Targeted Alpha Therapy Symposium

Bioconjugation of actinides using a peptoid scaffold

Not scheduled

15m

Fairmont Château Laurier Hotel

Speaker

Dr Julian Rees (Lawrence Berkeley National Lab)

Description

The targeted delivery of alpha-generating radionuclides such as actinium-225 and thorium-227 is emerging as a promising treatment approach for a range of cancers. Advances in protein engineering are driving new developments in targeted drug delivery through increased availability of monoclonal antibodies and similar delivery vehicles. This work utilizes a modular, solid-phase synthetic method to generate biopolymers suitable for chelating f-block elements. The peptoid platform, polymeric chains of N-substituted glycines, can incorporate essentially any functional group bearing a pendant primary amine, allowing us prepare a tetramer of 1,2-hydroxypyridinone (HOPO) moieties optimized for actinide chelation. Further inclusion of a range of suitable functionalities enables bioconjugation via maleimide-Cys, succinate ester-Lys, or azide-alkyne coupling chemistry. Antibody-peptoid conjugates provide a versatile platform for antigen-specific delivery of therapeutic alpha generators, as well as other radionuclides such as zirconium-89, a positron emitter ideally suited for PET imaging.