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Merck

Genomic Landscape of Vinflunine Response in Metastatic Urothelial Cancer.

Cancers (2022-01-22)
Alejandra Bernardini, Marta Dueñas, María Cruz Martín-Soberon, Carolina Rubio, Cristian Suarez-Cabrera, Raquel Ruiz-Palomares, Ester Munera-Maravilla, Sara Lázaro, Iris Lodewijk, Daniel Rueda, David Gómez-Sánchez, Teresa Alonso-Gordoa, Javier Puente, Álvaro Pinto, Pilar González-Peramato, Carlos Aguado, Mercedes Herrera, Flora López, Victor M G Martinez, Lucía Morales, Daniel Castellano, Jesús M Paramio, Guillermo de Velasco
RESUMEN

Metastatic urothelial carcinoma (mUC) remains an incurable disease with limited treatment options after platinum-based chemotherapy and immune checkpoint blockade (ICB). Vinflunine has shown a modest increase in overall survival and remains a therapeutic option for chemo- and immunotherapy refractory tumours. However, biomarkers that could identify responding patients to vinflunine and possible alternative therapies after failure to treatment are still missing. In this study, we aimed to identify potential genomic biomarkers of vinflunine response in mUC patient samples and potential management alternatives. Formalin-fixed paraffin-embedded samples of mUC patients (n = 23) from three university hospitals in Spain were used for genomic targeted-sequencing and transcriptome (using the Immune Profile panel by NanoString) analyses. Patients who received vinflunine after platinum-based chemotherapy failure were classified in non-responders (NR: progressive disease ≤ 3 months; n= 11) or responders (R: response ≥ 6 months; n = 12). Genomic characterization revealed that the most common alteration, TP53 mutations, had comparable frequency in R (6/12; 50%) and NR (4/11; 36%). Non-synonymous mutations in KTM2C (4/12; 33.3%), PIK3CA (3/12; 25%) and ARID2 (3/12; 25%) were predominantly associated with response. No significant difference was observed in tumour mutational burden (TMB) between R and NR patients. The NR tumours showed increased expression of diverse immune-related genes and pathways, including various interferon gamma-related genes. We also identified increased MAGEA4 expression as a potential biomarker of non-responding tumours to vinflunine treatment. Our data may help to identify potential genomic biomarkers of response to vinflunine. Moreover, tumours refractory to vinflunine showed immune signatures potentially associated with response to ICB. Extensive validation studies, including longitudinal series, are needed to corroborate these findings.