ANNA‐3 anti‐neuronal nuclear antibody: Marker of lung cancer‐related autoimmunity

Expansion of tumor-associated Treg cells upon disruption of a CTLA-4-dependent feedback loop Graphical abstract Highlights d The TCR repertoire of Treg cells is enriched for reactivity to antigens in the TME d Tumor Treg cells use CTLA-4 to destabilize their own interactions with dendritic cells d CTLA-4 blockade causes the CD28-mediated expansion of tumor-associated Treg cells d Following CTLA-4 blockade, Treg cells continue to promote tumor immune tolerance

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CXCL10 stabilizes T cell–brain endothelial cell adhesion leading to the induction of cerebral malaria

Sorensen¹,

Lian²,

Ozga³

et al. 2018

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Malaria remains one of the world's most significant human infectious diseases and cerebral malaria (CM) is its most deadly complication. CM pathogenesis remains incompletely understood, hindering the development of therapeutics to prevent this lethal complication. Elevated levels of the chemokine CXCL10 are a biomarker for CM, and CXCL10 and its receptor CXCR3 are required for experimental CM (ECM) in mice, but their role has remained unclear. Using multiphoton intravital microscopy, CXCR3 receptor- and ligand-deficient mice and bone marrow chimeric mice, we demonstrate a key role for endothelial cell-produced CXCL10 in inducing the firm adhesion of T cells and preventing their cell detachment from the brain vasculature. Using a CXCL9 and CXCL10 dual-CXCR3-ligand reporter mouse, we found that CXCL10 was strongly induced in the brain endothelium as early as 4 days after infection, while CXCL9 and CXCL10 expression was found in inflammatory monocytes and monocyte-derived DCs within the blood vasculature on day 8. The induction of both CXCL9 and CXCL10 was completely dependent on IFN-γ receptor signaling. These data demonstrate that IFN-γ-induced, endothelium-derived CXCL10 plays a critical role in mediating the T cell-endothelial cell adhesive events that initiate the inflammatory cascade that injures the endothelium and induces the development of ECM.

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Light sheet fluorescence microscopy for in situ cell interaction analysis in mouse lymph nodes

Abe

Ozga

Swoger

et al. 2016

Journal of Immunological Methods

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Reactive lymph nodes (LNs) are sites where pMHC-loaded dendritic cells (DCs) interact with rare cognate T cells, leading to their clonal expansion. While DC interactions with T cell subsets critically shape the ensuing immune response, surprisingly little is known on their spatial orchestration at physiologically T cell low precursor frequencies. Light sheet fluorescence microscopy and one of its implementations, selective plane illumination microscopy (SPIM), is a powerful method to obtain precise spatial information of entire organs of 0.5-10mm diameter, the size range of murine LNs. Yet, its usefulness for immunological research has thus far not been comprehensively explored. Here, we have tested and defined protocols that preserve fluorescent protein function during lymphoid tissue clearing required for SPIM. Reconstructions of SPIM-generated 3D data sets revealed that calibrated numbers of adoptively transferred T cells and DCs are successfully detected at a single cell level within optically cleared murine LNs. Finally, we define parameters to quantify specific interactions between antigen-specific T cells and pMHC-bearing DCs in murine LNs. In sum, our studies describe the successful application of light sheet fluorescence microscopy to immunologically relevant tissues.

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The Role of Metalloproteinase ADAM17 in Regulating ICOS Ligand–Mediated Humoral Immune Responses

Marczynska

Ozga

Włodarczyk

et al. 2014

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Immune cells regulate cell surface receptor expression during their maturation, activation, and motility. Although many of these receptors are regulated largely at the level of expression, protease-mediated ectodomain shedding represents an alternative means of refashioning the surface of immune cells. Shedding is largely attributed to a family of a disintegrin and metalloprotease domain (ADAM) metalloproteases, including ADAM17. Although ADAM17 is well known to contribute to the innate immune response, mainly by releasing TNF-α, much less is known about whether/how this metalloprotease regulates adaptive immunity. To determine whether ADAM17 contributes to regulating adaptive immune responses, we took advantage of ADAM17 hypomorphic (ADAM17ex/ex) mice, in which ADAM17 expression is reduced by 90–95% compared with wild-type littermates. In this study, we show that that ADAM17 deficiency results in spleen and lymph node enlargement, as well as increased levels of Ag-specific class-switched Ig production following immunization with OVA together with anti-CD40 mAbs and polyinosinic-polycytidylic acid. Moreover, we demonstrate that the costimulatory ligand ICOS ligand (ICOSL) is selectively downregulated on the surface of B cells in an ADAM17-specific manner, although it is not proteolitically processed by recombinant ADAM17 in vitro. Finally, we show that higher cell surface levels of ICOSL in ADAM17ex/ex mice may contribute to the development of excessive Ab responses. Therefore, our data suggest a functional link between ADAM17 and ICOSL in controlling adaptive immune responses.

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Aleksandra J. Ozga

Intratumoral Activity of the CXCR3 Chemokine System Is Required for the Efficacy of Anti-PD-1 Therapy

Chemokines and the immune response to cancer

CXCR6 positions cytotoxic T cells to receive critical survival signals in the tumor microenvironment

pMHC affinity controls duration of CD8+ T cell–DC interactions and imprints timing of effector differentiation versus expansion

Expansion of tumor-associated Treg cells upon disruption of a CTLA-4-dependent feedback loop

CXCL10 stabilizes T cell–brain endothelial cell adhesion leading to the induction of cerebral malaria

Light sheet fluorescence microscopy for in situ cell interaction analysis in mouse lymph nodes

The Role of Metalloproteinase ADAM17 in Regulating ICOS Ligand–Mediated Humoral Immune Responses

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