Successful Application of CuAAC Click Reaction in Constructing 64Cu-Labeled Antibody Conjugates for Immuno-PET Imaging

Woonghee Lee, Swarbhanu Sarkar, Rammyani Pal, Jung Young Kim, Hyun Park, Phuong Tu Huynh, Abhinav Bhise, Kondapa Naidu Bobba, Kwang Il Kim, Yeong Su Ha, Nisarg Soni, Wanook Kim, Kiwoong Lee, Jung Min Jung, Subramani Rajkumar, Kyo Chul Lee, Jeongsoo Yoo

Research output: Contribution to journalArticlepeer-review

16 Scopus citations

Abstract

Immuno-positron emission tomography (immuno-PET) is a rapidly growing imaging technique in which antibodies are radiolabeled to monitor their in vivo behavior in real time. However, effecting the controlled conjugation of a chelate-bearing radioactive atom to a bulky antibody without affecting its immunoreactivity at a specific site is always challenging. The in vivo stability of the radiolabeled chelate is also a key issue for successful tumor imaging. To address these points, a facile ultra-stable radiolabeling platform is developed by using the propylene cross-bridged chelator (PCB-TE2A-alkyne), which can be instantly functionalized with various groups via the click reaction, thus enabling specific conjugation with antibodies as per choice. The PCB-TE2A-tetrazine derivative is selected to demonstrate the proposed strategy. The antibody trastuzumab is functionalized with the trans-cyclooctene (TCO) moiety in the presence or absence of the PEG linker. The complementary 64Cu-PCB-TE2A-tetrazine is synthesized via the click reaction and radiolabeled with 64Cu ions, which then reacts with the aforementioned TCO-modified antibody via a rapid biorthogonal ligation. The 64Cu-PCB-TE2A-trastuzumab conjugate is shown to exhibit excellent in vivo stability and to maintain a higher binding affinity toward HER2-positive cells. The tumor targeting feasibility of the radiolabeled antibody is evaluated in tumor models. Both 64Cu-PCB-TE2A-trastuzumab conjugates show high tumor uptakes in biodistribution studies and enable unambiguous tumor visualization with minimum background noise in PET imaging. Interestingly, the 64Cu-PCB-TE2A-PEG4-trastuzumab containing an additional PEG linker displays a much faster body clearance compared to its counterpart with less PEG linker, thus affording vivid tumor imaging with an unprecedentedly high tumor-to-background ratio.

Original languageEnglish
Pages (from-to)2544-2557
Number of pages14
JournalACS Applied Bio Materials
Volume4
Issue number3
DOIs
StatePublished - 15 Mar 2021

Keywords

  • antibody conjugate
  • biomolecular imaging
  • click reaction
  • immuno-PET
  • tumor imaging

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