Molecular and clinical diversity in primary central nervous system lymphoma

authors

  • Hernández-Verdin I.
  • Kirasic E.
  • Wienand K.
  • Mokhtari K.
  • Eimer S.
  • Loiseau H.
  • Rousseau A.
  • Paillassa J.
  • Ahle G.
  • Lerintiu F.
  • Uro-Coste E.
  • Oberic L.
  • Figarella-Branger D.
  • Chinot O.
  • Gauchotte G.
  • Taillandier L.
  • Marolleau J.-P.
  • Polivka M.
  • Adam C.
  • Ursu R.
  • Schmitt A.
  • Barillot N.
  • Nichelli L.
  • Lozano-Sánchez F.
  • Ibañez-Juliá M.-J.
  • Peyre M.
  • Mathon B.
  • Abada Y.
  • Charlotte F.
  • Davi F.
  • Stewart C.
  • de Reyniès A.
  • Choquet S.
  • Soussain C.
  • Houillier C.
  • Chapuy B.
  • Hoang-Xuan K.
  • Alentorn A.

keywords

  • PCNSL
  • Microenvironment
  • Multi-omics
  • Tumor heterogeneity

document type

ART

abstract

Background: Primary central nervous system lymphoma (PCNSL) is a rare and distinct entity within diffuse large B cell lymphoma presenting with variable response rates probably to underlying molecular heterogeneity. Patients and methods: To identify and characterize PCNSL heterogeneity and facilitate clinical translation, we performed a comprehensive multi-omic analysis (whole-exome sequencing, RNA-seq, methyl-seq, and clinical features) in a discovery cohort of 147 fresh-frozen immunocompetent PCNSLs and a validation cohort of formalin-fixed, paraffin-embedded (FFPE) 93 PCNSLs with RNA-seq and clinico-radiological data. Results: Consensus clustering of multi-omics data uncovered concordant classification of four robust, non-overlapping, prognostically significant clusters (CS). The CS1 and CS2 groups presented an immune-cold hypermethylated profile but distinct clinical behavior. The "immune-hot" CS4 group, enriched with mutations increasing the JAK-STAT and NF-κB activity, had the most favorable clinical outcome while the heterogeneous-immune CS3 group had the worse prognosis probably due to its association with meningeal infiltration and enriched HIST1H1E mutations. The CS1 was characterized by high Polycomb repressive complex 2 activity and CDKN2A/B loss leading to higher proliferation activity. Integrated analysis on proposed targets suggests potential use of immune checkpoint inhibitors/JAK1 inhibitors for CS4, cyclin D-Cdk4,6 plus PI3K inhibitors for CS1, lenalidomide/demethylating drugs for CS2, and EZH2 inhibitors for CS3. We developed an algorithm to identify the PCNSL subtypes using RNA-seq data from either FFPE or FF tissue. Conclusions: The integration of genome-wide data from multi-omics data revealed four molecular patterns in PCNSL with a distinctive prognostic impact that provides a basis for future clinical stratification and subtype-based targeted interventions.

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