Recurrent <i>SPECC1L–NTRK</i> fusions in pediatric sarcoma and brain tumors

Sarcomas are cancers of mesenchymal origin with the potential to arise in diverse anatomic locations. With over 80 subtypes, which often demonstrate overlapping morphologies, sarcomas frequently require ancillary testing to enable accurate classification. Pathognomonic driver mutations can often be leveraged for diagnostic purposes and include fusion genes, amplification events, and recurrent point mutations.

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Advances in sarcoma molecular diagnostics

Wang

Goytain

Dickson

et al. 2022

Genes Chromosomes & Cancer

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The oncogenic fusion landscape in pediatric CNS neoplasms

et al. 2022

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Pediatric neoplasms in the central nervous system (CNS) are the leading cause of cancer-related deaths in children. Recent developments in molecular analyses have greatly contributed to a more accurate diagnosis and risk stratification of CNS tumors. Additionally, sequencing studies have identified various, often entity specific, tumor-driving events. In contrast to adult tumors, which often harbor multiple mutated oncogenic drivers, the number of mutated genes in pediatric cancers is much lower and many tumors can have a single oncogenic driver. Moreover, in children, much more than in adults, fusion proteins play an important role in driving tumorigenesis, and many different fusions have been identified as potential driver events in pediatric CNS neoplasms. However, a comprehensive overview of all the different reported oncogenic fusion proteins in pediatric CNS neoplasms is still lacking. A better understanding of the fusion proteins detected in these tumors and of the molecular mechanisms how these proteins drive tumorigenesis, could improve diagnosis and further benefit translational research into targeted therapies necessary to treat these distinct entities. In this review, we discuss the different oncogenic fusions reported in pediatric CNS neoplasms and their structure to create an overview of the variety of oncogenic fusion proteins to date, the tumor entities they occur in and their proposed mode of action.

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Real-world Experience With Neurotrophic Tyrosine Receptor Kinase Fusion–positive Tumors and Tropomyosin Receptor Kinase Inhibitors in Veterans

Zhou

Vashistha

Guo

et al. 2023

JCO Precision Oncology

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PURPOSE Neurotrophic tyrosine receptor kinase 1-3 ( NTRK1-3) gene fusions are found in a broad range of tumor types. Clinical trials demonstrated high response rates to tropomyosin receptor kinase (TRK) inhibitors in NTRK fusion–positive cancers, but few reports have described real-world experience with these targeted agents. We evaluated the prevalence of NTRK fusions and the outcomes with TRK inhibitor therapy in a real-world population of patients in the Veterans Health Administration. METHODS Patients with NTRK fusions or rearrangements were identified from the Veterans Affairs (VA) National Precision Oncology Program (NPOP), and patients who were prescribed TRK inhibitors were identified from the Corporate Data Warehouse. Baseline data and clinical outcomes were obtained by retrospective review of medical records. RESULTS A total of 33 patients with NTRK fusions or rearrangements were identified, including 25 patients comprising 0.12% of all patients with solid tumors sequenced through VA NPOP. Twelve patients with NTRK fusions or rearrangements were treated with TRK inhibitors, none of whom had objective responses. Eight patients experienced toxicities leading to drug interruption, dose reduction, or discontinuation. CONCLUSION In this retrospective study of VA patients, NTRK fusions and rearrangements were less common than in previous studies, and objective responses to TRK inhibitors were not observed. Real-world experience with TRK inhibitors differs markedly from clinical trial findings, possibly due to differences in patient demographics, tumor types, and sequencing methods. Our findings highlight the need to study TRK inhibitors in the real-world setting and in populations underrepresented in clinical trials.

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Recurrent SPECC1L–NTRK fusions in pediatric sarcoma and brain tumors

Cited by 4 publications

References 48 publications

Advances in sarcoma molecular diagnostics

Advances in sarcoma molecular diagnostics

The oncogenic fusion landscape in pediatric CNS neoplasms

Real-world Experience With Neurotrophic Tyrosine Receptor Kinase Fusion–positive Tumors and Tropomyosin Receptor Kinase Inhibitors in Veterans

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