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Autophagy promotes immune evasion of pancreatic cancer by degrading MHC-I
- Yamamoto, Keisuke;
- Venida, Anthony;
- Yano, Julian;
- Biancur, Douglas E;
- Kakiuchi, Miwako;
- Gupta, Suprit;
- Sohn, Albert SW;
- Mukhopadhyay, Subhadip;
- Lin, Elaine Y;
- Parker, Seth J;
- Banh, Robert S;
- Paulo, Joao A;
- Wen, Kwun Wah;
- Debnath, Jayanta;
- Kim, Grace E;
- Mancias, Joseph D;
- Fearon, Douglas T;
- Perera, Rushika M;
- Kimmelman, Alec C
- et al.
Published Web Location
https://doi.org/10.1038/s41586-020-2229-5Abstract
Immune evasion is a major obstacle for cancer treatment. Common mechanisms of evasion include impaired antigen presentation caused by mutations or loss of heterozygosity of the major histocompatibility complex class I (MHC-I), which has been implicated in resistance to immune checkpoint blockade (ICB) therapy1-3. However, in pancreatic ductal adenocarcinoma (PDAC), which is resistant to most therapies including ICB4, mutations that cause loss of MHC-I are rarely found5 despite the frequent downregulation of MHC-I expression6-8. Here we show that, in PDAC, MHC-I molecules are selectively targeted for lysosomal degradation by an autophagy-dependent mechanism that involves the autophagy cargo receptor NBR1. PDAC cells display reduced expression of MHC-I at the cell surface and instead demonstrate predominant localization within autophagosomes and lysosomes. Notably, inhibition of autophagy restores surface levels of MHC-I and leads to improved antigen presentation, enhanced anti-tumour T cell responses and reduced tumour growth in syngeneic host mice. Accordingly, the anti-tumour effects of autophagy inhibition are reversed by depleting CD8+ T cells or reducing surface expression of MHC-I. Inhibition of autophagy, either genetically or pharmacologically with chloroquine, synergizes with dual ICB therapy (anti-PD1 and anti-CTLA4 antibodies), and leads to an enhanced anti-tumour immune response. Our findings demonstrate a role for enhanced autophagy or lysosome function in immune evasion by selective targeting of MHC-I molecules for degradation, and provide a rationale for the combination of autophagy inhibition and dual ICB therapy as a therapeutic strategy against PDAC.
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