Comprehensive characterization of cell-free tumor DNA in plasma and urine of patients with renal tumors

Christopher G Smith,Matthew Eldridge,Thomas J Mitchell,Wendy N Cooper,Anja Lisa Riediger ,Tobias Klatte,Samantha Perakis,James Armitage ,Andrea Ruiz-Valdepeñas ,Tina Moser,Ellen Heitzer,Stephan Ursprung,Davina Gale,Nitzan Rosenfeld,Irena Hudecova,James A Morris ,Antony C P Riddick,Charles E Massie,Johanna Field-Rayner,Anne Y Warren,Gabriel Wcisło ,Martin Pichler,Katrin Heider,Jonathan C M Wan,Tim Eisen,Evis Sala,Dineika Chandrananda,Maximilian Seles,Athena Matakidou,Tevita Aho ,Florent Moulière ,Sarah J Welsh,Grant D Stewart

doi:10.1186/s13073-020-00723-8

Abstract

BackgroundCell-free tumor-derived DNA (ctDNA) allows non-invasive monitoring of cancers, but its utility in renal cell cancer (RCC) has not been established.MethodsHere, a combination of untargeted and targeted sequencing methods, applied to two independent cohorts of patients (n = 91) with various renal tumor subtypes, were used to determine ctDNA content in plasma and urine.ResultsOur data revealed lower plasma ctDNA levels in RCC relative to other cancers of similar size and stage, with untargeted detection in 27.5% of patients from both cohorts. A sensitive personalized approach, applied to plasma and urine from select patients (n = 22) improved detection to ~ 50%, including in patients with early-stage disease and even benign lesions. Detection in plasma, but not urine, was more frequent amongst patients with larger tumors and in those patients with venous tumor thrombus.With data from one extensively characterized patient, we observed that plasma and, for the first time, urine ctDNA may better represent tumor heterogeneity than a single tissue biopsy. Furthermore, in a subset of patients (n = 16), longitudinal sampling revealed that ctDNA can track disease course and may pre-empt radiological identification of minimal residual disease or disease progression on systemic therapy. Additional datasets will be required to validate these findings.ConclusionsThese data highlight RCC as a ctDNA-low malignancy. The biological reasons for this are yet to be determined. Nonetheless, our findings indicate potential clinical utility in the management of patients with renal tumors, provided improvement in isolation and detection approaches.

Highlights

Cell-free tumor-derived DNA allows non-invasive monitoring of cancers, but its utility in renal cell cancer (RCC) has not been established
Untargeted analysis of Cell-free tumor-derived DNA (ctDNA) in plasma and urine from patients with renal tumors We applied a combination of rapid and cost-effective untargeted approaches, albeit with limited sensitivity, to establish a first measure of ctDNA presence and levels in patients with benign through to metastatic disease (n = 91 patients from the DIAMOND and MonReC studies; patient characteristics are shown in Fig. 1a–c and Additional file 1: Table S1-S2)
We assessed overall ctDNA levels using the trimmed median absolute deviation score calculated from shallow wholegenome sequencing [19] of plasma from 48 DIAMOND patients (Fig. 1b)

Summary

Introduction

Cell-free tumor-derived DNA (ctDNA) allows non-invasive monitoring of cancers, but its utility in renal cell cancer (RCC) has not been established. Renal cell carcinoma (RCC) is the most lethal urological malignancy with 50% of patients that develop the disease dying from it [1]. RCC has well-established pathological and genetic heterogeneity [2], which confounds development of personalized medicine [3]. A “liquid biopsy,” providing an admixture of the entire tumor burden of a patient, may offer a non-invasive alternative to traditional tumor sampling techniques. Cell-free DNA (cfDNA), which in patients with cancer contains cellfree tumor-derived DNA (ctDNA), represent one such promising liquid biopsy strategy [6,7,8]

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