Authors
Jun Li, Mercedes A Duran, Ninjit Dhanota, Walid K Chatila, Sarah E Bettigole, John Kwon, Roshan K Sriram, Matthew P Humphries, Manuel Salto-Tellez, Jacqueline A James, Matthew G Hanna, Johannes C Melms, Sreeram Vallabhaneni, Kevin Litchfield, Ieva Usaite, Dhruva Biswas, Rohan Bareja, Hao Wei Li, Maria Laura Martin, Princesca Dorsaint, Julie-Ann Cavallo, Peng Li, Chantal Pauli, Lee Gottesdiener, Benjamin J DiPardo, Travis J Hollmann, Taha Merghoub, Hannah Y Wen, Jorge S Reis-Filho, Nadeem Riaz, Shin-San Michael Su, Anusha Kalbasi, Neil Vasan, Simon N Powell, Jedd D Wolchok, Olivier Elemento, Charles Swanton, Alexander N Shoushtari, Eileen E Parkes, Benjamin Izar, Samuel F Bakhoum
Publication date
2021/5/1
Journal
Cancer discovery
Volume
11
Issue
5
Pages
1212-1227
Publisher
American Association for Cancer Research
Description
Cytosolic DNA is characteristic of chromosomally unstable metastatic cancer cells, resulting in constitutive activation of the cGAS–STING innate immune pathway. How tumors co-opt inflammatory signaling while evading immune surveillance remains unknown. Here, we show that the ectonucleotidase ENPP1 promotes metastasis by selectively degrading extracellular cGAMP, an immune-stimulatory metabolite whose breakdown products include the immune suppressor adenosine. ENPP1 loss suppresses metastasis, restores tumor immune infiltration, and potentiates response to immune checkpoint blockade in a manner dependent on tumor cGAS and host STING. Conversely, overexpression of wild-type ENPP1, but not an enzymatically weakened mutant, promotes migration and metastasis, in part through the generation of extracellular adenosine, and renders otherwise sensitive tumors …
Total citations
Scholar articles
J Li, MA Duran, N Dhanota, WK Chatila, SE Bettigole… - Cancer discovery, 2021