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Literature DB >> 30982771

Single-Cell Transcriptomics Uncovers Glial Progenitor Diversity and Cell Fate Determinants during Development and Gliomagenesis.

Qinjie Weng¹, Jincheng Wang¹, Jiajia Wang¹, Danyang He², Zuolin Cheng³, Feng Zhang⁴, Ravinder Verma², Lingli Xu⁴, Xinran Dong⁵, Yunfei Liao⁵, Xuelian He², Andrew Potter², Liguo Zhang², Chuntao Zhao², Mei Xin², Qian Zhou⁶, Bruce J Aronow⁷, Perry J Blackshear⁸, Jeremy N Rich⁹, Qiaojun He¹⁰, Wenhao Zhou⁵, Mario L Suvà¹¹, Ronald R Waclaw², S Steven Potter², Guoqiang Yu³, Q Richard Lu¹².

Abstract

The identity and degree of heterogeneity of glial progenitors and their contributions to brain tumor malignancy remain elusive. By applying lineage-targeted single-cell transcriptomics, we uncover an unanticipated diversity of glial progenitor pools with unique molecular identities in developing brain. Our analysis identifies distinct transitional intermediate states and their divergent developmental trajectories in astroglial and oligodendroglial lineages. Moreover, intersectional analysis uncovers analogous intermediate progenitors during brain tumorigenesis, wherein oligodendrocyte-progenitor intermediates are abundant, hyper-proliferative, and progressively reprogrammed toward a stem-like state susceptible to further malignant transformation. Similar actively cycling intermediate progenitors are prominent components in human gliomas with distinct driver mutations. We further unveil lineage-driving networks underlying glial fate specification and identify Zfp36l1 as necessary for oligodendrocyte-astrocyte lineage transition and glioma growth. Together, our results resolve the dynamic repertoire of common and divergent glial progenitors during development and tumorigenesis and highlight Zfp36l1 as a molecular nexus for balancing glial cell-fate decision and controlling gliomagenesis.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: brain tumorigenesis; cell-fate choice; glial progenitor heterogeneity; glioma; intermediate progenitors; lineage-driving networks; oligodendrocyte progenitor cells; pri-OPC; reprogramming; single-cell signatures

Year: 2019 PMID： 30982771 PMCID： PMC6669001 DOI： 10.1016/j.stem.2019.03.006

Source DB: PubMed Journal: Cell Stem Cell ISSN： 1875-9777 Impact factor: 24.633

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Cited

46 in total

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