Transient mRNA CAR T cells targeting GD2 provide dose-adjusted efficacy against diffuse midline glioma and high grade glioma models
Menée à l'aide de lignées cellulaires, d'organoïdes et de modèles murins de gliome de haut grade ou de gliome diffus de la ligne médiane, cette étude met en évidence l'intérêt thérapeutique d'une administration intratumorale de lymphocytes CAR-T à ARN messager transitoire codant pour un récepteur ciblant les gangliosides GD2 des cellules tumorales
Background : Diffuse midline glioma (DMG) and high grade glioma are devastating pediatric central nervous system tumors that remain incurable. Recent chimeric antigen receptor (CAR) T cell studies have shown proof of concept and early signs of efficacy against DMG targeting GD2. Prior work and ongoing clinical trials have focused on using viral vectors to create permanent CAR T cells. However, virally transduced GD2-directed CAR T cells have shown significant neurotoxicity in both pre-clinical models and human trials.
Methods : We evaluated transient CAR T cells targeting GD2 created with mRNA, assessing for efficacy and safety in cell line, organoid, and in vivo xenograft models with repetitive intratumoral dosing.
Results : We show that mRNA GD2-directed CAR T cells are active against both cell lines and organoid models of DMG and high grade glioma in vitro. Cytotoxicity consistently abates over 9 days, highlighting the potential to avoid toxicity from persistent T cell activity. In both pontine and thalamic DMG xenograft models, repeated doses of mRNA GD2-directed CAR T cells were titrated down to maintain therapeutic effect without causing neurologic toxicity.
Conclusions : Our results demonstrate the utility of transient mRNA CAR T cells delivered intratumorally to provide effective tumor killing with a defined half-life, allowing for modulation of the dose and potential side effects. We anticipate this study will expand the use of CAR T cell therapy for DMG and other central nervous system tumors and non-malignant disorders, where concern for toxicity from permanently expressing CAR T cells may hinder development.
Neuro-Oncology , article en libre accès, 2025