Interleukin 17-producing γδ T (γδT17) cells have unconventional trafficking characteristics, residing in mucocutaneous tissues but also homing into inflamed tissues via circulation. Despite being fundamental to γδT17-driven early protective immunity and exacerbation of autoimmunity and cancer, migratory cues controlling γδT17 cell positioning in barrier tissues and recruitment to inflammatory sites are still unclear. Here we show that γδT17 cells constitutively express chemokine receptors CCR6 and CCR2. While CCR6 recruits resting γδT17 cells to the dermis, CCR2 drives rapid γδT17 cell recruitment to inflamed tissues during autoimmunity, cancer and infection. Downregulation of CCR6 by IRF4 and BATF upon γδT17 activation is required for optimal recruitment of γδT17 cells to inflamed tissue by preventing their sequestration into uninflamed dermis. These findings establish a lymphocyte trafficking model whereby a hierarchy of homing signals is prioritized by dynamic receptor expression to drive both tissue surveillance and rapid recruitment of γδT17 cells to inflammatory lesions.
Chimeric antigen receptor (CAR)-T immunotherapy is a novel treatment that genetically modifies the patient’s own T cells to target and kill malignant cells. CAR-T cells demonstrated robust clinical activity against certain B-cell malignancies. However, identification of tumour-specific antigens expressed on multiple cancer types, especially on solid cancers, remains a major challenge. P2X purinoceptor 7 (P2X7) is an ATP gated cation channel that forms homotrimers and heterotrimers at the cell surface. When functioning normally, it controls ion transport in response to ATP. A dysfunctional version of P2X7, named nfP2X7, has been identified on cancer cells from a range of tissues, while being undetectable on healthy cells. We generated prototype nfP2X7-targeting human CAR-T cells, which demonstrated effective antigen-specific cytotoxicity against twelve solid cancer types including breast, prostate, lung, colorectal, brain and skin in vitro. In preclinical xenograft mouse models of aggressive breast and prostate cancer, CAR-T cells targeting nfP2X7 exhibited robust anti-tumour efficacy. These data indicate CAR-T cells targeting nfP2X7 have potential as a novel broad-spectrum cancer immunotherapy for solid tumours in humans.
Crosstalk between T and B cells is crucial for generating high-affinity, class-switched antibody responses. The roles of CD4+ T cells in this process have been well-characterised. In contrast, regulation of antibody responses by CD8+ T cells is significantly less defined. CD8+ T cells are principally recognised for eliciting cytotoxic responses in peripheral tissues and forming protective memory. However, recent findings have identified a novel population of effector CD8+ T cells that co-opt a differentiation program characteristic of CD4+ T follicular helper (Tfh) cells, upregulate the chemokine receptor CXCR5 and localise to B cell follicles. While it has been shown that CXCR5+CD8+ T cells mediate the removal of viral reservoirs in the context of follicular-trophic viral infections and maintain the response to chronic insults by virtue of progenitor/stem-like properties, it is not known if CXCR5+CD8+ T cells arise during acute peripheral challenges in the absence of follicular infection and whether they influence B cell responses in vivo in these settings. Using the ovalbumin-specific T cell receptor transgenic (OT-I) system in an adoptive transfer-immunisation/infection model, this study demonstrates that CXCR5+CD8+ T cells arise in response to protein immunisation and peripheral viral infection, displaying a follicular-homing phenotype, expression of cell surface molecules associated with Tfh cells and limited cytotoxic potential. Furthermore, studies assessing the B cell response in the presence of OT-I or Cxcr5-/- OT-I cells revealed that CXCR5+CD8+ T cells shape the antibody response to protein immunisation and peripheral viral infection, promoting class switching to IgG2c in responding B cells. Overall, the results highlight a novel contribution of CD8+ T cells to antibody responses, expanding the functionality of the adaptive immune system.
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