Glioblastoma-instructed microglia transition to heterogeneous phenotypic states with phagocytic and dendritic cell-like features in patient tumors and patient-derived orthotopic xenografts

Yabo, Yahaya A.; Moreno-Sanchez, Pilar M.; Pires-Afonso, Yolanda; Kaoma, Tony; Nosirov, Bakhtiyor; Scafidi, Andrea; Ermini, Luca; Lipsa, Anuja; Oudin, Anaïs; Kyriakis, Dimitrios; Grzyb, Kamil; Poovathingal, Suresh K.; Poli, Aurélie; Muller, Arnaud; Toth, Reka; Klink, Barbara; Berchem, Guy; Berthold, Christophe; Hertel, Frank; Mittelbronn, Michel; Heiland, Dieter H.; Skupin, Alexander; Nazarov, Petr V.; Niclou, Simone P.; Michelucci, Alessandro; Golebiewska, Anna

doi:10.1186/s13073-024-01321-8

Cited by 8 publications

(1 citation statement)

References 88 publications

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“…Single-cell profiling of patient-derived orthotopic xenograft models revealed that these models recapitulate the physiologically relevant glioblastoma ecosystem, with an intact blood–brain barrier and varying tumor niches within the TME [ 52 , 53 ]. However, these models are immunodeficient, missing the T cell component of the TME.…”

Section: Understanding Cns Tumors At a Single-cell Levelmentioning

confidence: 99%

Understanding glioblastoma at the single-cell level: Recent advances and future challenges

Yabo,

Heiland

2024

PLoS Biol

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Glioblastoma, the most aggressive and prevalent form of primary brain tumor, is characterized by rapid growth, diffuse infiltration, and resistance to therapies. Intrinsic heterogeneity and cellular plasticity contribute to its rapid progression under therapy; therefore, there is a need to fully understand these tumors at a single-cell level. Over the past decade, single-cell transcriptomics has enabled the molecular characterization of individual cells within glioblastomas, providing previously unattainable insights into the genetic and molecular features that drive tumorigenesis, disease progression, and therapy resistance. However, despite advances in single-cell technologies, challenges such as high costs, complex data analysis and interpretation, and difficulties in translating findings into clinical practice persist. As single-cell technologies are developed further, more insights into the cellular and molecular heterogeneity of glioblastomas are expected, which will help guide the development of personalized and effective therapies, thereby improving prognosis and quality of life for patients.

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Section: Understanding Cns Tumors At a Single-cell Levelmentioning

confidence: 99%