Genome editing of Nf1, Pten, and Trp53 in          neonatal mice induces glioblastomas positive for oligodendrocyte lineage transcription          factor 2

Hiromi Yamamoto; Keisuke Yamamura; Haruka Nagasaki; Takamasa Suzuki; Fumiko Ninomiya; Kenji Matsubara; Naomoto Harada; Shuichi Ohkubo

doi:10.1293/tox.2021-0029

Short Communication

Genome editing of Nf1, Pten, and Trp53 in neonatal mice induces glioblastomas positive for oligodendrocyte lineage transcription factor 2

Hiromi Yamamoto, Keisuke Yamamura, Haruka Nagasaki, Takamasa Suzuki, Fumiko Ninomiya, Kenji Matsubara, Naomoto Harada, Shuichi Ohkubo

Author information

Hiromi Yamamoto
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Keisuke Yamamura
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Haruka Nagasaki
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Takamasa Suzuki
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Fumiko Ninomiya
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Kenji Matsubara
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Naomoto Harada
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan
Shuichi Ohkubo
¹Discovery and Preclinical Research Division, Taiho Pharmaceutical Co., Ltd., 3 Okubo, Tsukuba, Ibaraki 300-2611, Japan

Keywords: glioblastoma, animal model, genome editing, in vivo electroporation, mouse, oligodendrocyte lineage transcription factor 2

JOURNAL OPEN ACCESS

2021 Volume 34 Issue 4 Pages 359-365

DOI https://doi.org/10.1293/tox.2021-0029

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Abstract

To generate a mouse glioblastoma model by genome editing, we introduced Cas9 protein and guide RNAs specific for Nf1, Pten, and Trp53 into the neonatal mouse forebrain by electroporation. We found a high incidence (approximately 90%) of glial tumor development, including glioblastomas, 15 weeks later. The histological features of the tumors were similar to those of diffuse gliomas and, in some cases, similar to human glioblastomas, with microvascular proliferation (glomeruloid structure). In addition, unlike glial fibrillary acidic protein (GFAP)-positive glioblastomas generated using a similar method in a previous model, the majority of tumor cells were positive for oligodendrocyte lineage transcription factor 2, but negative for GFAP and neurofilaments. One base pair insertions identical to those seen in a previous model were found around the target sequences in Nf1, Pten, and Trp53, and additional deletions were found only in Pten. Considering that the histological characteristics were different from those seen in the previous model, our new model provides an additional research tool to investigate the early stages of glioblastoma development.

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