Alessandra Metelli scite author profile

Cancer-associated thrombocytosis has long been linked to poor clinical outcome, but the underlying mechanism is enigmatic. We hypothesized that platelets promote malignancy and resistance to therapy by dampening host immunity. We herein show that genetic targeting of platelets significantly enhances adoptive T cell therapy of cancer. An unbiased biochemical and structural biology approach established transforming growth factor β (TGFβ) and lactate as the major platelet-derived soluble factors to obliterate CD4+ and CD8+ T cell functions. Moreover, we found that platelets are the dominant source of functional TGFβ systemically as well as in the tumor microenvironment through constitutive expression of TGFβ-docking receptor Glycoprotein A Repetitions Predominant (GARP) rather than secretion of TGFβ per se. Indeed, platelet-specific deletion of GARP-encoding gene Lrrc32 blunted TGFβ activity at the tumor site and potentiated protective immunity against both melanoma and colon cancer. Finally, we found that T cell therapy of cancer can be substantially improved by concurrent treatment with readily available anti-platelet agents. We conclude that platelets constrain T cell immunity though a GARP-TGFβ axis and suggest a combination of immunotherapy and platelet inhibitors as a therapeutic strategy against cancer.

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Developmental Analysis of aMedicago truncatula smooth leaf margin1Mutant Reveals Context-Dependent Effects on Compound Leaf Development

Zhou

Han

Hou

et al. 2011

113

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Compound leaf development requires highly regulated cell proliferation, differentiation, and expansion patterns. We identified loss-of-function alleles at the SMOOTH LEAF MARGIN1 (SLM1) locus in Medicago truncatula, a model legume species with trifoliate adult leaves. SLM1 encodes an auxin efflux carrier protein and is the ortholog of Arabidopsis thaliana PIN-FORMED1 (PIN1). Auxin distribution is impaired in the slm1 mutant, resulting in pleiotropic phenotypes in different organs. The most striking change in slm1 is the increase in the number of terminal leaflets and a simultaneous reduction in the number of lateral leaflets, accompanied by reduced expression of SINGLE LEAFLET1 (SGL1), an ortholog of LEAFY. Characterization of the mutant indicates that distinct developmental domains exist in the formation of terminal and lateral leaflets. In contrast with the pinnate compound leaves in the wild type, the slm1 sgl1 double mutant shows nonpeltately palmate leaves, suggesting that the terminal leaflet primordium in M. truncatula has a unique developmental mechanism. Further investigations on the development of leaf serrations reveal different ontogenies between distal serration and marginal serration formation as well as between serration and leaflet formation. These data suggest that regulation of the elaboration of compound leaves and serrations is context dependent and tightly correlated with the auxin/SLM1 module in M. truncatula.

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Surface Expression of TGFβ Docking Receptor GARP Promotes Oncogenesis and Immune Tolerance in Breast Cancer

Metelli

Fugle

et al. 2016

114

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GARP encoded by the Lrrc32 gene is the cell surface docking receptor for latent TGF-β which is expressed naturally by platelets and regulatory T cells. Although Lrrc32 is amplified frequently in breast cancer, the expression and relevant functions of GARP in cancer have not been explored. Here we report that GARP exerts oncogenic effects, promoting immune tolerance by enriching and activating latent TGF-β in the tumor microenvironment. We found that human breast, lung and colon cancers expressed GARP aberrantly. In genetic studies in normal mammary gland epithelial and carcinoma cells, GARP expression increased TGF-β bioactivity and promoted malignant transformation in immune deficient mice. In breast carcinoma-bearing mice that were immune competent, GARP overexpression promoted Foxp3+ regulatory T cell activity, which in turn contributed to enhancing cancer progression and metastasis. Notably, administration of a panel of GARP-specific monoclonal antibodies limited metastasis in an orthotopic model of human breast cancer. Overall, these results define the oncogenic effects of the GARP-TGF-β axis in the tumor microenvironment and suggest mechanisms that might be exploited for diagnostic and therapeutic purposes.

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