Regulatory Mechanism of Myeloid Derived Suppressor Cell Activity

Corzo, Cesar Alexander

17 June 2010

Myeloid-derived suppressor cells (MDSC) are a major component of the immune suppressive network that develops during cancer. MDSC down-regulate immune surveillance and antitumor immunity and facilitate tumor growth. The ability of MDSC to suppress T cell responses has been documented; however the mechanisms regulating this suppression remain to be understood. This work proposes a biological dichotomy of MDSC regulated by the tumor microenvironment. In peripheral lymphoid organs MDSC cause T-cell non-responsiveness that is antigen-specific. These MDSC have increased expression of NOX2, enabling them to produce large amounts of reactive oxygen species. Since the transcription factor STAT3 is substantially activated in MDSC, its potential role in upregulation of NOX2 expression was investigated. Over-expression of a constitutively active form of STAT3 increases expression of NOX2 subunits, whereas attenuation of STAT3 activity leads to decreased expression of NOX2. The significance of NOX2 in ROS generation is demonstrated in mice devoid of NOX2 function; NOX2- deficient MDSC are unable to inhibit antigen-induced activation of T cells. In contrast, MDSC within the tumor microenvironment have a diminished potential to generate ROS but acquire expression of arginase and inducible nitric oxide synthase, enzymes plicated in T cell non-responsiveness. Upregulation of these enzymes results in MDSC ability to inhibit lymphocyte response in absence of antigen presentation. The tumor microenvironment also promotes the differentiation of MDSC to tumor associated macrophages. Hypoxia is an exclusive feature to the tumor microenvironment and we investigated its involvement in the properties of MDSC at the tumor site. Exposure of spleen MDSC to hypoxia converts MDSC to non-specific suppressors and induces a preferential differentiation to macrophages. Stabilization of HIF-1!, a transcription factor activated by hypoxia, induces similar changes in MDCS as hypoxic exposure. Finally, ablation of HIF-1! prevents MDSC from acquiring factors that enable the suppression of T cells in absence of antigen. These findings help to expand our understanding of the biology of MDSC and suggest a regulatory pathway of myeloid cell function exclusive to the tumor microenvironment. They may also open new opportunities for therapeutic regulation as we now should take into consideration how systemic location affects the function of MDSC.

T-cell suppression

NADPH Oxidase

Hypoxia

STAT3

HIF-1!

American Studies

Arts and Humanities

PD-1 Modulates Regulatory T Cells and Suppresses T-Cell Responses in Hcv-Associated Lymphoma

Ni, Lei, Ma, Cheng J., Zhang, Ying, Nandakumar, Subhadra, Zhang, Chun L., Wu, Xiao Y., Borthwick, Thomas, Hamati, Agnes, Chen, Xin Y., Kumaraguru, Uday, Moorman, Jonathan P., Yao, Zhi Q.

01 May 2011

T regulatory (TR) cells suppress T-cell responses that are critical in the development of chronic viral infection and associated malignancies. Programmed death-1 (PD-1) also has a pivotal role in regulation of T-cell functions during chronic viral infection. To examine the role of PD-1 pathway in regulating TR-cell functions that inhibit T-cell responses during virus-associated malignancy, TR cells were investigated in the setting of hepatitis C virus-associated lymphoma (HCV-L), non-HCV-associated lymphoma (non-HCV-L), HCV infection alone and healthy subjects (HS). Relatively high numbers of CD4+ CD25+ and CD8+CD25 + TR cells, as well as high levels of PD-1 expressions on these TR cells were found in the peripheral blood of subjects with HCV-L compared with those from non-HCV-L or HCV alone or HS. TR cells from the HCV-L subjects were capable of suppressing the autogeneic lymphocyte response, and depletion of TR cells in peripheral blood mononuclear cells from HCV-L improved T-cell proliferation. Additionally, the suppressed T-cell activation and proliferation in HCV-L was partially restored by blocking the PD-1 pathway ex vivo, resulting in both a reduction in TR-cell number and the ability of TR to suppress the activity of effector T cells. This study suggests that the PD-1 pathway is involved in regulating TR cells that suppress T-cell functions in the setting of HCV-associated B-cell lymphoma.

HCV

lymphoma

PD-1

T regulatory cells

T-cell suppression

Pathology

Internal Medicine

THE ABSENCE OF C3AR AND C5AR SIGNAL TRANSDUCTION PROMOTES T REGULATORY CELL DIFFERENTIATION AND REGULATES IMMUNOLOGIC TOLERANCE

Strainic, Michael George, Jr

19 August 2013

No description available.

Immunology

C3aR

C5aR

DAF

CD55

T cell activation

T cell

T regulatory cell

Treg

T cell suppression

Treg induction

complement

complement mediated T cell activation

G-protein coupled receptor

Foxp3