Christoph Schlapbach scite author profile

The skin of an adult human contains approximately 20 billion memory T cells. Epithelial barrier tissues are infiltrated by a combination of resident and recirculating T cells in mice but the relative proportions and functional activities of resident versus recirculating T cells have not been evaluated in human skin. We discriminated resident from recirculating T cells in human engrafted mice and lymphoma patients using alemtuzumab, a medication that depletes recirculating T cells from skin, and then analyzed these T cell populations in healthy human skin. All non-recirculating resident memory T cells (TRM) expressed CD69, but the majority were CD4+, CD103− and located in the dermis, in contrast to studies in mice. Both CD4+ and CD8+ CD103+ TRM were enriched in the epidermis, had potent effector functions and had a limited proliferative capacity compared to CD103− TRM. TRM of both types had more potent effector functions than recirculating T cells. Induction of CD103 on human T cells was enhanced by keratinocyte contact, depended on TGFβ and was independent of T cell keratinocyte adhesive interactions. We observed two distinct populations of recirculating T cells, CCR7+/L-selectin+ central memory T cells (TCM) and CCR7+/L-selectin− T cells, which we term migratory memory T cells (TMM). Circulating skin-tropic TMM were intermediate in cytokine production between TCM and effector memory T cells. In patients with cutaneous T cell lymphoma, malignant TCM and TMM induced distinct inflammatory skin lesions and TMM were depleted more slowly from skin after alemtuzumab, suggesting TMM may recirculate more slowly. In summary, human skin is protected by four functionally distinct populations of T cells, two resident and two recirculating, with differing territories of migration and distinct functional activities.

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Melanoma Cell-Intrinsic PD-1 Receptor Functions Promote Tumor Growth

Kleffel

Posch

Barthel

et al. 2015

Cell

547

528

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SUMMARY Therapeutic antibodies targeting programmed cell death-1 (PD-1) activate tumor-specific immunity and have shown remarkable efficacy in the treatment of melanoma. Yet, little is known about tumor cell-intrinsic PD-1 pathway effects. Here we show that murine and human melanomas contain PD-1-expressing cancer subpopulations and demonstrate that melanoma cell-intrinsic PD-1 promotes tumorigenesis, even in mice lacking adaptive immunity. PD-1 inhibition on melanoma cells by RNA interference, blocking antibodies, or mutagenesis of melanoma-PD-1 signaling motifs suppresses tumor growth in immunocompetent, immunocompromised and PD-1-deficient tumor graft recipient mice. Conversely, melanoma-specific PD-1 overexpression enhances tumorigenicity, as does engagement of melanoma-PD-1 by its ligand, PD-L1, whereas melanoma-PD-L1 inhibition or knockout of host-PD-L1 attenuate growth of PD-1-positive melanomas. Mechanistically, the melanoma-PD-1 receptor modulates downstream effectors of mTOR signaling. Our results identify melanoma cell-intrinsic functions of the PD-1:PD-L1 axis in tumor growth and suggest that blocking melanoma-PD-1 might contribute to the striking clinical efficacy of anti-PD-1 therapy.

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Robust tumor immunity to melanoma mediated by interleukin-9–producing T cells

Purwar

Schlapbach

Xiao

et al. 2012

Nat Med

376

390

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Interleukin-9 is a T cell cytokine that acts through a γC-family receptor on target cells. We determined that T cells from mice deficient in the TH17 pathway genes ROR-γ and IL-23R produced abundant IL-9, and observed significant growth inhibition of B16F10 melanoma tumor in these mice. IL-9 blocking antibodies reversed this tumor growth inhibition, and enhanced tumor growth in normal mice. IL9R−/− mice showed accelerated tumor growth, while administration of rIL-9 to tumor bearing mice inhibited tumor growth. Adoptive transfer of tumor antigen-specific TH9 cells blocked tumor growth; this was reversed by anti-IL-9. Exogenous rIL-9 inhibited tumor growth in Rag1−/− mice, but not in mast cell deficient mice, suggesting a T cell independent process. Finally, we found TH9 cells in normal human skin and blood, and low IL-9 production from melanoma tumor infiltrating lymphocytes. These results suggest a role for IL-9 in tumor immunity, and suggest therapeutic strategies.

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