Neoantigen vaccines are one of the most effective immunotherapies for personalized tumour treatment.The current immunogen design of neoantigen vaccines is usually based on whole-genome sequencing(WGS)and bioinformatic...Neoantigen vaccines are one of the most effective immunotherapies for personalized tumour treatment.The current immunogen design of neoantigen vaccines is usually based on whole-genome sequencing(WGS)and bioinformatics prediction that focuses on the prediction of binding affinity between peptide and MHC molecules,ignoring other peptide-presenting related steps.This may result in a gap between high prediction accuracy and relatively low clinical effectiveness.In this study,we designed an integrated in-silico pipeline,Neo-intline,which started from the SNPs and indels of the tumour samples to simulate the presentation process of peptides in-vivo through an integrated calculation model.Validation on the benchmark dataset of TESLA and clinically validated neoantigens illustrated that neo-intline could outperform current state-of-the-art tools on both sample level and melanoma level.Furthermore,by taking the mouse melanoma model as an example,we verified the effectiveness of 20 neoantigens,including 10 MHC-I and 10 MHC-II peptides.The in-vitro and in-vivo experiments showed that both peptides predicted by Neo-intline could recruit corresponding CD4^(+)T cells and CD8^(+)T cells to induce a T-cell-mediated cellular immune response.Moreover,although the therapeutic effect of neoantigen vaccines alone is not sufficient,combinations with other specific therapies,such as broad-spectrum immune-enhanced adjuvants of granulocyte-macrophage colony-stimulating factor(GM-CSF)and polyinosinic-polycytidylic acid(poly(I:C)),or immune checkpoint inhibitors,such as PD-1/PD-L1 antibodies,can illustrate significant anticancer effects on melanoma.Neo-intline can be used as a benchmark process for the design and screening of immunogenic targets for neoantigen vaccines.展开更多
基金We wish to thank all members of our laboratory for their helpful suggestions and support.This study was supported by grants from the National Natural Science Foundation of China(32370697,31900483)the Shanghai Sailing Program(19YF1441100)+1 种基金the Shanghai Science&Technology Basic Research Program(18JC1414400)the Key Science and Technology Program of Henan Province(212102310872).
文摘Neoantigen vaccines are one of the most effective immunotherapies for personalized tumour treatment.The current immunogen design of neoantigen vaccines is usually based on whole-genome sequencing(WGS)and bioinformatics prediction that focuses on the prediction of binding affinity between peptide and MHC molecules,ignoring other peptide-presenting related steps.This may result in a gap between high prediction accuracy and relatively low clinical effectiveness.In this study,we designed an integrated in-silico pipeline,Neo-intline,which started from the SNPs and indels of the tumour samples to simulate the presentation process of peptides in-vivo through an integrated calculation model.Validation on the benchmark dataset of TESLA and clinically validated neoantigens illustrated that neo-intline could outperform current state-of-the-art tools on both sample level and melanoma level.Furthermore,by taking the mouse melanoma model as an example,we verified the effectiveness of 20 neoantigens,including 10 MHC-I and 10 MHC-II peptides.The in-vitro and in-vivo experiments showed that both peptides predicted by Neo-intline could recruit corresponding CD4^(+)T cells and CD8^(+)T cells to induce a T-cell-mediated cellular immune response.Moreover,although the therapeutic effect of neoantigen vaccines alone is not sufficient,combinations with other specific therapies,such as broad-spectrum immune-enhanced adjuvants of granulocyte-macrophage colony-stimulating factor(GM-CSF)and polyinosinic-polycytidylic acid(poly(I:C)),or immune checkpoint inhibitors,such as PD-1/PD-L1 antibodies,can illustrate significant anticancer effects on melanoma.Neo-intline can be used as a benchmark process for the design and screening of immunogenic targets for neoantigen vaccines.
