TY - JOUR
T1 - β-catenin activation promotes immune escape and resistance to anti–PD-1 therapy in hepatocellular carcinoma
AU - de Galarreta, Marina Ruiz
AU - Bresnahan, Erin
AU - Molina-Sánchez, Pedro
AU - Lindblad, Katherine E.
AU - Maier, Barbara
AU - Sia, Daniela
AU - Puigvehi, Marc
AU - Miguela, Verónica
AU - Casanova-Acebes, María
AU - Dhainaut, Maxime
AU - Villacorta-Martin, Carlos
AU - Singhi, Aatur D.
AU - Moghe, Akshata
AU - von Felden, Johann
AU - Grinspan, Lauren Tal
AU - Wang, Shuang
AU - Kamphorst, Alice O.
AU - Monga, Satdarshan P.
AU - Brown, Brian D.
AU - Villanueva, Augusto
AU - Llovet, Josep M.
AU - Merad, Miriam
AU - Lujambio, Amaia
N1 - Publisher Copyright:
© 2019 American Association for Cancer Research.
PY - 2019/8
Y1 - 2019/8
N2 - PD-1 immune checkpoint inhibitors have produced encouraging results in patients with hepatocellular carcinoma (HCC). However, what determines resistance to anti– PD-1 therapies is unclear. We created a novel genetically engineered mouse model of HCC that enables interrogation of how different genetic alterations affect immune surveillance and response to immunotherapies. Expression of exogenous antigens in MYC;Trp53 HCCs led to T cell–mediated immune −/− surveillance, which was accompanied by decreased tumor formation and increased survival. Some −/− antigen-expressing MYC;Trp53 HCCs escaped the immune system by upregulating the β-catenin (CTNNB1) pathway. Accordingly, expression of exogenous antigens in MYC;CTNNB1 HCCs had no effect, demonstrating that β-catenin promoted immune escape, which involved defective recruitment of dendritic cells and consequently impaired T-cell activity. Expression of chemokine CCL5 in antigen-expressing MYC;CTNNB1 HCCs restored immune surveillance. Finally, β-catenin–driven tumors were resistant to anti–PD-1. In summary, β-catenin activation promotes immune escape and resistance to anti–PD-1 and could represent a novel biomarker for HCC patient exclusion. SIGNIFICANCE: Determinants of response to anti–PD-1 immunotherapies in HCC are poorly understood. Using a novel mouse model of HCC, we show that β-catenin activation promotes immune evasion and resistance to anti–PD-1 therapy and could potentially represent a novel biomarker for HCC patient exclusion.
AB - PD-1 immune checkpoint inhibitors have produced encouraging results in patients with hepatocellular carcinoma (HCC). However, what determines resistance to anti– PD-1 therapies is unclear. We created a novel genetically engineered mouse model of HCC that enables interrogation of how different genetic alterations affect immune surveillance and response to immunotherapies. Expression of exogenous antigens in MYC;Trp53 HCCs led to T cell–mediated immune −/− surveillance, which was accompanied by decreased tumor formation and increased survival. Some −/− antigen-expressing MYC;Trp53 HCCs escaped the immune system by upregulating the β-catenin (CTNNB1) pathway. Accordingly, expression of exogenous antigens in MYC;CTNNB1 HCCs had no effect, demonstrating that β-catenin promoted immune escape, which involved defective recruitment of dendritic cells and consequently impaired T-cell activity. Expression of chemokine CCL5 in antigen-expressing MYC;CTNNB1 HCCs restored immune surveillance. Finally, β-catenin–driven tumors were resistant to anti–PD-1. In summary, β-catenin activation promotes immune escape and resistance to anti–PD-1 and could represent a novel biomarker for HCC patient exclusion. SIGNIFICANCE: Determinants of response to anti–PD-1 immunotherapies in HCC are poorly understood. Using a novel mouse model of HCC, we show that β-catenin activation promotes immune evasion and resistance to anti–PD-1 therapy and could potentially represent a novel biomarker for HCC patient exclusion.
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U2 - 10.1158/2159-8290.CD-19-0074
DO - 10.1158/2159-8290.CD-19-0074
M3 - Article
C2 - 31186238
AN - SCOPUS:85070801211
SN - 2159-8274
VL - 9
SP - 1124
EP - 1141
JO - Cancer Discovery
JF - Cancer Discovery
IS - 8
ER -