TB immunity. Here we show that IFN-γ-programmed M1-MΦs degrade Mtb through increased expression of innate immunity regulatory genes (Inregs). In contrast, IL-4-programmed M2-polarized MΦs (M2-MΦs) are permissive for Mtb proliferation and exhibit reduced Inregs expression. M1-MΦs and M2-MΦs express pro- and anti-inflammatory cytokine-chemokines, respectively, and M1-MΦs show nitric oxide and autophagy-dependent degradation of Mtb, leading to increased antigen presentation to T cells through an ATG-RAB7-cathepsin pathway. Despite Mtb infection, M1-MΦs show increased histone acetylation at the ATG5 promoter and pro-autophagy phenotypes, while increased histone deacetylases lead to decreased autophagy in M2-MΦs. Finally, Mtb-infected neonatal macaques express human Inregs in their lymph nodes and macrophages, suggesting that M1 and M2 phenotypes can mediate immunity to TB in both humans and macaques. We conclude that human MФ subsets show unique patterns of gene expression that enable differential control of TB after infection. These genes could serve as targets for diagnosis and immunotherapy of TB.",

keywords = "Animals, Cytokines/genetics, Humans, Immunity, Innate/genetics, Macrophages/metabolism, Mice, Mycobacterium tuberculosis, Tuberculosis/metabolism",

author = "Arshad Khan and Kangling Zhang and Singh, {Vipul K.} and Abhishek Mishra and Priyanka Kachroo and Tian Bing and Won, {Jong Hak} and Arunmani Mani and Ramesha Papanna and Mann, {Lovepreet K.} and Eder Ledezma-Campos and Genesis Aguillon-Duran and Canaday, {David H.} and David, {Sunil A.} and Restrepo, {Blanca I.} and Viet, {Nhung Nguyen} and Ha Phan and Graviss, {Edward A.} and Musser, {James M.} and Deepak Kaushal and Gauduin, {Marie Claire} and Chinnaswamy Jagannath",

note = "Funding Information: The authors wish to acknowledge funding support from NIH R01 AI-1220709 (PI C.J.) & R01 AI-138587 (PIs D.K, C.J.) and Houston Methodist Research Institute for support funds. We wish to gratefully acknowledge Prof. Stefan Kauffman, Director Emeritus, Max Planck Institute for Biology, Berlin, Germany for reading this manuscript and offering suggestions. We are grateful to Ms. Winston Adrienne, Dr. Heather McConnell and Dr. Sasha Pejerrey for editing the manuscript. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = may,

day = "19",

doi = "10.1038/s42003-022-03387-9",

language = "English (US)",

volume = "5",

pages = "480",

journal = "Communications Biology",

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number = "1",

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TY - JOUR

T1 - Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis

AU - Khan, Arshad

AU - Zhang, Kangling

AU - Singh, Vipul K.

AU - Mishra, Abhishek

AU - Kachroo, Priyanka

AU - Bing, Tian

AU - Won, Jong Hak

AU - Mani, Arunmani

AU - Papanna, Ramesha

AU - Mann, Lovepreet K.

AU - Ledezma-Campos, Eder

AU - Aguillon-Duran, Genesis

AU - Canaday, David H.

AU - David, Sunil A.

AU - Restrepo, Blanca I.

AU - Viet, Nhung Nguyen

AU - Phan, Ha

AU - Graviss, Edward A.

AU - Musser, James M.

AU - Kaushal, Deepak

AU - Gauduin, Marie Claire

AU - Jagannath, Chinnaswamy

N1 - Funding Information: The authors wish to acknowledge funding support from NIH R01 AI-1220709 (PI C.J.) & R01 AI-138587 (PIs D.K, C.J.) and Houston Methodist Research Institute for support funds. We wish to gratefully acknowledge Prof. Stefan Kauffman, Director Emeritus, Max Planck Institute for Biology, Berlin, Germany for reading this manuscript and offering suggestions. We are grateful to Ms. Winston Adrienne, Dr. Heather McConnell and Dr. Sasha Pejerrey for editing the manuscript. Publisher Copyright: © 2022, The Author(s).

