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Title: Generation of diffuse intrinsic pontine glioma mouse models by brainstem-targeted in utero electroporation.

Authors: Patel, Smruti K; Hartley, Rachel M; Wei, Xin; Furnish, Robin; Escobar-Riquelme, Fernanda; Bear, Heather; Choi, Kwangmin; Fuller, Christine; Phoenix, Timothy N

Published In Neuro Oncol, (2020 03 05)

Abstract: Diffuse intrinsic pontine gliomas (DIPGs) are highly lethal childhood brain tumors. Their unique genetic makeup, pathological heterogeneity, and brainstem location all present challenges to treatment. Developing mouse models that accurately reflect each of these distinct features will be critical to advance our understanding of DIPG development, progression, and therapeutic resistance. The aims of this study were to generate new mouse models of DIPG and characterize the role of specific oncogenic combinations in DIPG pathogenesis.We used in utero electroporation (IUE) to transfect neural stem cells in the developing brainstem with PiggyBac DNA transposon plasmids. Combinations of platelet-derived growth factor B (PDGFB), PdgfraD842V, or PdgfraWT, combined with dominant negative Trp53 (DNp53) and H3.3K27M expression, induced fully penetrant brainstem gliomas.IUE enabled the targeted transfection of brainstem neural stem cells. PDGFB + DNp53 + H3.3K27M induced the rapid development of grade IV gliomas. PdgfraD842V + DNp53 + H3.3K27M produced slower forming grade III gliomas. PdgfraWT + DNp53 + H3.3K27M produced high- and low-grade gliomas with extended latencies. PDGFB, PdgfraD842V, and PdgfraWT DIPG models display unique histopathological and molecular features found in human DIPGs. H3.3K27M induced both overlapping and unique gene expression changes in PDGFB and PdgfraD842V tumors. Paracrine effects of PDGFB promote disruption of pericyte-endothelial interactions and angiogenesis in PDGFB DIPG mouse models.Brainstem-targeted IUE provides a rapid and flexible system to generate diverse DIPG mouse models. Using IUE to investigate mutation and pathohistological heterogeneity of DIPG will provide a valuable tool for future genetic and preclinical studies.

PubMed ID: 31638150 Exiting the NIEHS site

MeSH Terms: Animals; Brain Stem Neoplasms*/genetics; Brain Stem Neoplasms*/pathology; Diffuse Intrinsic Pontine Glioma*/genetics; Diffuse Intrinsic Pontine Glioma*/pathology; Disease Models, Animal*; Electroporation; Gene Expression; Mice, Inbred ICR; Neovascularization, Pathologic/physiopathology; Neural Stem Cells/physiology

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Last Reviewed: October 07, 2024