Cell Reports (Aug 2023)

Polyclonal lymphoid expansion drives paraneoplastic autoimmunity in neuroblastoma

  • Miriam I. Rosenberg,
  • Erez Greenstein,
  • Martin Buchkovich,
  • Ayelet Peres,
  • Eric Santoni-Rugiu,
  • Lei Yang,
  • Martin Mikl,
  • Zalman Vaksman,
  • David L. Gibbs,
  • Dan Reshef,
  • Amy Salovin,
  • Meredith S. Irwin,
  • Arlene Naranjo,
  • Igor Ulitsky,
  • Pedro A. de Alarcon,
  • Katherine K. Matthay,
  • Victor Weigman,
  • Gur Yaari,
  • Jessica A. Panzer,
  • Nir Friedman,
  • John M. Maris

Journal volume & issue
Vol. 42, no. 8
p. 112879

Abstract

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Summary: Neuroblastoma is a lethal childhood solid tumor of developing peripheral nerves. Two percent of children with neuroblastoma develop opsoclonus myoclonus ataxia syndrome (OMAS), a paraneoplastic disease characterized by cerebellar and brainstem-directed autoimmunity but typically with outstanding cancer-related outcomes. We compared tumor transcriptomes and tumor-infiltrating T and B cell repertoires from 38 OMAS subjects with neuroblastoma to 26 non-OMAS-associated neuroblastomas. We found greater B and T cell infiltration in OMAS-associated tumors compared to controls and showed that both were polyclonal expansions. Tertiary lymphoid structures (TLSs) were enriched in OMAS-associated tumors. We identified significant enrichment of the major histocompatibility complex (MHC) class II allele HLA-DOB∗01:01 in OMAS patients. OMAS severity scores were associated with the expression of several candidate autoimmune genes. We propose a model in which polyclonal auto-reactive B lymphocytes act as antigen-presenting cells and drive TLS formation, thereby supporting both sustained polyclonal T cell-mediated anti-tumor immunity and paraneoplastic OMAS neuropathology.

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