1. Academic Validation
  2. GD2-Targeted Minibody-Drug Conjugates Match the Potency of IgG-Based ADCs in a Mouse Cancer Model

GD2-Targeted Minibody-Drug Conjugates Match the Potency of IgG-Based ADCs in a Mouse Cancer Model

  • Int J Mol Sci. 2026 Feb 19;27(4):1974. doi: 10.3390/ijms27041974.
Daniel V Kalinovsky 1 Matvey M Titov 1 Irina V Kholodenko 2 Alexey V Kibardin 3 Elena V Svirshchevskaya 1 Sergey M Deyev 1 4 5 Roman V Kholodenko 1 4
Affiliations

Affiliations

  • 1 Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, Moscow 117997, Russia.
  • 2 Orekhovich Institute of Biomedical Chemistry, Moscow 119121, Russia.
  • 3 D. Rogachev Federal Research Center of Pediatric Hematology, Oncology and Immunology, Moscow 117997, Russia.
  • 4 Institute of Fundamental Medicine and Biology, Kazan Federal University, Kazan 420008, Russia.
  • 5 Federal Center for Biotechnology and Medicine Advancement, National Research Ogarev Mordovia State University, Saransk 430005, Russia.
Abstract

Despite the clinical success of antibody-drug conjugates (ADCs), their efficacy in solid tumors remains constrained by limited tumor penetration of the IgG format. Smaller antibody fragment-drug conjugates (FDCs) present a compelling alternative, potentially offering superior intratumoral distribution and a wider therapeutic window driven by rapid systemic clearance. This study compares therapeutic activity of ganglioside GD2-specific minibody-drug conjugates against full-length ch14.18 antibody-drug conjugates, and biodistribution of the respective minibody (scFv-CH3 homodimer) and IgG formats in the GD2-positive B78-D14 melanoma syngeneic mouse model. We conjugated the minibody and antibody with MMAE or MMAF via a cathepsin-cleavable linker, generating FDCs with drug-antibody ratio (DAR) of 2 and ADCs with DAR of 2 or 4. The biodistribution analysis showed no significant difference in tumor uptake for both formats early in the analysis (2-4 h) and a higher tumor uptake for the IgG at 24 h post-injection. However, the minibody achieved a superior tumor-to-blood ratio (TBR) at all timepoints, reaching a TBR > 1 compared to ~0.2 for the antibody by 24 h. In vitro studies demonstrated higher cytotoxicity for the ADCs regardless of drug load (DAR 2 or 4) compared to the FDCs, although the difference between conjugates with equal DAR was modest in B78-D14 cells. Critically, superior in vitro ADC potency did not translate in vivo. Minibody-MMAF and minibody-MMAE achieved 74% and 55% tumor growth inhibition, respectively, by the study endpoint-demonstrating comparable efficacy to ADCs with twice the drug load when administered to mice at equimass dosing. Stron/g in vivo efficacy of anti-GD2 FDCs, combined with the superior TBR for the minibody format, underscores the potential of minibody-drug conjugates for treating GD2-positive tumors, particularly when ADC-associated toxicity precludes high-dose regimens.

Keywords

GD2-positive tumors; antibody fragment-drug conjugates; antibody fragments; antibody-drug conjugates; cancer; ganglioside GD2; immunotherapy; melanoma; minibodies; neuroblastoma.

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