Sprouty-2 regulates HIV-specific T cell polyfunctionality
Yen-Ling Chiu, … , Diane E. Griffin, Jonathan P. Schneck
Yen-Ling Chiu, … , Diane E. Griffin, Jonathan P. Schneck
Published December 2, 2013
Citation Information: J Clin Invest. 2014;124(1):198-208. https://doi.org/10.1172/JCI70510.
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Research Article Virology

Sprouty-2 regulates HIV-specific T cell polyfunctionality

Abstract

The ability of individual T cells to perform multiple effector functions is crucial for protective immunity against viruses and cancer. This polyfunctionality is frequently lost during chronic infections; however, the molecular mechanisms driving T cell polyfunctionality are poorly understood. We found that human T cells stimulated by a high concentration of antigen lacked polyfunctionality and expressed a transcription profile similar to that of exhausted T cells. One specific pathway implicated by the transcription profile in control of T cell polyfunctionality was the MAPK/ERK pathway. This pathway was altered in response to different antigen concentrations, and polyfunctionality correlated with upregulation of phosphorylated ERK. T cells that were stimulated with a high concentration of antigen upregulated sprouty-2 (SPRY2), a negative regulator of the MAPK/ERK pathway. The clinical relevance of SPRY2 was confirmed by examining SPRY2 expression in HIV-specific T cells, where high levels of SPRY2 were seen in HIV-specific T cells and inhibition of SPRY2 expression enhanced the HIV-specific polyfunctional response independently of the PD-1 pathway. Our findings indicate that increased SPRY2 expression during chronic viral infection reduces T cell polyfunctionality and identify SPRY2 as a potential target for immunotherapy.

Authors

Yen-Ling Chiu, Liang Shan, Hailiang Huang, Carl Haupt, Catherine Bessell, David H. Canaday, Hao Zhang, Ya-Chi Ho, Jonathan D. Powell, Mathias Oelke, Joseph B. Margolick, Joel N. Blankson, Diane E. Griffin, Jonathan P. Schneck

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Figure 5

Upregulation of SPRY2 in high antigen concentration–induced T cells inhibits polyfunctionality.

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Upregulation of SPRY2 in high antigen concentration–induced T cells inhi...
(A) qPCR comparison of SPRY2 expression levels on high and optimal antigen concentration–stimulated T cells. (B) The knockdown efficiency of lentiviral particles containing shRNA targeting SPRY2. Twenty-four hours after the second high antigen concentration moDC stimulation, cells were transduced with either SPRY2 knockdown virus or NT sequence virus. qPCR, flow cytometry staining of SPRY2 (red, NT virus control; blue, SPRY2 knockdown virus; gray, FMO control) and polyfunctionality assessment were performed on D14. (C) Representative flow plots of effector functions in virus-transduced T cells. T cells transduced with SPRY2 knockdown virus exhibit enhanced cytokine production of IL-2 and TNF-α as compared with control NT virus. SPRY2 knockdown had no impact on either CD107a upregulation or MIP-1β production. (D) SPRY2 knockdown virus–transduced T cells showed greater percentage of 5+ polyfunctional T cells than control virus–transduced T cells. *P < 0.05. The data are representative of more than 3 independent experiments performed on 3 different subjects.