One crucial mechanism by which the skin defends the host against microbial infection involves the innate immune function of the epidermis, mediated in part by Langerhans cells (LC), a skin-specific resident dendritic cell (DC) subset, that instructs the adaptive T cell response. A unique aspect of LC is the co-expression of CD1a and the C-type lectin langerin. We demonstrated that LC contribute to the cutaneous immune response to Mycobacterium leprae (mLEP), the causative agent of leprosy via a langerin-dependent, CD1a-restricted antigen presentation pathway to T cells. We have uncovered new paradigms of CD1 immunobiology including: defining the structure of lipid-containing CD1-restricted T cell antigens, mechanisms of CD1 antigen presentation, mechanisms by which CD1 expression is regulated in skin, and the first evidence for a direct T cell mediated antimicrobial activity. Based on these findings, we are able to hypothesize a new paradigm for how LC and CD1a restricted T cells interact to recognize and control bacterial infections in the skin. Specifically: i) CD1a positive LC present bacterial lipoproteins antigens and that this presentation is linked to langerin mediated uptake of the pathogen or antigen; ii) antigen presentation by LC induces a novel cytotoxic T cell subset, the `polycytotoxic' T cell, that delivers the antimicrobial protein granulysin into infected target cells as part of a host defense response; and, iii) activated LC directly kill intracellular pathogens resulting in enhanced antige presentation to T cells. We propose studies to explore this new model of LC and CD1 immunobiology in relationship to host defense in skin through the study of leprosy as a model. We propose in Aim 1, determine the role of LC in the induction of `polycytotoxic' T cells in skin, in Aim 2, investigate the mechanisms by which CD1a-restricted T cells kill mLEP in LC, and, in Aim 3, elucidate the structure of antigens presented by LC via CD1a to T cells. These studies are intended to provide a comprehensive and in depth view of CD1-restricted T cell function and LC biology in relation to a model of human skin disease, leprosy, with the goal of understanding mechanisms of host defense to microbial pathogens in skin. Such insights could provide new avenues for development of immunomodulatory and immunoprophylactic treatments for a variety of human skin and infectious diseases.

Public Health Relevance

Langerhans cells are resident cells of skin that participate in the immune responses. We propose to study leprosy as a model to gain insight into the mechanism by which Langerhans cells indirectly contribute to host defense against infection by the activation of T cells and directly mediate antimicrobial responses.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR040312-28
Application #
9478109
Study Section
Arthritis, Connective Tissue and Skin Study Section (ACTS)
Program Officer
Cibotti, Ricardo
Project Start
1991-04-01
Project End
2021-04-30
Budget Start
2018-05-01
Budget End
2019-04-30
Support Year
28
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of California Los Angeles
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
092530369
City
Los Angeles
State
CA
Country
United States
Zip Code
90095
Scumpia, Philip O; Botten, Giovanni A; Norman, Joshua S et al. (2017) Opposing roles of Toll-like receptor and cytosolic DNA-STING signaling pathways for Staphylococcus aureus cutaneous host defense. PLoS Pathog 13:e1006496
Steiger, Julia; Stephan, Alexander; Inkeles, Megan S et al. (2016) Imatinib Triggers Phagolysosome Acidification and Antimicrobial Activity against Mycobacterium bovis Bacille Calmette-Guérin in Glucocorticoid-Treated Human Macrophages. J Immunol 197:222-32
Realegeno, Susan; Kelly-Scumpia, Kindra M; Dang, Angeline Tilly et al. (2016) S100A12 Is Part of the Antimicrobial Network against Mycobacterium leprae in Human Macrophages. PLoS Pathog 12:e1005705
Kibbie, Jon; Teles, Rosane M B; Wang, Zhiming et al. (2016) Jagged1 Instructs Macrophage Differentiation in Leprosy. PLoS Pathog 12:e1005808
Schenk, Mirjam; Mahapatra, Sebabrata; Le, Phuonganh et al. (2016) Human NOD2 Recognizes Structurally Unique Muramyl Dipeptides from Mycobacterium leprae. Infect Immun 84:2429-38
Rotcheewaphan, Suwatchareeporn; Belisle, John T; Webb, Kristofor J et al. (2016) Diguanylate cyclase activity of the Mycobacterium leprae T cell antigen ML1419c. Microbiology 162:1651-1661
Inkeles, Megan S; Teles, Rosane M B; Pouldar, Delila et al. (2016) Cell-type deconvolution with immune pathways identifies gene networks of host defense and immunopathology in leprosy. JCI Insight 1:e88843
Busch, Martin; Herzmann, Christian; Kallert, Stephanie et al. (2016) Lipoarabinomannan-Responsive Polycytotoxic T Cells Are Associated with Protection in Human Tuberculosis. Am J Respir Crit Care Med 194:345-55
Meller, Stephan; Di Domizio, Jeremy; Voo, Kui S et al. (2015) T(H)17 cells promote microbial killing and innate immune sensing of DNA via interleukin 26. Nat Immunol 16:970-9
Cappuccio, Antonio; Zollinger, Raphaël; Schenk, Mirjam et al. (2015) Combinatorial code governing cellular responses to complex stimuli. Nat Commun 6:6847

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