CLIC1 regulates dendritic cell antigen processing and presentation by modulating phagosome acidification and proteolysis

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ABSTRACT

Intracellular chloride channel protein 1 (CLIC1) participates in inflammatory processes by regulating macrophage phagosomal functions such as pH and proteolysis. Here, we sought to determine if CLIC1 can regulate adaptive immunity by actions on dendritic cells (DCs), the key professional antigen presenting cells. To do this, we first generated bone marrow-derived DCs (BMDCs) from germline CLIC1 gene-deleted ( CLIC1 ^−/−) and wild-type ( CLIC1 ^+/+) mice, then studied them in vitro and in vivo. We found phagocytosis triggered cytoplasmic CLIC1 translocation to the phagosomal membrane where it regulated phagosomal pH and proteolysis. Phagosomes from CLIC1 ^−/− BMDCs displayed impaired acidification and proteolysis, which could be reproduced if CLIC1 ^+/+, but not CLIC1 ^−/− cells, were treated with IAA94, a CLIC family ion channel blocker. CLIC1 ^−/− BMDC displayed reduced in vitro antigen processing and presentation of full-length myelin oligodendrocyte glycoprotein (MOG) and reduced MOG-induced experimental autoimmune encephalomyelitis. These data suggest that CLIC1 regulates DC phagosomal pH to ensure optimal processing of antigen for presentation to antigen-specific T-cells. Further, they indicate that CLIC1 is a novel therapeutic target to help reduce the adaptive immune response in autoimmune diseases.

Abstract

Summary: DC phagosomes from CLIC1 ^−/− mice display impaired acidification and in vivo and in vitro antigen processing and presentation, revealing CLIC1 ^−/− as a potential therapeutic target in reducing the adaptive immune response in autoimmune diseases.

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Most cited references 54

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Two types of murine helper T cell clone. I. Definition according to profiles of lymphokine activities and secreted proteins.

T R Mosmann, H Cherwinski, M Bond … (1986)

A panel of antigen-specific mouse helper T cell clones was characterized according to patterns of lymphokine activity production, and two types of T cell were distinguished. Type 1 T helper cells (TH1) produced IL 2, interferon-gamma, GM-CSF, and IL 3 in response to antigen + presenting cells or to Con A, whereas type 2 helper T cells (TH2) produced IL 3, BSF1, and two other activities unique to the TH2 subset, a mast cell growth factor distinct from IL 3 and a T cell growth factor distinct from IL 2. Clones representing each type of T cell were characterized, and the pattern of lymphokine activities was consistent within each set. The secreted proteins induced by Con A were analyzed by biosynthetic labeling and SDS gel electrophoresis, and significant differences were seen between the two groups of T cell line. Both types of T cell grew in response to alternating cycles of antigen stimulation, followed by growth in IL 2-containing medium. Examples of both types of T cell were also specific for or restricted by the I region of the MHC, and the surface marker phenotype of the majority of both types was Ly-1+, Lyt-2-, L3T4+, Both types of helper T cell could provide help for B cells, but the nature of the help differed. TH1 cells were found among examples of T cell clones specific for chicken RBC and mouse alloantigens. TH2 cells were found among clones specific for mouse alloantigens, fowl gamma-globulin, and KLH. The relationship between these two types of T cells and previously described subsets of T helper cells is discussed.

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Cell biology of antigen processing in vitro and in vivo.

E. Trombetta, Ira Mellman (2005)

The conversion of exogenous and endogenous proteins into immunogenic peptides recognized by T lymphocytes involves a series of proteolytic and other enzymatic events culminating in the formation of peptides bound to MHC class I or class II molecules. Although the biochemistry of these events has been studied in detail, only in the past few years has similar information begun to emerge describing the cellular context in which these events take place. This review thus concentrates on the properties of antigen-presenting cells, especially those aspects of their overall organization, regulation, and intracellular transport that both facilitate and modulate the processing of protein antigens. Emphasis is placed on dendritic cells and the specializations that help account for their marked efficiency at antigen processing and presentation both in vitro and, importantly, in vivo. How dendritic cells handle antigens is likely to be as important a determinant of immunogenicity and tolerance as is the nature of the antigens themselves.

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Myelin Oligodendrocyte Glycoprotein–specific T Cell Receptor Transgenic Mice Develop Spontaneous Autoimmune Optic Neuritis

Estelle Bettelli, Maria Pagany, Howard Weiner … (2003)

Multiple sclerosis (MS) is considered to be an autoimmune disease of the central nervous system (CNS) that in many patients first presents clinically as optic neuritis. The relationship of optic neuritis to MS is not well understood. We have generated novel T cell receptor (TCR) transgenic mice specific for myelin oligodendrocyte glycoprotein (MOG). MOG-specific transgenic T cells are not deleted nor tolerized and are functionally competent. A large proportion (>30%) of MOG-specific TCR transgenic mice spontaneously develop isolated optic neuritis without any clinical nor histological evidence of experimental autoimmune encephalomyelitis (EAE). Optic neuritis without EAE could also be induced in these mice by sensitization with suboptimal doses of MOG. The predilection of these mice to develop optic neuritis is associated with higher expression of MOG in the optic nerve than in the spinal cord. These results demonstrate that clinical manifestations of CNS autoimmune disease will vary depending on the identity of the target autoantigen and that MOG-specific T cell responses are involved in the genesis of isolated optic neuritis.

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Author and article information

Journal

Journal ID (nlm-ta): Biol Open

Journal ID (iso-abbrev): Biol Open

Journal ID (publisher-id): BIO

Journal ID (hwp): biolopen

Title: Biology Open

Publisher: The Company of Biologists Ltd

ISSN (Electronic): 2046-6390

Publication date Collection: 15 May 2016

Publication date (Electronic): 25 April 2016

Publication date PMC-release: 25 April 2016

Volume: 5

Issue: 5

Pages: 620-630

Affiliations

[1 ]St Vincent's Centre for Applied Medical Research, St. Vincent's Hospital and University of New South Wales , Sydney, New South Wales 2010, Australia

[2 ]School of Physics, University of New South Wales , Sydney, New South Wales 2052, Australia

[3 ]Department of Chemistry and Biomolecular Sciences, Macquarie University , Sydney, New South Wales 2109, Australia

Author notes

[*]

Present address: School of Life Sciences, University of Technology Sydney, New South Wales 2007, Australia.

[‡]

These authors contributed equally to this work

[§ ]Author for correspondence ( s.breit@ 123456amr.org.au )

Author information

Samuel N. Breit http://orcid.org/0000-0002-9021-9879

Article

Publisher ID: BIO018119

DOI: 10.1242/bio.018119

PMC ID: 4874360

PubMed ID: 27113959

SO-VID: ea9f4f2e-1afa-40ff-8bfa-19c6a710d5b5

License:

This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.

History

Date received : 8 March 2016

Date accepted : 29 March 2016

Funding

Funded by: National Health and Medical Research Council, http://dx.doi.org/10.13039/501100000925;

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CLIC1 regulates dendritic cell antigen processing and presentation by modulating phagosome acidification and proteolysis

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Most cited references 54

Two types of murine helper T cell clone. I. Definition according to profiles of lymphokine activities and secreted proteins.

Cell biology of antigen processing in vitro and in vivo.

Myelin Oligodendrocyte Glycoprotein–specific T Cell Receptor Transgenic Mice Develop Spontaneous Autoimmune Optic Neuritis

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