Supplementary Figure 4 from Targeting GPC2 on Intraocular and CNS Metastatic Retinoblastomas with Local and Systemic Delivery of CAR T Cells

Pascual-Pasto, Guillem; McIntyre, Brendan; Giudice, Anna M.; Alikarami, Fatemeh; Morrissey, Amanda; Matlaga, Stephanie; Hofmann, Ted J.; Burgueño, Victor; Harvey, Kyra; Martinez, Daniel; Shah, Amish C.; Foster, Jessica B.; Pogoriler, Jennifer; Eagle, Ralph C.; Carcaboso, Angel M.; Shields, Carol L.; Leahey, Ann-Marie; Bosse, Kristopher R.

doi:10.1158/1078-0432.26711014.v1

Supplementary Figure 4 from Targeting GPC2 on Intraocular and CNS Metastatic Retinoblastomas with Local and Systemic Delivery of CAR T Cells

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posted on 2024-08-15, 07:29 authored by Guillem Pascual-Pasto, Brendan McIntyre, Anna M. Giudice, Fatemeh Alikarami, Amanda Morrissey, Stephanie Matlaga, Ted J. Hofmann, Victor Burgueño, Kyra Harvey, Daniel Martinez, Amish C. Shah, Jessica B. Foster, Jennifer Pogoriler, Ralph C. Eagle, Angel M. Carcaboso, Carol L. Shields, Ann-Marie Leahey, Kristopher R. Bosse

Supplementary Figure 4. Mouse body weights and GPC2 expression in the brains of study endpoint mice included in the CNS efficacy study (see related main Fig. 5).

Funding

Alex’s Lemonade Stand Foundation for Childhood Cancer (ALSF)

National Cancer Institute (NCI)

United States Department of Health and Human Services

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The Max Gottstein Retinoblastoma Research Fund

The Children’s Hospital of Philadelphia

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ARTICLE ABSTRACT

Retinoblastoma is the most common intraocular malignancy in children. Although new chemotherapeutic approaches have improved ocular salvage rates, novel therapies are required for patients with refractory intraocular and metastatic disease. Chimeric antigen receptor (CAR) T cells targeting glypican-2 (GPC2) are a potential new therapeutic strategy. GPC2 expression and its regulation by the E2F1 transcription factor were studied in retinoblastoma patient samples and cellular models. In vitro, we performed functional studies comparing GPC2 CAR T cells with different costimulatory domains (4-1BB and CD28). In vivo, the efficacy of local and systemic administration of GPC2 CAR T cells was evaluated in intraocular and leptomeningeal human retinoblastoma xenograft models. Retinoblastoma tumors, but not healthy retinal tissues, expressed cell surface GPC2, and this tumor-specific expression was driven by E2F1. GPC2-directed CARs with 4-1BB costimulation (GPC2.BBz) were superior to CARs with CD28 stimulatory domains (GPC2.28z), efficiently inducing retinoblastoma cell cytotoxicity and enhancing T-cell proliferation and polyfunctionality. In vivo, GPC2.BBz CARs had enhanced persistence, which led to significant tumor regression compared with either control CD19 or GPC2.28z CARs. In intraocular models, GPC2.BBz CAR T cells efficiently trafficked to tumor-bearing eyes after intravitreal or systemic infusions, significantly prolonging ocular survival. In central nervous system (CNS) retinoblastoma models, intraventricular or systemically administered GPC2.BBz CAR T cells were activated in retinoblastoma-involved CNS tissues, resulting in robust tumor regression with substantially extended overall mouse survival. GPC2-directed CAR T cells are effective against intraocular and CNS metastatic retinoblastomas.

Supplementary Figure 4 from Targeting GPC2 on Intraocular and CNS Metastatic Retinoblastomas with Local and Systemic Delivery of CAR T Cells

Funding

Alex’s Lemonade Stand Foundation for Childhood Cancer (ALSF)

National Cancer Institute (NCI)

The Max Gottstein Retinoblastoma Research Fund

The Children’s Hospital of Philadelphia

History

ARTICLE ABSTRACT

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