Next-generation liquid biopsies: detecting circulating epigenetic changes to identify translocation renal cell carcinoma
Katsuhiro Ito, David A. Braun
Katsuhiro Ito, David A. Braun
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Commentary

Next-generation liquid biopsies: detecting circulating epigenetic changes to identify translocation renal cell carcinoma

Abstract

Circulating tumor DNA detection in renal cell carcinoma has long been limited by the disease’s low DNA shedding. An aggressive subtype termed translocation renal cell carcinoma (tRCC) is notably more difficult to detect than the common type, clear-cell RCC, in part due to interindividual variability of gene fusions of the transcription factor TFE3, the driving factor in tRCC. In this issue of the JCI, Garinet et al. reported on an epigenomic liquid biopsy approach that identified a TFE3 fusion–associated chromatin signature specific to tRCC. This work demonstrated that fusion-driven epigenomic alterations can be captured noninvasively and used to distinguish tRCC from other renal cancer subtypes. Beyond its diagnostic potential, the approach described by Garinet et al. may enable disease monitoring and subtype classification in other genetically quiet tumors. Epigenomic liquid biopsy is a promising framework to improve diagnostic accuracy and guide personalized management for tRCC.

Authors

Katsuhiro Ito, David A. Braun

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Figure 1

Cell-free DNA–based epigenomic diagnosis of tRCC.

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Cell-free DNA–based epigenomic diagnosis of tRCC. In tRCC, chromosomal t...
In tRCC, chromosomal translocation leads to the formation of a TFE3 fusion protein, which drives epigenomic alterations, including differential DNA methylation and histone modifications. Garinet et al.’s study demonstrated that these epigenetic changes can be detected in circulation as cell-free DNA or nucleosomes (15). Cell-free MeDIP-seq and histone ChIP-seq enabled the identification of tRCC-specific regulatory elements, allowing for sensitive detection and specific distinction of tRCC from other RCC subtypes.