BRAFV600E-mutant metastatic colorectal cancer (mCRC) is an aggressive molecular subtype associated with poor prognosis and relative chemoresistance. Outcomes following progression on chemotherapy and MAPK-targeted therapy with Encorafenib plus Cetuximab remain poor, highlighting an unmet need for effective later-line treatments. Immune checkpoint inhibitors have limited activity in microsatellite-stable (MSS) mCRC, and predictive biomarkers beyond mismatch repair deficiency remain poorly defined. We report a patient with BRAFV600E-mutant MSS mCRC who achieved a prolonged response to PD-1 blockade with Pembrolizumab following a dynamic increase in tumour mutational burden (TMB). A 58-year-old woman initially responded to first-line chemotherapy but subsequently progressed on multiple treatment lines, including Encorafenib plus Cetuximab. Longitudinal genomic profiling using tumour tissue and circulating tumour DNA (ctDNA) revealed persistent BRAFV600E signalling with molecular evolution, including acquisition of a PIK3R1 variant associated with resistance to MAPK inhibition and emergence of TMB-high status. Fifth-line Pembrolizumab produced a dramatic radiological response, with ongoing disease control more than two years later. We discuss the mechanistic framework by which a subset of BRAFV600E-mutant MSS mCRC may respond to immune checkpoint inhibition through an inflamed immune microenvironment driven by constitutive MAPK signalling. This case illustrates the interplay between tumour-agnostic biomarkers such as TMB-high and tumour-specific context, and highlights the value of longitudinal genomic profiling, including ctDNA, to identify resistance mechanisms and guide treatment selection.
Yang et al. (Fri,) studied this question.