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  • Lentiviral Vector Induced Modeling of High-Grade Spinal Cord Glioma in Minipigs.

Lentiviral Vector Induced Modeling of High-Grade Spinal Cord Glioma in Minipigs.

Scientific reports (2020-03-27)
Muhibullah S Tora, Pavlos Texakalidis, Stewart Neill, Jeremy Wetzel, Rima S Rindler, Nathan Hardcastle, Purva P Nagarajan, Andrey Krasnopeyev, Cristin Roach, Raphael James, Jeffrey N Bruce, Peter Canoll, Thais Federici, John N Oshinski, Nicholas M Boulis
ABSTRACT

Prior studies have applied driver mutations targeting the RTK/RAS/PI3K and p53 pathways to induce the formation of high-grade gliomas in rodent models. In the present study, we report the production of a high-grade spinal cord glioma model in pigs using lentiviral gene transfer. Six Gottingen Minipigs received thoracolumbar (T14-L1) lateral white matter injections of a combination of lentiviral vectors, expressing platelet-derived growth factor beta (PDGF-B), constitutive HRAS, and shRNA-p53 respectively. All animals received injection of control vectors into the contralateral cord. Animals underwent baseline and endpoint magnetic resonance imaging (MRI) and were evaluated daily for clinical deficits. Hematoxylin and eosin (H&E) and immunohistochemical analysis was conducted. Data are presented using descriptive statistics including relative frequencies, mean, standard deviation, and range. 100% of animals (n = 6/6) developed clinical motor deficits ipsilateral to the oncogenic lentiviral injections by a three-week endpoint. MRI scans at endpoint demonstrated contrast enhancing mass lesions at the site of oncogenic lentiviral injection and not at the site of control injections. Immunohistochemistry demonstrated positive staining for GFAP, Olig2, and a high Ki-67 proliferative index. Histopathologic features demonstrate consistent and reproducible growth of a high-grade glioma in all animals. Lentiviral gene transfer represents a feasible pathway to glioma modeling in higher order species. The present model is the first lentiviral vector induced pig model of high-grade spinal cord glioma and may potentially be used in preclinical therapeutic development programs.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Hematoxylin Solution, Gill No. 3
Sigma-Aldrich
Eosin Y Solution, Alcoholic