Francis H.W. Shand scite author profile

Skin-derived dendritic cells (DCs) play a crucial role in the maintenance of immune homeostasis due to their role in antigen trafficking from the skin to the draining lymph nodes (dLNs). To quantify the spatiotemporal regulation of skin-derived DCs in vivo, we generated knock-in mice expressing the photoconvertible fluorescent protein KikGR. By exposing the skin or dLN of these mice to violet light, we were able to label and track the migration and turnover of endogenous skin-derived DCs. Langerhans cells and CD103+DCs, including Langerin+CD103+dermal DCs (DDCs), remained in the dLN for 4–4.5 days after migration from the skin, while CD103−DDCs persisted for only two days. Application of a skin irritant (chemical stress) induced a transient >10-fold increase in CD103−DDC migration from the skin to the dLN. Tape stripping (mechanical injury) induced a long-lasting four-fold increase in CD103−DDC migration to the dLN and accelerated the trafficking of exogenous protein antigens by these cells. Both stresses increased the turnover of CD103−DDCs within the dLN, causing these cells to die within one day of arrival. Therefore, CD103−DDCs act as sentinels against skin invasion that respond with increased cellular migration and antigen trafficking from the skin to the dLNs.

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Cellular and Molecular Mechanisms of Chronic Inflammation-Associated Organ Fibrosis

Ueha¹,

Shand²,

Matsushima³

2012

Front. Immun.

154

129

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Organ fibrosis is a pathological condition associated with chronic inflammatory diseases. In fibrosis, excessive deposition of extracellular matrix (ECM) severely impairs tissue architecture and function, eventually resulting in organ failure. This process is mediated primarily by the induction of myofibroblasts, which produce large amounts of collagen I, the main component of the ECM. Accordingly, the origin, developmental pathways, and mechanisms of myofibroblast regulation are attracting increasing attention as potential therapeutic targets. The fibrotic cascade, from initial epithelial damage to eventual myofibroblast induction, is mediated by complex biological processes such as macrophage infiltration, a shift from Th1 to Th2 phenotype, and by inflammatory mediators such as transforming growth factor-β. Here, we review the current understanding of the cellular and molecular mechanisms underlying organ fibrosis.

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Tracking of intertissue migration reveals the origins of tumor-infiltrating monocytes

Shand

Ueha

Otsuji

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

154

123

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Significance Solid tumors contain large numbers of immune cells, including monocytes and monocyte-derived macrophages that promote tumor progression. During tumor development, monocytes accumulate in the spleen. However, the influence of spleen cells on tumor growth remains controversial. Here, we used novel methods for tracking intertissue migration and monitoring hematopoiesis to show that during tumor development the bone marrow dramatically accelerates production of monocytes, rapidly transferring many of these newly formed cells to a reservoir in the spleen. However, these spleen monocytes are less able than their bone marrow counterparts to enter the tumor and make only a minor contribution to the tumor-infiltrating monocyte population. These findings clarify the roles of the spleen and bone marrow in cancer development.

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Robust Antitumor Effects of Combined Anti–CD4-Depleting Antibody and Anti–PD-1/PD-L1 Immune Checkpoint Antibody Treatment in Mice

Ueha

Yokochi

Ishiwata

et al. 2015

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Depletion of CD4þ cells in tumor-bearing mice has strong antitumor effects. However, the mechanisms underlying these effects and the therapeutic benefits of CD4 þ cell depletion relative to other immunotherapies have not been fully evaluated. Here, we investigated the antitumor effects of an anti-CD4-depleting mAb as a monotherapy or in combination with immune checkpoint mAbs. In B16F10, Colon 26, or Lewis lung carcinoma subcutaneous tumor models, administration of the anti-CD4 mAb alone had strong antitumor effects that were superior to those elicited by CD25 þ Treg depletion or other immune checkpoint mAbs, and which were completely reversed by CD8 þ cell depletion. CD4 þ cell depletion led to the proliferation of tumor-specific CD8 þ T cells in the draining lymph node and increased infiltration of PD-1into the tumor, with a shift toward type I immunity within the tumor. Combination treatment with the anti-CD4 mAb and immune checkpoint mAbs, particularly anti-PD-1 or anti-PD-L1 mAbs, synergistically suppressed tumor growth and greatly prolonged survival. To our knowledge, this work represents the first report of robust synergy between anti-CD4 and anti-PD-1 or anti-PD-L1 mAb therapies.

