Supplementary Figure S3 from Integrated Imaging Probe and Bispecific Antibody Development Enables In Vivo Targeting of Glypican-3–Expressing Hepatocellular Carcinoma
posted on 2024-12-03, 08:23authored byPeiman Habibollahi, Alexey Gurevich, James Z. Hui, Kelly Weinfurtner, George McClung, Justin Adler, Michael C. Soulen, David E. Kaplan, Gregory J. Nadolski, Stephen J. Hunt, Andrew Tsourkas, Terence P. Gade
Supplementary Figure S3: GPC3-specific targeting peptide has a similar binding pattern to HCC samples compared to immunostaining with GPC3 antibody. (A-D) Representative contiguous slides from HCC samples stained with GPC3 antibody (A, B) and GPC3-specific peptide (C, D) demonstrate similar staining patterns. HCC, hepatocellular carcinoma.
Funding
Radiological Society of North America (RSNA)
Society of Interventional Radiology (SIR)
Veterans Administration Research Foundation
History
ARTICLE ABSTRACT
Glypican-3 (GPC3) is a proteoglycan with high sensitivity and specificity for hepatocellular carcinoma (HCC). We describe the integrated development and validation of a GPC3-targeting optical imaging probe and T cell–redirecting antibody (TRAB) as a theranostic strategy for the detection and treatment of HCC. A novel TRAB targeting GPC3 on HCC tumor cells and the CD3 T-cell receptor as well as a distinct GPC3-specific optical imaging probe were developed from a short peptide. The efficacy of GPC3/CD3 TRAB was evaluated in vitro using IFNγ release and calcein-AM assays. Patient-derived xenografts were used to assess the in vivo efficacy of GPC3/CD3 TRAB and the GPC3 imaging probe for the detection of GPC3+ HCC. GPC3/CD3 TRAB caused a dose-dependent escalation in IFNγ release from inactive peripheral blood T cells (P = 0.001) and higher tumor-cell lysis (P = 0.01) compared with controls in vitro. Intratumorally injected GPC3/CD3 TRAB resulted in significant prolongation of tumor doubling time in the GPC3+ tumors, with an associated reduction of tumor fluorescent signal from the HiLyte 488–conjugated GPC3-specific peptide on optical imaging. These data demonstrate that HCC cell targeting using a GPC3/CD3 TRAB derived from a small peptide enabled effective T-cell activation and induction of a cytotoxic response toward GPC3+ HCC tumor cells both in vitro and in vivo. GPC3-specific optical imaging enabled the detection of the GPC3+ HCC cells and noninvasive monitoring of tumor response to adoptive immunotherapy. The integrated development of a targeted therapeutic and molecular imaging probe provides a promising paradigm for the development of cancer theranostics.