PY - 2022/5/19

Y1 - 2022/5/19

N2 - Mycobacterium tuberculosis (Mtb) is responsible for approximately 1.5 million deaths each year. Though 10% of patients develop tuberculosis (TB) after infection, 90% of these infections are latent. Further, mice are nearly uniformly susceptible to Mtb but their M1-polarized macrophages (M1-MΦs) can inhibit Mtb in vitro, suggesting that M1-MΦs may be able to regulate anti-TB immunity. We sought to determine whether human MΦ heterogeneity contributes to TB immunity. Here we show that IFN-γ-programmed M1-MΦs degrade Mtb through increased expression of innate immunity regulatory genes (Inregs). In contrast, IL-4-programmed M2-polarized MΦs (M2-MΦs) are permissive for Mtb proliferation and exhibit reduced Inregs expression. M1-MΦs and M2-MΦs express pro- and anti-inflammatory cytokine-chemokines, respectively, and M1-MΦs show nitric oxide and autophagy-dependent degradation of Mtb, leading to increased antigen presentation to T cells through an ATG-RAB7-cathepsin pathway. Despite Mtb infection, M1-MΦs show increased histone acetylation at the ATG5 promoter and pro-autophagy phenotypes, while increased histone deacetylases lead to decreased autophagy in M2-MΦs. Finally, Mtb-infected neonatal macaques express human Inregs in their lymph nodes and macrophages, suggesting that M1 and M2 phenotypes can mediate immunity to TB in both humans and macaques. We conclude that human MФ subsets show unique patterns of gene expression that enable differential control of TB after infection. These genes could serve as targets for diagnosis and immunotherapy of TB.

AB - Mycobacterium tuberculosis (Mtb) is responsible for approximately 1.5 million deaths each year. Though 10% of patients develop tuberculosis (TB) after infection, 90% of these infections are latent. Further, mice are nearly uniformly susceptible to Mtb but their M1-polarized macrophages (M1-MΦs) can inhibit Mtb in vitro, suggesting that M1-MΦs may be able to regulate anti-TB immunity. We sought to determine whether human MΦ heterogeneity contributes to TB immunity. Here we show that IFN-γ-programmed M1-MΦs degrade Mtb through increased expression of innate immunity regulatory genes (Inregs). In contrast, IL-4-programmed M2-polarized MΦs (M2-MΦs) are permissive for Mtb proliferation and exhibit reduced Inregs expression. M1-MΦs and M2-MΦs express pro- and anti-inflammatory cytokine-chemokines, respectively, and M1-MΦs show nitric oxide and autophagy-dependent degradation of Mtb, leading to increased antigen presentation to T cells through an ATG-RAB7-cathepsin pathway. Despite Mtb infection, M1-MΦs show increased histone acetylation at the ATG5 promoter and pro-autophagy phenotypes, while increased histone deacetylases lead to decreased autophagy in M2-MΦs. Finally, Mtb-infected neonatal macaques express human Inregs in their lymph nodes and macrophages, suggesting that M1 and M2 phenotypes can mediate immunity to TB in both humans and macaques. We conclude that human MФ subsets show unique patterns of gene expression that enable differential control of TB after infection. These genes could serve as targets for diagnosis and immunotherapy of TB.

KW - Animals

KW - Cytokines/genetics

KW - Humans

KW - Immunity, Innate/genetics

KW - Macrophages/metabolism

KW - Mice

KW - Mycobacterium tuberculosis

KW - Tuberculosis/metabolism

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UR - http://www.scopus.com/inward/citedby.url?scp=85130415554&partnerID=8YFLogxK

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DO - 10.1038/s42003-022-03387-9

M3 - Article

C2 - 35590096

AN - SCOPUS:85130415554

SN - 2399-3642

VL - 5

SP - 480

JO - Communications Biology

JF - Communications Biology

IS - 1

M1 - 480

ER -

Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis

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ASJC Scopus subject areas

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