Targetable gene fusions associate with the IDH wild-type astrocytic lineage in adult gliomas

Sherise D. Ferguson; Shouhao Zhou; Jason T. Huse; John F. de Groot; Joanne Xiu; Deepa S. Subramaniam; Shwetal Mehta; Zoran Gatalica; Jeffrey Swensen; Nader Sanai; David Spetzler; Amy B. Heimberger

doi:10.1093/jnen/nly022

Targetable gene fusions associate with the IDH wild-type astrocytic lineage in adult gliomas

Sherise D. Ferguson, Shouhao Zhou, Jason T. Huse, John F. de Groot, Joanne Xiu, Deepa S. Subramaniam, Shwetal Mehta, Zoran Gatalica, Jeffrey Swensen, Nader Sanai, David Spetzler, Amy B. Heimberger

Research output: Contribution to journal › Article › peer-review

69 Scopus citations

Abstract

Gene fusions involving oncogenes have been reported in gliomas and may serve as novel therapeutic targets. Using RNA-sequencing, we interrogated a large cohort of gliomas to assess for the incidence of targetable genetic fusions. Gliomas (n=390) were profiled using the ArcherDx FusionPlex Assay. Fifty-two gene targets were analyzed and fusions with preserved kinase domains were investigated. Overall, 36 gliomas (9%) harbored a total of 37 potentially targetable fusions, the majority of which were found in astrocytomas (n=34). Within this lineage 11% (25/235) of glioblastomas, 12% (5/42) of anaplastic astrocytomas, 8% (2/25) of grade II astrocytomas, and 33% (2/6) of pilocytic astrocytoma harbored targetable fusions. Fusions were significantly more frequent in IDH wild-type tumors (12%, n=31/261) relative to IDH mutants (4%; n=4/109) (p=0.011). No fusions were seen in oligodendrogliomas. The most frequently observed therapeutically targetable fusions were in FGFR (n=12), MET (n=11), and NTRK (n=8). Several additional novel fusions that have not been previously described in gliomas were identified including EGFR:VWC2 and FGFR3:NBR1. In summary, targetable gene fusions are enriched in IDH wild-type high-grade astrocytic tumors, which will influence enrollment in and interpretation of clinical trials of glioma patients.

Original language	English (US)
Pages (from-to)	437-442
Number of pages	6
Journal	Journal of neuropathology and experimental neurology
Volume	77
Issue number	6
DOIs	https://doi.org/10.1093/jnen/nly022
State	Published - Jun 1 2018

Keywords

FGFR3
Fusion
Genomics
Glioblastoma (GBM)
Glioma

ASJC Scopus subject areas

Pathology and Forensic Medicine
Neurology
Clinical Neurology
Cellular and Molecular Neuroscience

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10.1093/jnen/nly022

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Ferguson, S. D., Zhou, S., Huse, J. T., de Groot, J. F., Xiu, J., Subramaniam, D. S., Mehta, S., Gatalica, Z., Swensen, J., Sanai, N., Spetzler, D., & Heimberger, A. B. (2018). Targetable gene fusions associate with the IDH wild-type astrocytic lineage in adult gliomas. Journal of neuropathology and experimental neurology, 77(6), 437-442. https://doi.org/10.1093/jnen/nly022

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title = "Targetable gene fusions associate with the IDH wild-type astrocytic lineage in adult gliomas",

abstract = "Gene fusions involving oncogenes have been reported in gliomas and may serve as novel therapeutic targets. Using RNA-sequencing, we interrogated a large cohort of gliomas to assess for the incidence of targetable genetic fusions. Gliomas (n=390) were profiled using the ArcherDx FusionPlex Assay. Fifty-two gene targets were analyzed and fusions with preserved kinase domains were investigated. Overall, 36 gliomas (9%) harbored a total of 37 potentially targetable fusions, the majority of which were found in astrocytomas (n=34). Within this lineage 11% (25/235) of glioblastomas, 12% (5/42) of anaplastic astrocytomas, 8% (2/25) of grade II astrocytomas, and 33% (2/6) of pilocytic astrocytoma harbored targetable fusions. Fusions were significantly more frequent in IDH wild-type tumors (12%, n=31/261) relative to IDH mutants (4%; n=4/109) (p=0.011). No fusions were seen in oligodendrogliomas. The most frequently observed therapeutically targetable fusions were in FGFR (n=12), MET (n=11), and NTRK (n=8). Several additional novel fusions that have not been previously described in gliomas were identified including EGFR:VWC2 and FGFR3:NBR1. In summary, targetable gene fusions are enriched in IDH wild-type high-grade astrocytic tumors, which will influence enrollment in and interpretation of clinical trials of glioma patients.",

