Direct Activation of STING in the Tumor Microenvironment Leads to Potent and Systemic Tumor Regression and Immunity

Leticia Corrales(University of Chicago), Laura Hix Glickman(Aduro BioTech (United States)), Sarah M. McWhirter(Aduro BioTech (United States)), David B. Kanne(Aduro BioTech (United States)), Kelsey E. Sivick(Aduro BioTech (United States)), George E. Katibah(Aduro BioTech (United States)), Seng‐Ryong Woo(University of Chicago), Edward E. Lemmens(Aduro BioTech (United States)), Tamara Banda(Aduro BioTech (United States)), Justin J. Leong(Aduro BioTech (United States)), Ken Metchette(Aduro BioTech (United States)), Thomas W. Dubensky(Aduro BioTech (United States)), Thomas F. Gajewski(University of Chicago)
Cell Reports
May 1, 2015
10.1016/j.celrep.2015.04.031
Cited by 1,485Open Access
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Abstract

Spontaneous tumor-initiated T cell priming is dependent on IFN-β production by tumor-resident dendritic cells. On the basis of recent observations indicating that IFN-β expression was dependent upon activation of the host STING pathway, we hypothesized that direct engagement of STING through intratumoral (IT) administration of specific agonists would result in effective anti-tumor therapy. After proof-of-principle studies using the mouse STING agonist DMXAA showed a potent therapeutic effect, we generated synthetic cyclic dinucleotide (CDN) derivatives that activated all human STING alleles as well as murine STING. IT injection of STING agonists induced profound regression of established tumors in mice and generated substantial systemic immune responses capable of rejecting distant metastases and providing long-lived immunologic memory. Synthetic CDNs have high translational potential as a cancer therapeutic.

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