Hyang Mi Lee scite author profile

Purpose Myeloid derived suppressor cells (MDSC) are a heterogeneous population of immunosuppressive cells that are upregulated in cancer. Little is known about the prevalence and importance of MDSC in pancreas adenocarcinoma (PA). Experimental Design Peripheral blood, bone marrow, and tumor samples were collected from pancreatic cancer patients, analyzed for MDSC (CD15+CD11b+) by flow cytometry, and compared to cancer free controls. The suppressive capacity of MDSC (CD11b+Gr-1+) and the effectiveness of MDSC depletion were assessed in C57BL/6 mice inoculated with Pan02, a murine PA, and treated with placebo or zoledronic acid, a potent aminobisphosphonate previously shown to target MDSC. The tumor microenvironment was analyzed for MDSC (Gr1+CD11b+), effector T cells, and tumor cytokine levels. Results Patients with PA demonstrated increased frequency of MDSC in the bone marrow and peripheral circulation which correlated with disease stage. Normal pancreas tissue showed no MDSC infiltrate, while human tumors avidly recruited MDSC. Murine tumors similarly recruited MDSC that suppressed CD8+ T cells in vitro and accelerated tumor growth in vivo. Treatment with zoledronic acid impaired intratumoral MDSC accumulation resulting in delayed tumor growth rate, prolonged median survival, and increased recruitment of T cells to the tumor. This was associated with a more robust type 1 response with increased levels of IFN-γ and decreased levels of IL-10. Conclusions MDSC are important mediators of tumor-induced immunosuppression in pancreatic cancer. Inhibiting MDSC accumulation with zoledronic acid improves the host anti-tumor response in animal studies suggesting that efforts to block MDSC may represent a novel treatment strategy for pancreatic cancer.

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CTLA-4 suppresses the pathogenicity of self antigen–specific T cells by cell-intrinsic and cell-extrinsic mechanisms

Ise¹,

Kohyama²,

Nutsch³

et al. 2009

Nat Immunol

162

134

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CTLA-4 is critical in maintaining self-tolerance but the mechanisms of its actions have been controversial. Here, we examined the antigen-specificity of tissue-infiltrating CD4+ T cells in CTLA-4−/− mice and determined the in vivo cellular targets of CTLA-4. Tissue-infiltrating CTLA-4−/− T cells exhibited TCR-dependent homing to their tissues of origin, suggesting reactivity against tissue-specific antigens. We identified the pancreas-specific enzyme Pdia2 as an autoantigen in CTLA-4−/− mice. CTLA-4 expressed either on Pdia2-specific effector cells, or on Tregs, was sufficient to control tissue destruction mediated by Pdia2-specific T cells. These results demonstrate that both cell-intrinsic and cell non-autonomous action of CTLA-4 operate in the context of regulation of an authentic self-antigen for which CTLA-4 is required to maintain tolerance.

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Structure of an Atypical Orphan Response Regulator Protein Supports a New Phosphorylation-independent Regulatory Mechanism

Hong

Lee

et al. 2007

Journal of Biological Chemistry

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Two-component signal transduction systems, commonly found in prokaryotes, typically regulate cellular functions in response to environmental conditions through a phosphorylation-dependent process. A new type of response regulator, hp1043 (HP-RR) from Helicobacter pylori, has been recently identified. HP-RR is essential for cell growth and does not require the well known phosphorelay scheme. Unphosphorylated HP-RR binds specifically to its own promoter (P 1043 ) and autoregulates the promoter of the tlpB gene (P tlpB ). We have determined the structure of HP-RR by NMR and x-ray crystallography, revealing a symmetrical dimer with two functional domains. The molecular topology resembles that of the OmpR/PhoB subfamily, however, the symmetrical dimer is stable even in the unphosphorylated state. The dimer interface, formed by three secondary structure elements (␣4-␤5-␣5), resembles that of the active, phosphorylated forms of ArcA and PhoB. Several conserved residues of the HP-RR dimeric interface deviate from the OmpR/PhoB subfamily, although there are similar salt bridges and hydrophobic patches within the interface. Our findings reveal how a new type of response regulator protein could function as a cell growth-associated regulator in the absence of post-translational modification.

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An ITAM-signaling pathway controls cross-presentation of particulate but not soluble antigens in dendritic cells

Graham

Stephenson

Lam

et al. 2007

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Dendritic cells (DC) possess a unique capacity for presenting exogenous antigen on major histocompatibility class I, a process that is referred to as cross-presentation, which serves a critical role in microbial and tumor immunity. During cross-presentation, antigens derived from pathogen-infected or tumor cells are internalized and processed by DCs for presentation to cytotoxic T lymphocytes (CTLs). We demonstrate that a signaling pathway initiated by the immunoreceptor tyrosine–based activation motif (ITAM)–containing adaptors DAP12 and FcRγ utilizes the Vav family of Rho guanine nucleotide exchange factors (GEFs) for processing and cross-presentation of particulate, but not soluble, antigens by DCs. Notably, this novel pathway is crucial for processing and presentation of particulate antigens, such as those associated with Listeria monocytogenes bacteria, yet it is not required for antigen uptake. Mechanistically, we provide evidence that in DCs, Vav GEFs are essential to link ITAM-dependent receptors with the activation of the NOX2 complex and production of reactive oxygen species (ROS), which regulate phagosomal pH and processing of particulate antigens for cross-presentation. Importantly, we show that genetic disruption of the DAP12/FcRγ–Vav pathway leads to antigen presentation defects that are more profound than in DCs lacking NOX2, suggesting that ITAM signaling also controls cross-presentation in a ROS-independent manner.

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Thymic and Peripheral Differentiation of Regulatory T Cells

Lee

Bautista

Hsieh

2011

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Hyang Mi Lee

Pancreatic adenocarcinoma induces bone marrow mobilization of myeloid-derived suppressor cells which promote primary tumor growth

CTLA-4 suppresses the pathogenicity of self antigen–specific T cells by cell-intrinsic and cell-extrinsic mechanisms

Structure of an Atypical Orphan Response Regulator Protein Supports a New Phosphorylation-independent Regulatory Mechanism

An ITAM-signaling pathway controls cross-presentation of particulate but not soluble antigens in dendritic cells

Thymic and Peripheral Differentiation of Regulatory T Cells

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