Abstract
ObjectivesTo identify oncogenic driver mutations in congenital mesoblastic nephroma (CMN) cases lacking ETV6-NTRK3 fusion and discuss their diagnostic value. DesignThe institutional pathology database was queried for cases with a morphologic diagnosis of CMN. Cases positive for ETV6 rearrangement or with unavailable blocks were excluded. Four cases met the inclusion criteria and were sequenced by next-generation sequencing. Three additional cases were contributed by our collaborators. ResultsThree of four internal cases harbor an EGFR kinase domain duplication (KDD), which is known to be oncogenic yet exceedingly rare in other histologies. All three outside cases are positive for EGFR alterations, including KDD in two and a splicing site mutation in one. The splicing site mutation is predicted to be EGFR activating. One of the outside cases was a retroperitoneal mass without a clear site of origin. A diagnosis of CMN is suggested based on exclusion of differential diagnoses by expert consultation and detection of EGFR KDD. ConclusionsEGFR activation, predominantly via EGFR KDD, is a common recurrent genetic alteration in CMN lacking NTRK3 fusions. CMN can be molecularly classified into NTRK3 fusion type, EGFR activation type and others.
Highlights
Congenital mesoblastic nephroma (CMN), the most common renal tumor of infancy, is a mesenchymal neoplasm histologically classified into classic, cellular, or mixed types
Immunohistochemistry showed that the tumor cells were positive for WT1, caldesmon, CD99, S100, and SMA
We report EGFR kinase domain duplications (KDD) as a recurrent oncogenic driver of CMN, alternative to NTRK3 fusions
Summary
Congenital mesoblastic nephroma (CMN), the most common renal tumor of infancy, is a mesenchymal neoplasm histologically classified into classic, cellular, or mixed types. Most cellular CMNs harbor a characteristic ETV6-NTRK3 fusion [1,2,3,4]. A variant EML4-NTRK3 fusion has been described in rare cases [5]. The frequency of NTRK3 fusions in the mixed type of CMN varies greatly by study [2,3,4]. For the classic subtype and the subset of cellular/mixed CMNs lacking NTRK3 fusions, no recurrent genetic aberration had been identified, until a recently published series found EGFR kinase domain duplications (KDD), rare NTRK1 fusions, and BRAF fusions and intragenic rearrangements [6]
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