Purpose: The majority (70%) of the esophageal squamous cell carcinoma (ESCC) cases in the world occur in China, where radiation therapy is the most common treatment. Yet the majority of ESCC patients still relapse.
Methods and materials: To better understand the genetic basis of radiation therapy resistance for ESCC, we performed longitudinal, whole-exome sequencing throughout radiation therapy on 42 patient tumor samples, including single-cell whole-exome sequencing for 147 cells for 2 patients.
Results: Significant allelic changes were observed during clinical irradiation, with 42 recurrent radioresponsive genes (sensitive and resistant) identified in multiple patients, including NOTCH1, MAML3, CDKN2A, NFE2L2, GAS2L2, OBSCN and TP53, with the last 3 genes implicated as radioresponsive in both bulk and single-cell whole-exome sequencing. Most (37/42) radioresponsive genes showed regional variegation in both radioresistant and radiosensitive mutations, with a paucity of resistant-only mutations (2.5%). A subset of sensitive mutations in 10 genes and resistant mutations in 18 genes defined a significantly improved prognosis and the shortest time for locoregional recurrence, respectively, indicating possible clinical utility. We also confirmed these significant mutational signatures in orthogonal Cancer Genome Atlas ESCC cohorts.
Conclusions: Overall, our results quantify the allelic shifts underlying radioresponse in bulk and single-cell ESCC exomes for the first time, provide a temporal resolution to such mutational dynamics, and offer new therapeutic target genes and loci for esophageal and potentially other cancers.
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