Requirement of Treg-intrinsic CTLA4/PKCη signaling pathway for suppressing tumor immunity
Christophe Pedros, Ann J. Canonigo-Balancio, Kok-Fai Kong, Amnon Altman
Christophe Pedros, Ann J. Canonigo-Balancio, Kok-Fai Kong, Amnon Altman
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Research Article Immunology

Requirement of Treg-intrinsic CTLA4/PKCη signaling pathway for suppressing tumor immunity

Abstract

The ability of Tregs to control the development of immune responses is essential for maintaining immune system homeostasis. However, Tregs also inhibit the development of efficient antitumor responses. Here, we explored the characteristics and mechanistic basis of the Treg-intrinsic CTLA4/PKCη signaling pathway that we recently found to be required for contact-dependent Treg-mediated suppression. We show that PKCη is required for the Treg-mediated suppression of tumor immunity in vivo. The presence of PKCη-deficient (Prkch–/–) Tregs in the tumor microenvironment was associated with a significantly increased expression of the costimulatory molecule CD86 on intratumoral CD103+ DCs, enhanced priming of antigen-specific CD8+ T cells, and greater levels of effector cytokines produced by these cells. Similar to mouse Tregs, the GIT/PAK/PIX complex also operated downstream of CTLA4 and PKCη in human Tregs, and GIT2 knockdown in Tregs promoted antitumor immunity. Collectively, our data suggest that targeting the CTLA4/PKCη/GIT/PAK/PIX signaling pathway in Tregs could represent a novel immunotherapeutic strategy to alleviate the negative impact of Tregs on antitumor immune responses.

Authors

Christophe Pedros, Ann J. Canonigo-Balancio, Kok-Fai Kong, Amnon Altman

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Figure 6

A model for control of Treg contact-dependent suppressive activity by PKCη.

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A model for control of Treg contact-dependent suppressive activity by PK...
Following engagement of APCs by Tregs and formation of an immunological synapse (IS), PKCη is recruited to the Treg IS. PKCη interacts with CTLA4 in both mouse and human Tregs, and PKCη activation following CTLA4 engagement recruits and activates the GIT/PAK/PIX complex, which promotes IS disassembly and Treg motility. Activation of this complex is required for Tregs to inhibit the development of antitumor immunity in vivo and the suppressive activity of human Tregs in vitro. Efficient Treg/APC dissociation and enhanced Treg motility allow serial engagement of multiple additional APCs and depletion of their CD86 and/or CD80 costimulatory ligands by transendocytosis in a contact-dependent manner. This depletion would result in impaired APC stimulatory activity, reduced tumor-specific Teff cell responses, and, hence, promotion of tumor growth. Prkch−/− Tregs, in which the recruitment and activation of the GIT/PAK/PIX complex is impaired, are defective in serial engagement of, and depletion of CD86/CD80 from, APCs, resulting in enhanced APC stimulatory activity, a more effective Teff cell response, and reduced tumor growth. Our data implicate the CD103+ DC subset as an important APC target of Treg-suppressive activity in mice.