Non-classical neoantigens from fusion junctions of chimeric RNAs are novel targets for tumor-specific personalized vaccines with low risk of autoimmunity. We present a platform to discover immunogenic neoantigens driving CD8+ T-cell clonotypes from chimeric RNA fusion junctions, with the aim of promoting tumor-reactive T-cell expansion. RNA sequencing data from 1315 patient-derived xenograft (PDX) models harboring 28 different cancer types were analyzed for chimeric RNA. The CD74 [Exon 1-6] | NRG1 [Exon 5-12] fusion was selected based on its established role as an actionable cancer driver and its presence in 4 PDX models with a consistent fusion junction.

We assessed the affinity of 9,10,11mer neopeptides from the CD74-NRG1 fusion to MHC Class I molecules using in silico tools and confirmed these findings in vitro using flow cytometry analyses. Predicted binders were further modeled and ranked by structural features with APEGEN 2.0. Immunogenicity was evaluated via IFN-γ ELISpot assays using HLA-B*07:02-matched PBMCs. Dextramers conjugated with the feature barcode technology were utilized for single-cell 5’ gene expression RNA sequencing and T-cell receptor mapping of antigen-specific activated T cells. This study demonstrates a robust pipeline for identifying immunogenic neoantigens from chimeric RNAs, offering the potential for designing personalized cancer vaccines.

About the speaker
Sakuni Rankothgedera, Lead Scientist
University of Houston Sequencing Core
Sakuni Rankothgedera is a lead scientist at the University of Houston Sequencing Core and a PhD candidate in Biochemistry at the University of Houston. She has a foundation in Immunology and Cell Biology, which led to her research journey specializing in unraveling the complexities of oncogenic processes and identifying potential therapeutic targets, particularly in the context of vaccine candidates. Sakuni’s extensive experience in NGS techniques, including the advanced field of single-cell RNA-seq, has enabled her to generate high-resolution genomic data for dissecting molecular pathways. Her prior research endeavors in Sri Lanka focused on developing an immunological marker panel for primary and secondary osteoarthritis patients, which, during her undergraduate years, earned her an award for the Best Research Project in Immunology.
mercredi 13 novembre 2024
08:00:00 (UTC) - 09:00:00 (UTC)
Duration:60 minutes
Categories
Online webinar
Academic Basic Research
Cancer (other / various)
Next Generation Sequencing
Cancer Research