Abstract
Background: Urothelial bladder carcinomas had traditionally been difficult to treat cancers, with high morbidity and mortality rates when invasive and metastatic. In recent years, immunotherapy with immune checkpoint inhibitors has improved outcomes in several cancers, including bladder carcinomas. Despite positive overall results, many bladder cancer patients do not respond to immunotherapies. Validated predictive biomarkers of response would advance the selection of patients for these treatments. Tumor mutation burden (TMB) has been suggested as an immunotherapy biomarker and thus delineation of attributes of tumors with a high TMB is clinically relevant. Methods: Publicly available genomic and clinical data from the urothelial bladder carcinoma cohort of The Cancer Genome Atlas (TCGA) project are used to analyze characteristics and molecular alterations of the subset of cancers with an increased tumor mutation number compared with those with lower number of mutations. The cut-off for the high mutation burden in the analysis was set at 10 mutations per Megabase (MB). Results: In addition to their sensitivity to immune checkpoint inhibitors, urothelial carcinomas with high TMB possess several molecular defects that could be exploited for combinatorial treatments. Compared with bladder carcinomas with low TMB, carcinomas with high TMB display higher prevalence of mutations in tumor suppressor TP53, PIK3CA, in FAT4 cadherin and in genes encoding for several epigenetic modifier enzymes. The frequency of mutations in mismatch repair and DNA damage response genes is higher in cancers with high TMB. The group of urothelial carcinomas with high TMB has a better prognosis than the group with low TMB. This improved Overall Survival (OS) stems from improved survival of stage III cancers with high TMB compared with stage III cancers with low TMB, while stage II and stage IV cancers have similar OS, independently of their TMB. Conclusion: Differences of the landscape of high and low TMB urothelial cancers provides leads for further pathogenesis investigations and may prove useful for development of combination therapies including immunotherapies with targeted inhibitors.
Highlights
IntroductionUrothelial bladder carcinoma is the most prevalent urinary system cancer with an estimated 83,730 new cases diagnosed in 2021 in United States alone and an expected
The updated bladder cancer cohort from The Cancer Genome Atlas (TCGA) consists of 412 patients with mostly stage II to IV disease
The high Tumor mutation burden (TMB) [>10 mutations/megabase (MB)] group consists of 107 patients (26%), while 304 patients (74%) had a low TMB (≤10 mutations/MB)
Summary
Urothelial bladder carcinoma is the most prevalent urinary system cancer with an estimated 83,730 new cases diagnosed in 2021 in United States alone and an expected. Bladder carcinoma represents the twelfth most prevalent cancer [1]. For the adjuvant therapy of localized disease after surgical resection, treatment with the immune checkpoint inhibitor nivolumab has shown an improvement in disease-free survival [2]. Urothelial bladder carcinomas had traditionally been difficult to treat cancers, with high morbidity and mortality rates when invasive and metastatic. Immunotherapy with immune checkpoint inhibitors has improved outcomes in several cancers, including bladder carcinomas. Tumor mutation burden (TMB) has been suggested as an immunotherapy biomarker and delineation of attributes of tumors with a high TMB is clinically relevant. Methods: Publicly available genomic and clinical data from the urothelial bladder carcinoma cohort of The
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