Advanced Science (Nov 2024)

Molecular Profiling Defines Three Subtypes of Synovial Sarcoma

  • Yi Chen,
  • Yanhong Su,
  • Xiaofang Cao,
  • Ioannis Siavelis,
  • Isabelle Rose Leo,
  • Jianming Zeng,
  • Panagiotis Tsagkozis,
  • Asle C. Hesla,
  • Andri Papakonstantinou,
  • Xiao Liu,
  • Wen‐Kuan Huang,
  • Binbin Zhao,
  • Cecilia Haglund,
  • Monika Ehnman,
  • Henrik Johansson,
  • Yingbo Lin,
  • Janne Lehtiö,
  • Yifan Zhang,
  • Olle Larsson,
  • Xuexin Li,
  • Felix Haglund de Flon

DOI
https://doi.org/10.1002/advs.202404510
Journal volume & issue
Vol. 11, no. 41
pp. n/a – n/a

Abstract

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Abstract Synovial Sarcomas (SS) are characterized by the presence of the SS18::SSX fusion gene, which protein product induce chromatin changes through remodeling of the BAF complex. To elucidate the genomic events that drive phenotypic diversity in SS, we performed RNA and targeted DNA sequencing on 91 tumors from 55 patients. Our results were verified by proteomic analysis, public gene expression cohorts and single‐cell RNA sequencing. Transcriptome profiling identified three distinct SS subtypes resembling the known histological subtypes: SS subtype I and was characterized by hyperproliferation, evasion of immune detection and a poor prognosis. SS subtype II and was dominated by a vascular‐stromal component and had a significantly better outcome. SS Subtype III was characterized by biphasic differentiation, increased genomic complexity and immune suppression mediated by checkpoint inhibition, and poor prognosis despite good responses to neoadjuvant therapy. Chromosomal abnormalities were an independent significant risk factor for metastasis. KRT8 was identified as a key component for epithelial differentiation in biphasic tumors, potentially controlled by OVOL1 regulation. Our findings explain the histological grounds for SS classification and indicate that a significantly larger proportion of patients have high risk tumors (corresponding to SS subtype I) than previously believed.

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