Meredith L. Leong scite author profile

Serum and glucocorticoid-inducible kinase (SGK) is a novel member of the serine/threonine protein kinase family that is transcriptionally regulated. In this study, we have investigated the regulatory mechanisms that control SGK activity. We have established a peptide kinase assay for SGK and present evidence demonstrating that SGK is a component of the phosphoinositide 3 (PI 3)-kinase signaling pathway. Treatment of human embryo kidney 293 cells with insulin, IGF-1 or pervanadate induced a 3-to 12-fold activation of ectopically expressed SGK. Activation was completely abolished by pretreatment of cells with the PI 3-kinase inhibitor, LY294002. Treatment of activated SGK with protein phosphatase 2A in vitro led to kinase inactivation. Consistent with the similarity of SGK to other secondmessenger regulated kinases, mutation of putative phosphorylation sites at Thr256 and Ser422 inhibited SGK activation. Cotransfection of PDK1 with SGK caused a 6-fold activation of SGK activity, whereas kinase-dead PDK1 caused no activation. GST-pulldown assays revealed a direct interaction between PDK1 and the catalytic domain of SGK. Treatment of rat mammary tumor cells with serum caused hyperphosphorylation of endogenous SGK, and promoted translocation to the nucleus. Both hyperphosphorylation and nuclear translocation could be inhibited by wortmannin, but not by rapamycin.

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STING agonist formulated cancer vaccines can cure established tumors resistant to PD-1 blockade

Kanne

et al. 2015

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Stimulator of interferon genes (STING) is a cytosolic receptor that senses both exogenous and endogenous cytosolic cyclic dinucleotides (CDNs), activating TBK1/IRF3 (interferon regulatory factor 3), NF-κB (nuclear factor κB), and STAT6 (signal transducer and activator of transcription 6) signaling pathways to induce robust type I interferon and proinflammatory cytokine responses. CDN ligands were formulated with granulocyte-macrophage colony-stimulating factor (GM-CSF)–producing cellular cancer vaccines—termed STINGVAX—that demonstrated potent in vivo antitumor efficacy in multiple therapeutic models of established cancer. We found that rationally designed synthetic CDN derivative molecules, including one with an Rp,Rp dithio diastereomer and noncanonical c[A(2′,5′)pA(3′,5′)p] phosphate bridge structure, enhanced antitumor efficacy of STINGVAX in multiple aggressive therapeutic models of established cancer in mice. Antitumor activity was STING-dependent and correlated with increased activation of dendritic cells and tumor antigen–specific CD8+ T cells. Tumors from STINGVAX-treated mice demonstrated marked PD-L1 (programmed death ligand 1) up-regulation, which was associated with tumor-infiltrating CD8+IFNγ+ T cells. When combined with PD-1 (programmed death 1) blockade, STINGVAX induced regression of palpable, poorly immunogenic tumors that did not respond to PD-1 blockade alone.

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Listeria-based cancer vaccines that segregate immunogenicity from toxicity

Brockstedt

Giedlin

Leong

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

270

283

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The facultative intracellular bacterium Listeria monocytogenes is being developed as a cancer vaccine platform because of its ability to induce potent innate and adaptive immunity. For successful clinical application, it is essential to develop a Listeria platform strain that is safe yet retains the potency of vaccines based on wild-type bacteria. Here, we report the development of a recombinant live-attenuated vaccine platform strain that retains the potency of the fully virulent pathogen, combined with a >1,000-fold reduction in toxicity, as compared with wild-type Listeria. By selectively deleting two virulence factors, ActA (⌬actA) and Internalin B (⌬inlB), the immunopotency of Listeria was maintained and its toxicity was diminished in vivo, largely by blocking the direct internalin B-mediated infection of nonphagocytic cells, such as hepatocytes, and the indirect ActA-mediated infection by cellto-cell spread from adjacent phagocytic cells. In contrast, infection of phagocytic cells was not affected, leaving intact the ability of Listeria to stimulate innate immunity and to induce antigenspecific cellular responses. Listeria ⌬actA͞⌬inlB-based vaccines were rapidly cleared from mice after immunization and induced potent and durable effector and memory T-cell responses with no measurable liver toxicity. Therapeutic vaccination of BALB͞c mice bearing murine CT26 colon tumor lung metastases or palpable s.c. tumors (>100 mm 3 ) with recombinant Listeria ⌬actA͞⌬inlB expressing an endogenous tumor antigen resulted in breaking of self-tolerance and long-term survival. We propose that recombinant Listeria ⌬actA͞⌬inlB expressing human tumor-associated antigens represents an attractive therapeutic strategy for further development and testing in human clinical trials.C ancer immunotherapy represents a promising treatment strategy that has produced some tantalizing clinical responses for a variety of malignant diseases. Although promising, there continues to be a strong need for a practical immunization strategy that can be routinely adopted to specific malignancies and that consistently yields durable and robust therapeutic antitumor responses.Progress in molecular and cellular immunology, combined with increasing understanding of pathogen physiology and hostpathogen interaction has facilitated the design and use of attenuated bacteria as conventional vaccine vectors. However, the practical utility of live attenuated vaccines relies on achieving a proper balance between the virulence͞toxicity and immunogenicity of the vaccine. The potency of a pathogen to elicit adaptive immunity is related in part to its ability to stimulate significant innate immunity through recognition of microbial pathogen-associated molecular patterns by Toll-like receptors. Microbial encounter with professional antigen-presenting cells (APC), such as dendritic cells, results in activation and maturation (1) as well as secretion of high levels of T helper-1-type cytokines (2). This interaction initiates adaptive immune responses and therefore link...

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Magnitude of Therapeutic STING Activation Determines CD8+ T Cell-Mediated Anti-tumor Immunity

et al. 2018

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Intratumoral (IT) STING activation results in tumor regression in preclinical models, yet factors dictating the balance between innate and adaptive anti-tumor immunity are unclear. Here, clinical candidate STING agonist ADU-S100 (S100) is used in an IT dosing regimen optimized for adaptive immunity to uncover requirements for a T cell-driven response compatible with checkpoint inhibitors (CPIs). In contrast to highdose tumor ablative regimens that result in systemic S100 distribution, low-dose immunogenic regimens induce local activation of tumor-specific CD8 + effector T cells that are responsible for durable anti-tumor immunity and can be enhanced with CPIs. Both hematopoietic cell STING expression and signaling through IFNAR are required for tumor-specific T cell activation, and in the context of optimized T cell responses, TNFa is dispensable for tumor control. In a poorly immunogenic model, S100 combined with CPIs generates a survival benefit and durable protection. These results provide fundamental mechanistic insights into STING-induced anti-tumor immunity.

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Meredith L. Leong

Serum and glucocorticoid-inducible kinase (SGK) is a target of the PI 3-kinase-stimulated signaling pathway

STING agonist formulated cancer vaccines can cure established tumors resistant to PD-1 blockade

Listeria-based cancer vaccines that segregate immunogenicity from toxicity

Magnitude of Therapeutic STING Activation Determines CD8+ T Cell-Mediated Anti-tumor Immunity

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