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VALERIA CANCILA

Spatial transcriptome of a germinal center plasmablastic burst hints at MYD88/CD79B mutants-enriched diffuse large B-cell lymphomas

  • Autori: L'Imperio, Vincenzo; Morello, Gaia; Vegliante, Maria Carmela; Cancila, Valeria; Bertolazzi, Giorgio; Mazzara, Saveria; Belmonte, Beatrice; Mangogna, Alessandro; Balzarini, Piera; Corral, Lilia; Lopez, Gianluca; Di Napoli, Arianna; Facchetti, Fabio; Pagni, Fabio; Tripodo, Claudio
  • Anno di pubblicazione: 2022
  • Tipologia: Articolo in rivista
  • Parole Chiave: Diffuse large B-cell lymphoma â‹… Digital spatial profiling â‹… Germinal center â‹… Plasmablast
  • OA Link: http://hdl.handle.net/10447/565849

Abstract

The GC reaction results in the selection of B cells acquiring effector Ig secreting ability by progressing toward plasmablastic differentiation. This transition is associated with exclusion from the GC microenvironment. The aberrant expansion of plasmablastic elements within the GC fringes configures an atypical condition, the biological characteristics of which have not been defined yet. We investigated the in situ immunophenotypical and transcriptional characteristics of a nonclonal germinotropic expansion of plasmablastic elements (GEx) occurring in the tonsil of a young patient. Compared to neighboring GC and perifollicular regions, the GEx showed a distinctive signature featuring key regulators of plasmacytic differentiation, cytokine signaling, and cell metabolism. The GEx signature was tested in the setting of diffuse large B-cell lymphoma (DLBCL) as a prototypical model of lymphomagenesis encompassing transformation at different stages of GC and post-GC functional differentiation. The signature outlined DLBCL clusters with different immune microenvironment composition and enrichment in genetic subtypes. This report represents the first insight into the transcriptional features of a germinotropic plasmablastic burst, shedding light into the molecular hallmarks of B cells undergoing plasmablastic differentiation and aberrant expansion within the noncanonical setting of the GC microenvironment.