Figure S3 from Oncogenic KIT Modulates Type I IFN–Mediated Antitumor Immunity in GIST

Liu, Mengyuan; Etherington, Mark S.; Hanna, Andrew; Medina, Benjamin D.; Vitiello, Gerardo A.; Bowler, Timothy G.; Param, Nesteene J.; Levin, Lillian; Rossi, Ferdinand; DeMatteo, Ronald P.

doi:10.1158/2326-6066.22543251.v1

23266066cir200692-sup-249683_2_supp_6871946_qnjsm6.pdf (435.83 kB)

Figure S3 from Oncogenic KIT Modulates Type I IFN–Mediated Antitumor Immunity in GIST

journal contribution

posted on 2023-04-04, 01:01 authored by Mengyuan Liu, Mark S. Etherington, Andrew Hanna, Benjamin D. Medina, Gerardo A. Vitiello, Timothy G. Bowler, Nesteene J. Param, Lillian Levin, Ferdinand Rossi, Ronald P. DeMatteo

Supp to Fig. 3

Funding

NIH

History

ARTICLE ABSTRACT

Type I IFNs are implicated in tumor immunogenicity and response to systemic therapy, but their interaction with oncogene signaling is not well understood. Here, we studied oncogenic KIT, which drives gastrointestinal stromal tumor (GIST), the most common sarcoma. Using mouse models of GIST, we found that KIT inhibition reduced type I IFN production and signaling, which downregulated tumor MHC class I expression. Absence of type I IFN signaling increased tumor size, in part due to CD8+ T-cell impairment. Oncogenic KIT was required for GIST type I IFN signal transduction via STAT1. In human GIST cell lines and surgical specimens, type I IFN signaling contributed to human lymphocyte antigen class I expression and correlated with tumor immunogenicity. Augmenting the type I IFN response partially compensated for the immunosuppressive effects of KIT inhibition. Thus, KIT signaling contributes to type I IFN signaling, whereas KIT inhibition attenuates tumor immunogenicity and is partly rescued by innate immune stimulation.See related Spotlight on p. 489