Tropism Profiling of Lentiviral Vector Pseudotypes in Diverse Brain Tumor Models
Johannes K. Andersen, Lars A. R. Ystaas, Rolf Bjerkvig, Hrvoje Miletic, Jubayer A. Hossain

TL;DR
This study compares different lentiviral vector types for brain tumor gene therapy, finding that specific envelope proteins work best for different tumor types.
Contribution
The study provides new insights into how lentiviral vector pseudotypes interact with diverse brain tumor models, enabling tailored gene therapy approaches.
Findings
VSV-GP and FuG-B2 pseudotypes outperformed LCMV-GP in most brain tumor cell lines.
Medulloblastoma cells were best transduced by VSV-GP, while melanoma metastases preferred FuG-B2 and lung metastases preferred VSV-GP.
The results suggest that envelope protein selection should be tailored to specific tumor types for optimal gene therapy outcomes.
Abstract
Background: Lentiviral vectors (LVs) show promise as gene therapy tools for brain tumors, but optimal envelope protein choices for different tumor types have not been determined. Methodology: This study evaluated three pseudotyped LV variants—VSV-GP, FuG-B2, and LCMV-GP—across diverse brain tumor cell lines including glioblastoma (GBM), diffuse intrinsic pontine glioma (DIPG), medulloblastoma, and metastatic brain cancers. Results: VSV-GP and FuG-B2 pseudotypes significantly outperformed LCMV-GP across most tumor types. Both VSV-GP and FuG-B2 demonstrated high transduction efficiency in GBM and DIPG cells, though some cell lines displayed selective preferences for one pseudotype over the other. Medulloblastoma cells were challenging to transduce, with only VSV-GP achieving substantial efficacy. Metastatic brain cancers showed distinct tropism patterns: melanoma metastases were…
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Taxonomy
TopicsVirus-based gene therapy research · Cancer Research and Treatments · Glioma Diagnosis and Treatment