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Qualitative Rather than Quantitative Changes Are Hallmarks of Fibroblasts in Bleomycin-Induced Pulmonary Fibrosis

Tsukui

Ueha

Abe

et al. 2013

The American Journal of Pathology

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Pulmonary fibrosis is characterized by accumulation of activated fibroblasts that produce excessive amounts of extracellular matrix components such as collagen type I. However, the dynamics and activation signatures of fibroblasts during fibrogenesis remain poorly understood, especially in vivo. We examined changes in lung tissue cell populations and in the phenotype of activated fibroblasts after acute injury in a model of bleomycin-induced pulmonary fibrosis. Despite clustering of collagen type I-producing fibroblasts in fibrotic regions, flow cytometry-based quantitative analysis of whole lungs revealed that the number of fibroblasts in the lungs remained constant. At the peak of inflammation, fibroblast proliferation and apoptosis were both increased, suggesting that the clustering was not merely a result of proliferation, but also of fibroblast migration from nearby alveolar walls. Parabiosis experiments demonstrated that fibroblasts were not supplied from the circulation. Comprehensive gene expression analysis of freshly isolated fibroblasts revealed a detailed activation signature associated with fibrogenesis, including changes in genes responsible for migration and extracellular matrix construction. The Spp1 gene, which encodes osteopontin, was highly up-regulated and was an identifying characteristic of activated fibroblasts present at the sites of remodeling. Osteopontin may serve as a useful marker of profibrotic fibroblasts. These results provide insights into the cellular and molecular mechanisms underlying pulmonary fibrosis and provide a foundation for development of specific antifibrotic therapies.

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Myeloid cell population dynamics in healthy and tumor-bearing mice

Ueha

Shand

Matsushima

2011

International Immunopharmacology

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Targeting FROUNT with disulfiram suppresses macrophage accumulation and its tumor-promoting properties

et al. 2020

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Tumor-associated macrophages affect tumor progression and resistance to immune checkpoint therapy. Here, we identify the chemokine signal regulator FROUNT as a target to control tumor-associated macrophages. The low level FROUNT expression in patients with cancer correlates with better clinical outcomes. Frount-deficiency markedly reduces tumor progression and decreases macrophage tumor-promoting activity. FROUNT is highly expressed in macrophages, and its myeloid-specific deletion impairs tumor growth. Further, the anti-alcoholism drug disulfiram (DSF) acts as a potent inhibitor of FROUNT. DSF interferes with FROUNT-chemokine receptor interactions via direct binding to a specific site of the chemokine receptor-binding domain of FROUNT, leading to inhibition of macrophage responses. DSF monotherapy reduces tumor progression and decreases macrophage tumorpromoting activity, as seen in the case of Frount-deficiency. Moreover, co-treatment with DSF and an immune checkpoint antibody synergistically inhibits tumor growth. Thus, inhibition of FROUNT by DSF represents a promising strategy for macrophage-targeted cancer therapy.

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Coordinated Changes in DNA Methylation in Antigen-Specific Memory CD4 T Cells

Hashimoto

Ogoshi

Sasaki

et al. 2013

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Memory CD4+ T cells are central regulators of both humoral and cellular immune responses. T cell differentiation results in specific changes in chromatin structure and DNA methylation of cytokine genes. Although the methylation status of a limited number of gene loci in T cells has been examined, the genome-wide DNA methylation status of memory CD4+ T cells remains unexplored. To further elucidate the molecular signature of memory T cells, we conducted methylome and transcriptome analyses of memory CD4+ T cells generated using T cells from TCR-transgenic mice. The resulting genome-wide DNA methylation profile revealed 1144 differentially methylated regions (DMRs) across the murine genome during the process of T cell differentiation, 552 of which were associated with gene loci. Interestingly, the majority of these DMRs were located in introns. These DMRs included genes such as CXCR6, Tbox21, Chsy1, and Cish, which are associated with cytokine production, homing to bone marrow, and immune responses. Methylation changes in memory T cells exposed to specific Ag appeared to regulate enhancer activity rather than promoter activity of immunologically relevant genes. In addition, methylation profiles differed between memory T cell subsets, demonstrating a link between T cell methylation status and T cell differentiation. By comparing DMRs between naive and Ag-specific memory T cells, this study provides new insights into the functional status of memory T cells.

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Francis H.W. Shand

Tracking and quantification of dendritic cell migration and antigen trafficking between the skin and lymph nodes

Cellular and Molecular Mechanisms of Chronic Inflammation-Associated Organ Fibrosis

Tracking of intertissue migration reveals the origins of tumor-infiltrating monocytes

Robust Antitumor Effects of Combined Anti–CD4-Depleting Antibody and Anti–PD-1/PD-L1 Immune Checkpoint Antibody Treatment in Mice

Qualitative Rather than Quantitative Changes Are Hallmarks of Fibroblasts in Bleomycin-Induced Pulmonary Fibrosis

Myeloid cell population dynamics in healthy and tumor-bearing mice

Targeting FROUNT with disulfiram suppresses macrophage accumulation and its tumor-promoting properties

Coordinated Changes in DNA Methylation in Antigen-Specific Memory CD4 T Cells

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