<p>Gliomas with mutant isocitrate dehydrogenase (IDH) are malignant brain tumours that typically arise in early to mid-adulthood and nearly always recur following treatment<sup><CitationRef CitationID="CR1">1</CitationRef>,<CitationRef CitationID="CR2">2</CitationRef></sup>. However, the genetic and cellular-state changes that drive IDH-mutant glioma progression under treatment remain incompletely understood. Here we integrated single-nucleus transcriptomic profiles, chromatin accessibility profiles and bulk DNA and RNA sequencing from 75 temporally separated gliomas across 35 patients comprising both the oligodendroglioma and astrocytoma IDH-mutant glioma tumour types. We show that malignant cell states transcriptionally resemble stages of normal glial–neuronal lineage development or a reactive mesenchymal-like state, mirroring states previously described in IDH wild-type glioblastoma<sup><CitationRef CitationID="CR3">3</CitationRef>,<CitationRef CitationID="CR4">4</CitationRef></sup>. Malignant cell states displayed distinct chromatin accessibility profiles that were comparable between both IDH-mutant glioma types. The abundance of less differentiated malignant cells increased with grade and with genetic alterations such as <i>PDGFRA</i> amplification. Longitudinal analysis highlighted two major malignant cell-state transition patterns. First, reduced lineage differentiation and increased proliferative malignant cells at recurrence were enriched in gliomas that acquired recurrence-associated genetic events. These included treatment-associated hypermutation, increased copy number changes and cell cycle alterations. Second, increased mesenchymal-like-state abundance occurred independently of acquired genetic alterations and instead coincided with elevated macrophage expression. Overall, our findings provide an integrative model that traces the cell intrinsic and extrinsic factors that shape cellular states during IDH-mutant glioma disease progression.</p>

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Acquired genetic and cell-state changes in IDH-mutant glioma progression

  • Kevin C. Johnson,
  • Avishay Spitzer,
  • Frederick S. Varn,
  • Masashi Nomura,
  • Luciano Garofano,
  • Tamrin Chowdhury,
  • Anuja Lipsa,
  • Linbin Zhang,
  • Ester Calvo Fernández,
  • Tanyeri Barak,
  • A. Gulhan Ercan-Sencicek,
  • Ayse Buket Peksen,
  • Kevin J. Anderson,
  • C. Mircea S. Tesileanu,
  • Samirkumar B. Amin,
  • Emre Kocakavuk,
  • Dacheng Zhao,
  • Fulvio D’Angelo,
  • Simona Migliozzi,
  • Lillian Bussema,
  • Simon Gritsch,
  • Hyo-Eun Moon,
  • Sun Ha Paek,
  • Franck Bielle,
  • Alice Laurenge,
  • Anna Luisa Di Stefano,
  • Bertrand Mathon,
  • Alberto Picca,
  • Marc Sanson,
  • Ann-Christin Hau,
  • Frank Hertel,
  • Kamil Grzyb,
  • Zheng Zhao,
  • Qianghu Wang,
  • Tao Jiang,
  • Julie J. Miller,
  • Hiroaki Wakimoto,
  • Daniel P. Cahill,
  • Jennifer Moliterno,
  • Murat Günel,
  • Beth Hermes,
  • Nader Sanai,
  • Anna Golebiewska,
  • Simone P. Niclou,
  • Jason Huse,
  • W. K. Alfred Yung,
  • Anna Lasorella,
  • Mario L. Suvà,
  • Antonio Iavarone,
  • Itay Tirosh,
  • Roel G. W. Verhaak

摘要

Gliomas with mutant isocitrate dehydrogenase (IDH) are malignant brain tumours that typically arise in early to mid-adulthood and nearly always recur following treatment1,2. However, the genetic and cellular-state changes that drive IDH-mutant glioma progression under treatment remain incompletely understood. Here we integrated single-nucleus transcriptomic profiles, chromatin accessibility profiles and bulk DNA and RNA sequencing from 75 temporally separated gliomas across 35 patients comprising both the oligodendroglioma and astrocytoma IDH-mutant glioma tumour types. We show that malignant cell states transcriptionally resemble stages of normal glial–neuronal lineage development or a reactive mesenchymal-like state, mirroring states previously described in IDH wild-type glioblastoma3,4. Malignant cell states displayed distinct chromatin accessibility profiles that were comparable between both IDH-mutant glioma types. The abundance of less differentiated malignant cells increased with grade and with genetic alterations such as PDGFRA amplification. Longitudinal analysis highlighted two major malignant cell-state transition patterns. First, reduced lineage differentiation and increased proliferative malignant cells at recurrence were enriched in gliomas that acquired recurrence-associated genetic events. These included treatment-associated hypermutation, increased copy number changes and cell cycle alterations. Second, increased mesenchymal-like-state abundance occurred independently of acquired genetic alterations and instead coincided with elevated macrophage expression. Overall, our findings provide an integrative model that traces the cell intrinsic and extrinsic factors that shape cellular states during IDH-mutant glioma disease progression.