Proteomics

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Targeting ERAP enhances anti-tumor immunity by disrupting the NKG2A/HLA-E inhibitory checkpoint

ABSTRACT: New targets that enhance anti-tumor immunity must be identified to improve the efficacy of cancer immunotherapy. Here we show that loss of endoplasmic reticulum aminopeptidase (ERAP) family proteins improves anti-tumor immunity and synergizes with immune checkpoint blockade. Mechanistically, we show that loss of ERAP inactivates the HLA-E/NKG2A checkpoint, which normally restrains tumor killing by both CD8+ T cells and NK cells. The inhibitory activity of HLA-E is dependent on its presentation of a restricted set of invariant epitopes which form the binding surface for the NKG2A/CD94 receptor complex. Using genetic screening, in vivo models, cell-based assays, and immunopeptidomics, we show that loss of ERAP activity prevents the processing of these invariant peptides and alters the presented peptidome of both HLA-E and classical MHC-I. HLA-E neo-peptides presented after ERAP deletion are unable to bind the NKG2A/CD94 receptor, rendering tumor cells highly susceptible to killing by NKG2A+ cytotoxic T and NK cells. Thus, loss of ERAP phenocopies the loss or inhibition of the HLA-E/NKG2A pathway and represents an attractive therapeutic approach to inhibit this critical checkpoint. More broadly, this work identifies ERAP1/2 as druggable intracellular enzymes that could be targeted using small molecules to inactivate a cell-surface inhibitory pathway and represents a novel approach to therapeutic modulation of immune responses.

INSTRUMENT(S): Orbitrap Eclipse

ORGANISM(S): Homo Sapiens (human)

DISEASE(S): Colorectal Carcinoma,Lung Cancer,Squamous Cell Carcinoma

SUBMITTER: Niclas Olsson  

LAB HEAD: Fiona McAllister

PROVIDER: PXD052031 | Pride | 2024-11-21

REPOSITORIES: Pride

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Dataset's files

Source:
Action DRS
HCT_AQUA.csv Csv
Mapping_rawfiles.csv Csv
NCI_AQUA.csv Csv
SCaBER_AQUA.csv Csv
p006742_HDN_SCaBER_ERAP1_KO_rep01_s02_A_inj1.raw Raw
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Publications

Targeting the aminopeptidase ERAP enhances antitumor immunity by disrupting the NKG2A-HLA-E inhibitory checkpoint.

Tsao Hsiao-Wei HW   Anderson Seth S   Finn Kenneth J KJ   Perera Jonathan J JJ   Pass Lomax F LF   Schneider Emily M EM   Jiang Aiping A   Fetterman Rachel R   Chuong Cun Lan CL   Kozuma Kaiya K   Stickler Marcia M MM   Creixell Marc M   Klaeger Susan S   Phulphagar Kshiti Meera KM   Rachimi Suzanna S   Verzani Eva K EK   Olsson Niclas N   Dubrot Juan J   Pech Matthew F MF   Silkworth Whitney W   Lane-Reticker Sarah Kate SK   Allen Peter M PM   Ibrahim Kyrellos K   Knudsen Nelson H NH   Cheng Andrew Y AY   Long Adrienne H AH   Ebrahimi-Nik Hakimeh H   Kim Sarah Y SY   Du Peter P PP   Iracheta-Vellve Arvin A   Robitschek Emily J EJ   Suermondt Juliette S M T JSMT   Davis Thomas G R TGR   Wolfe Clara H CH   Atluri Trisha T   Olander Kira E KE   Rush Jason S JS   Sundberg Thomas B TB   McAllister Fiona E FE   Abelin Jennifer G JG   Firestone Ari A   Stokoe David D   Carr Steven A SA   Harding Fiona A FA   Yates Kathleen B KB   Manguso Robert T RT  

Immunity 20241118 12

The aminopeptidase, endoplasmic reticulum aminopeptidase 1 (ERAP1), trims peptides for loading into major histocompatibility complex class I (MHC class I), and loss of this activity has broad effects on the MHC class I peptidome. Here, we investigated the impact of targeting ERAP1 in immune checkpoint blockade (ICB), as MHC class I interactions mediate both activating and inhibitory functions in antitumor immunity. Loss of ERAP sensitized mouse tumor models to ICB, and this sensitivity depended  ...[more]

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