Abstract
Rhabdomyosarcoma (RMS) is the most commonly occurring type of soft tissue tumor in children. However, it is rare in adults, and therefore, very little is known about the most appropriate treatment strategy for adult RMS patients. We performed genomic analysis of RMS cells derived from a 27-year-old male patient whose disease was refractory to treatment. A peritoneal seeding nodule from the primary tumor, pleural metastases, malignant pleural effusion, and ascites obtained during disease progression, were analyzed. Whole exome sequencing revealed 23 candidate variants, and 10 of 23 mutations were validated by Sanger sequencing. Three of 10 mutations were present in both primary and metastatic tumors, and 3 mutations were detected only in metastatic specimens. Comparative genomic hybridization array analysis revealed prominent amplification in the 12q13–14 region, and more specifically, the CDK4 proto-oncogene was highly amplified. ALK overexpression was observed at both protein and RNA levels. However, an ALK fusion assay using NanoString technology failed to show any ALK rearrangements. Little genetic heterogeneity was observed between primary and metastatic RMS cells. We propose that CDK4, located at 12q14, is a potential target for drug development for RMS treatment.
Highlights
Silvia Park1, Jeeyun Lee1, In-Gu Do2, Jiryeon Jang2, Kyoohyoung Rho3, Seonjoo Ahn3, Lira Maruja4, Sung Joo Kim5, Kyoung-Mee Kim2, Mao Mao4, Ensel Oh7, Yu Jin Kim7, Jhingook Kim6 & Yoon-La Choi2
alveolar RMS (ARMS) presents with distinctive chromosomal translocations that result in specific fusion gene products, the most prevalent of which are PAX3–FOXO1 (55%) and PAX7–FOXO1 (22%
We found that the majority of somatic mutations found during exome sequencing of primary tumor tissue were observed in metastatic tumor tissue and metastatic cells in ascites samples, Sanger sequencing revealed genetic alterations involving several genes, such as APBA2, ZNF1142, and RBFOX1, only in the metastatic samples
Summary
Rhabdomyosarcoma (RMS) is the most commonly occurring type of soft tissue tumor in children. It is rare in adults, and very little is known about the most appropriate treatment strategy for adult RMS patients. ARMS presents with distinctive chromosomal translocations that result in specific fusion gene products, the most prevalent of which are PAX3–FOXO1 (55%) and PAX7–FOXO1 (22%). Studies on the gene expression profile of RMS have proposed new molecular classifications and have revealed that a specific gene expression signature potentially determines tumor behavior as well as treatment outcome.
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