Spatial Dissection of Invasive Front from Tumor Mass Enables Discovery of Novel microRNA Drivers of Glioblastoma Invasion

Yulun Huang; Lin Qi; Mari Kogiso; Yuchen Du; Frank K. Braun; Huiyuan Zhang; L. Frank Huang; Sophie Xiao; Wan‐Yee Teo; Holly Lindsay; Sibo Zhao; Patricia Baxter; Jack M. F. Su; Adekunle Adesina; Jianhua Yang; Sebastian Brabetz; Marcel Kool; Stefan M. Pfister; Murali Chintagumpala; Laszlo Perlaky; Zhong Wang; Youxin Zhou; Tsz‐Kwong Man; Xiao‐Nan Li

doi:10.1002/advs.202101923

Advanced Science (Dec 2021)

Spatial Dissection of Invasive Front from Tumor Mass Enables Discovery of Novel microRNA Drivers of Glioblastoma Invasion

Yulun Huang,
Lin Qi,
Mari Kogiso,
Yuchen Du,
Frank K. Braun,
Huiyuan Zhang,
L. Frank Huang,
Sophie Xiao,
Wan‐Yee Teo,
Holly Lindsay,
Sibo Zhao,
Patricia Baxter,
Jack M. F. Su,
Adekunle Adesina,
Jianhua Yang,
Sebastian Brabetz,
Marcel Kool,
Stefan M. Pfister,
Murali Chintagumpala,
Laszlo Perlaky,
Zhong Wang,
Youxin Zhou,
Tsz‐Kwong Man,
Xiao‐Nan Li

Affiliations

Yulun Huang: Department of Neurosurgery Dushu Lake Hospital Soochow University Suzhou 205124 China
Lin Qi: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Mari Kogiso: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Yuchen Du: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Frank K. Braun: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Huiyuan Zhang: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
L. Frank Huang: Department of Systems Medicine and Bioegineering Houston Methodist Hospital Research Institute and Cancer Center Weill Cornell Medicine Houston TX 77030 USA
Sophie Xiao: Program of Precision Medicine PDOX Modeling of Pediatric Tumors Ann & Robert H. Lurie Children's Hospital of Chicago Department of Pediatrics Northwestern University Feinberg School of Medicine Chicago IL 60611 USA
Wan‐Yee Teo: Humphrey Oei Institute of Cancer Research National Cancer Center Singapore Singapore 169610 Singapore
Holly Lindsay: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Sibo Zhao: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Patricia Baxter: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Jack M. F. Su: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Adekunle Adesina: Department of Pathology Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Jianhua Yang: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Sebastian Brabetz: Hopp Children's Cancer Center (KiTZ) Heidelberg 69120 Germany
Marcel Kool: Hopp Children's Cancer Center (KiTZ) Heidelberg 69120 Germany
Stefan M. Pfister: Hopp Children's Cancer Center (KiTZ) Heidelberg 69120 Germany
Murali Chintagumpala: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Laszlo Perlaky: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Zhong Wang: Department of Neurosurgery and Brain and Nerve Research Laboratory the First Affiliated Hospital Soochow University Suzhou 215007 China
Youxin Zhou: Department of Neurosurgery and Brain and Nerve Research Laboratory the First Affiliated Hospital Soochow University Suzhou 215007 China
Tsz‐Kwong Man: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA
Xiao‐Nan Li: Texas Children's Cancer Center Texas Children's Hospital Baylor College of Medicine Houston TX 77030 USA

DOI: https://doi.org/10.1002/advs.202101923
Journal volume & issue: Vol. 8, no. 23
pp. n/a – n/a

Abstract

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Abstract Diffuse invasion is the primary cause of treatment failure of glioblastoma (GBM). Previous studies on GBM invasion have long been forced to use the resected tumor mass cells. Here, a strategy to reliably isolate matching pairs of invasive (GBMINV) and tumor core (GBMTC) cells from the brains of 6 highly invasive patient‐derived orthotopic models is described. Direct comparison of these GBMINV and GBMTC cells reveals a significantly elevated invasion capacity in GBMINV cells, detects 23/768 miRNAs over‐expressed in the GBMINV cells (miRNAINV) and 22/768 in the GBMTC cells (miRNATC), respectively. Silencing the top 3 miRNAsINV (miR‐126, miR‐369‐5p, miR‐487b) successfully blocks invasion of GBMINV cells in vitro and in mouse brains. Integrated analysis with mRNA expression identifies miRNAINV target genes and discovers KCNA1 as the sole common computational target gene of which 3 inhibitors significantly suppress invasion in vitro. Furthermore, in vivo treatment with 4‐aminopyridine (4‐AP) effectively eliminates GBM invasion and significantly prolongs animal survival times (P = 0.035). The results highlight the power of spatial dissection of functionally accurate GBMINV and GBMTC cells in identifying novel drivers of GBM invasion and provide strong rationale to support the use of biologically accurate starting materials in understanding cancer invasion and metastasis.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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