FEBS Open Bio (Sep 2022)

Development of a variant of dinutuximab with enhanced antitumor efficacy and reduced induction of neuropathic pain

  • Xin‐Yuan Liu,
  • Yi‐Li Chen,
  • Guo‐Jian Liu,
  • Xiang‐Nan Deng,
  • Yue Cui,
  • Jie Tan,
  • Xing‐Chen Dong,
  • Hua‐Ying Li,
  • Gan‐Jun Chen,
  • Zhi‐Min Ou,
  • Chun‐He Wang

DOI
https://doi.org/10.1002/2211-5463.13464
Journal volume & issue
Vol. 12, no. 9
pp. 1644 – 1656

Abstract

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Dinutuximab (ch14.18) was the first approved monoclonal antibody against the tumor‐associated antigen disialoganglioside GD2. Despite its success in treating neuroblastoma (NB), it triggers a significant amount of neuropathic pain in patients, possibly through complement‐dependent cytotoxicity (CDC). We hypothesized that modifying ch14.18 using antibody engineering techniques, such as humanization, affinity maturation, and Fc engineering, may enable the development of next‐generation GD2‐specific antibodies with reduced neuropathic pain and enhanced antitumor activity. In this study we developed the H3‐16 IgG1m4 antibody from ch14.18 IgG1. H3‐16 IgG1m4 exhibited enhanced binding activity to GD2 molecules and GD2‐positive cell lines as revealed by ELISA, and its cross‐binding activity to other gangliosides was not altered. The CDC activity of H3‐16 IgG1m4 was decreased, and the antibody‐dependent cellular cytotoxicity (ADCC) activity was enhanced. The pain response after H3‐16 IgG1m4 antibody administration was also reduced, as demonstrated using the von Frey test in Sprague–Dawley (SD) rats. In summary, H3‐16 IgG1m4 may have potential as a monoclonal antibody with reduced side effects.

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