1. Mutational signature profiling classifies subtypes of clinically different mismatch-repair-deficient tumours with a differential immunogenic response potential
- Author
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Mar Giner-Calabuig, Seila De Leon, Julian Wang, Tara D. Fehlmann, Chinedu Ukaegbu, Joanna Gibson, Miren Alustiza-Fernandez, Maria-Dolores Pico, Cristina Alenda, Maite Herraiz, Marta Carrillo-Palau, Inmaculada Salces, Josep Reyes, Silvia P. Ortega, Antònia Obrador-Hevia, Michael Cecchini, Sapna Syngal, Elena Stoffel, Nathan A. Ellis, Joann Sweasy, Rodrigo Jover, Xavier Llor, and Rosa M. Xicola
- Subjects
Cancer Research ,Oncology ,Brain Neoplasms ,Neoplastic Syndromes, Hereditary ,Mutation ,Humans ,Microsatellite Instability ,Colorectal Neoplasms ,MutL Protein Homolog 1 ,Colorectal Neoplasms, Hereditary Nonpolyposis ,DNA Mismatch Repair ,Article ,Mismatch Repair Endonuclease PMS2 - Abstract
BACKGROUND: Mismatch repair (MMR) deficiency is the hallmark of tumours from Lynch syndrome (LS), sporadic MLH1 hypermethylated and Lynch-like syndrome (LLS), but there is a lack of understanding of the variability in their mutational profiles based on clinical phenotypes. The aim of this study was to perform a molecular characterisation to identify novel features that can impact tumour behaviour and clinical management. METHODS: We tested 105 MMR-deficient colorectal cancer tumours (25 LS, 35 LLS and 45 sporadic) for global exome microsatellite instability, cancer mutational signatures, mutational spectrum and neoepitope load. RESULTS: Fifty-three percent of tumours showed high contribution of MMR-deficient mutational signatures, high level of global exome microsatellite instability, loss of MLH1/PMS2 protein expression and included sporadic tumours. Thirty-one percent of tumours showed weaker features of MMR deficiency, 62% lost MSH2/MSH6 expression and included 60% of LS and 44% of LLS tumours. Remarkably, 9% of all tumours lacked global exome microsatellite instability. Lastly, HLA-B07:02 could be triggering the neoantigen presentation in tumours that show the strongest contribution of MMR-deficient tumours. CONCLUSIONS: Next-generation sequencing approaches allow for a granular molecular characterisation of MMR-deficient tumours, which can be essential to properly diagnose and treat patients with these tumours in the setting of personalised medicine.
- Published
- 2022