Taylor A. Heim scite author profile

Early engagement of the lymphatic system by solid tumors in peripheral, nonlymphoid tissues is a clinical hallmark of cancer and often forecasts poor prognosis. The significance of lymph node metastasis for distant spread, however, has been questioned by large-scale lymph node dissection trials and the likely prevalence of direct hematogenous metastasis. Still, an emerging appreciation for the immunological role of the tumor-draining lymph node has renewed interest in its basic biology, role in metastatic progression, antitumor immunity, and patient outcomes. In this review, we discuss our current understanding of the early mechanisms through which tumors engage lymphatic transport and condition tumor-draining lymph nodes, the significance of these changes for both metastasis and immunity, and potential implications of the tumor-draining lymph node for immunotherapy.

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Infection-induced lymphatic zippering restricts fluid transport and viral dissemination from skin

Churchill

Bois

Heim

et al. 2022

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Lymphatic vessels are often considered passive conduits that flush antigenic material, pathogens, and cells to draining lymph nodes. Recent evidence, however, suggests that lymphatic vessels actively regulate diverse processes from antigen transport to leukocyte trafficking and dietary lipid absorption. Here we tested the hypothesis that infection-induced changes in lymphatic transport actively contribute to innate host defense. We demonstrate that cutaneous vaccinia virus infection by scarification activates dermal lymphatic capillary junction tightening (zippering) and lymph node lymphangiogenesis, which are associated with reduced fluid transport and cutaneous viral sequestration. Lymphatic-specific deletion of VEGFR2 prevented infection-induced lymphatic capillary zippering, increased fluid flux out of tissue, and allowed lymphatic dissemination of virus. Further, a reduction in dendritic cell migration to lymph nodes in the absence of lymphatic VEGFR2 associated with reduced antiviral CD8+ T cell expansion. These data indicate that VEGFR2-driven lymphatic remodeling is a context-dependent, active mechanism of innate host defense that limits viral dissemination and facilitates protective, antiviral CD8+ T cell responses.

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CXCR6 promotes dermal CD8⁺T cell survival and transition to long-term tissue residence

Heim

Lin²,

Steele

et al. 2023

Preprint

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Tissue resident memory T cells (TRM) provide important protection against infection, and yet the interstitial signals necessary for their formation and persistence remain incompletely understood. Here we show that antigen-dependent induction of the chemokine receptor, CXCR6, is a conserved requirement for TRM formation in peripheral tissue after viral infection. CXCR6 was dispensable for the early accumulation of antigen-specific CD8+ T cells in skin and did not restrain their exit. Single cell sequencing indicated that CXCR6-/- CD8+ T cells were also competent to acquire a transcriptional program of residence but exhibited deficiency in multiple pathways that converged on survival and metabolic signals necessary for memory. As such, CXCR6-/- CD8+ T cells exhibited increased rates of apoptosis relative to controls in the dermis, leading to inefficient TRM formation. CXCR6 expression may therefore represent a common mechanism across peripheral non-lymphoid tissues and inflammatory states that increases the probability of long-term residence.

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CXCR6 is required for tissue resident memory T cell formation across diverse peripheral non-lymphoid tissues

Heim

Steele

Mudianto

et al. 2022

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CD8 T cell control of viral infections in peripheral tissues is largely dependent upon their spatial positioning. Clearance of pathogens requires direct contact between CD8 T cells and infected cells. Chemokine receptors play an essential role in this process by facilitating T cell entry into tissues, directing T cell positioning within tissues and by influencing egress out of tissues. Tissue resident memory T cells (TRM), which fail to egress after pathogen clearance and scan cells for signs of infection, are potent sources of immunity to secondary encounters with pathogens. Here we show that expression of the chemokine receptor CXCR6 is a conserved feature of TRM after viral infection in many non-lymphoid tissues. Using CXCR6KO TCR-tg T cells, we found that CXCR6 is necessary for proper formation of TRM in all non-lymphoid tissues examined. CXCR6 was necessary for early accumulation of effector T cells in several tissues such as the kidney and salivary gland but CXCR6 was dispensable for early accumulation in the skin. After vaccinia infection in the skin, CXCR6 expression is reinforced upon antigen re-encounter and promotes CD8 T cell accumulation in a migration-independent manner. Using single cell transcriptional analysis, we show that CXCR6KO TRM appear to exhibit a survival disadvantage and are outcompeted by wildtype T cells. This work reveals a critical requirement for generating TRM in diverse anatomical locations and may benefit strategies for vaccine design, anti-tumor immunity and reducing T-cell mediated autoimmunity. Supported by R01CA238163 T32Al100853-10

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Infection-Induced Dermal Lymphatic Zippering Restricts Viral Dissemination from Skin and Promotes Anti-Viral CD8⁺ T Cell Expansion

Churchill

Bois

Heim

et al. 2021

Preprint

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Lymphatic vessels are often considered passive conduits that rapidly flush antigenic material, pathogens, and cells to draining lymph nodes. Recent evidence, however, suggests that lymphatic vessels actively regulate diverse processes from antigen transport to leukocyte trafficking and dietary lipid absorption. Here we tested the hypothesis that dermal lymphatic transport is dynamic and contributes to innate host defense during viral infection. We demonstrate that cutaneous vaccinia virus infection activates the tightening of lymphatic interendothelial junctions, termed zippering, in a VEGFA/VEGFR2-dependent manner. Both antibody-mediated blockade of VEGFA/VEGFR2 and lymphatic-specific deletion of Vegfr2 impaired lymphatic capillary zippering and increased fluid flux out of tissue. Strikingly, inhibition of lymphatic zippering allows viral dissemination to draining lymph nodes independent of dendritic cell migration and impairs CD8+ T cell priming. These data indicate that infection-induced dermal lymphatic capillary zippering is a context-dependent, active mechanism of innate host defense that limits interstitial fluid and virion flux and promotes protective, anti-viral CD8+ T cell responses.

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Taylor A. Heim

Tumor-draining lymph nodes: At the crossroads of metastasis and immunity

Infection-induced lymphatic zippering restricts fluid transport and viral dissemination from skin

CXCR6 promotes dermal CD8⁺T cell survival and transition to long-term tissue residence

CXCR6 is required for tissue resident memory T cell formation across diverse peripheral non-lymphoid tissues

Infection-Induced Dermal Lymphatic Zippering Restricts Viral Dissemination from Skin and Promotes Anti-Viral CD8⁺ T Cell Expansion

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Taylor A. Heim

Tumor-draining lymph nodes: At the crossroads of metastasis and immunity

Infection-induced lymphatic zippering restricts fluid transport and viral dissemination from skin

CXCR6 promotes dermal CD8+T cell survival and transition to long-term tissue residence

CXCR6 is required for tissue resident memory T cell formation across diverse peripheral non-lymphoid tissues

Infection-Induced Dermal Lymphatic Zippering Restricts Viral Dissemination from Skin and Promotes Anti-Viral CD8+ T Cell Expansion

Contact Info

Product

Resources

About

CXCR6 promotes dermal CD8⁺T cell survival and transition to long-term tissue residence

Infection-Induced Dermal Lymphatic Zippering Restricts Viral Dissemination from Skin and Promotes Anti-Viral CD8⁺ T Cell Expansion