keywords = "FGFR3, Fusion, Genomics, Glioblastoma (GBM), Glioma",

author = "Ferguson, {Sherise D.} and Shouhao Zhou and Huse, {Jason T.} and {de Groot}, {John F.} and Joanne Xiu and Subramaniam, {Deepa S.} and Shwetal Mehta and Zoran Gatalica and Jeffrey Swensen and Nader Sanai and David Spetzler and Heimberger, {Amy B.}",

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doi = "10.1093/jnen/nly022",

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AU - Ferguson, Sherise D.

AU - Zhou, Shouhao

AU - Huse, Jason T.

AU - de Groot, John F.

AU - Xiu, Joanne

AU - Subramaniam, Deepa S.

AU - Mehta, Shwetal

AU - Gatalica, Zoran

AU - Swensen, Jeffrey

AU - Sanai, Nader

AU - Spetzler, David

AU - Heimberger, Amy B.

PY - 2018/6/1

Y1 - 2018/6/1

N2 - Gene fusions involving oncogenes have been reported in gliomas and may serve as novel therapeutic targets. Using RNA-sequencing, we interrogated a large cohort of gliomas to assess for the incidence of targetable genetic fusions. Gliomas (n=390) were profiled using the ArcherDx FusionPlex Assay. Fifty-two gene targets were analyzed and fusions with preserved kinase domains were investigated. Overall, 36 gliomas (9%) harbored a total of 37 potentially targetable fusions, the majority of which were found in astrocytomas (n=34). Within this lineage 11% (25/235) of glioblastomas, 12% (5/42) of anaplastic astrocytomas, 8% (2/25) of grade II astrocytomas, and 33% (2/6) of pilocytic astrocytoma harbored targetable fusions. Fusions were significantly more frequent in IDH wild-type tumors (12%, n=31/261) relative to IDH mutants (4%; n=4/109) (p=0.011). No fusions were seen in oligodendrogliomas. The most frequently observed therapeutically targetable fusions were in FGFR (n=12), MET (n=11), and NTRK (n=8). Several additional novel fusions that have not been previously described in gliomas were identified including EGFR:VWC2 and FGFR3:NBR1. In summary, targetable gene fusions are enriched in IDH wild-type high-grade astrocytic tumors, which will influence enrollment in and interpretation of clinical trials of glioma patients.

AB - Gene fusions involving oncogenes have been reported in gliomas and may serve as novel therapeutic targets. Using RNA-sequencing, we interrogated a large cohort of gliomas to assess for the incidence of targetable genetic fusions. Gliomas (n=390) were profiled using the ArcherDx FusionPlex Assay. Fifty-two gene targets were analyzed and fusions with preserved kinase domains were investigated. Overall, 36 gliomas (9%) harbored a total of 37 potentially targetable fusions, the majority of which were found in astrocytomas (n=34). Within this lineage 11% (25/235) of glioblastomas, 12% (5/42) of anaplastic astrocytomas, 8% (2/25) of grade II astrocytomas, and 33% (2/6) of pilocytic astrocytoma harbored targetable fusions. Fusions were significantly more frequent in IDH wild-type tumors (12%, n=31/261) relative to IDH mutants (4%; n=4/109) (p=0.011). No fusions were seen in oligodendrogliomas. The most frequently observed therapeutically targetable fusions were in FGFR (n=12), MET (n=11), and NTRK (n=8). Several additional novel fusions that have not been previously described in gliomas were identified including EGFR:VWC2 and FGFR3:NBR1. In summary, targetable gene fusions are enriched in IDH wild-type high-grade astrocytic tumors, which will influence enrollment in and interpretation of clinical trials of glioma patients.

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KW - Genomics

KW - Glioblastoma (GBM)

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JF - Journal of neuropathology and experimental neurology

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Targetable gene fusions associate with the IDH wild-type astrocytic lineage in adult gliomas

Abstract

Keywords

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