Synapse - Chemoenzymatic strategy for the synthesis of site-specifically labeled immunoconjugates for multimodal PET and optical imaging

Chemoenzymatic strategy for the synthesis of site-specifically labeled immunoconjugates for multimodal PET and optical imaging Journal Article

Authors:	Zeglis, B. M.; Davis, C. B.; Abdel-Atti, D.; Carlin, S. D.; Chen, A.; Aggeler, R.; Agnew, B. J.; Lewis, J. S.
Article Title:	Chemoenzymatic strategy for the synthesis of site-specifically labeled immunoconjugates for multimodal PET and optical imaging
Abstract:	The complementary nature of positron emission tomography (PET) and optical imaging (OI) has fueled increasing interest in the development of multimodal PET/OI probes that can be employed during the diagnosis, staging, and surgical treatment of cancer. Due to their high selectivity and affinity, antibodies have emerged as promising platforms for the development of hybrid PET/OI agents. However, the lack of specificity of many bioconjugation reactions can threaten immunoreactivity and lead to poorly defined constructs. To circumvent this issue, we have developed a chemoenzymatic strategy for the construction of multimodal PET/OI immunoconjugates that have been site-specifically labeled on the heavy chain glycans. The methodology consists of four steps: (1) the enzymatic removal of the terminal galactose residues on the heavy chain glycans; (2) the enzymatic incorporation of azide-bearing galactose (GalNAz) residues into the heavy chain glycans; (3) the strain-promoted click conjugation of chelator- and fluorophore-modified dibenzocyclooctynes to the azide-modified sugars; and (4) the radiolabeling of the immunoconjugate. For proof-of-concept, a model system was created using the colorectal cancer-targeting antibody huA33, the chelator desferrioxamine (DFO), the positron-emitting radiometal 89Zr, and the near-infrared fluorescent dye Alexa Fluor 680. The bioconjugation strategy is robust and reproducible, reliably producing well-defined and immunoreactive conjugates labeled with 89Zr, Alexa Fluor 680, or an easily and precisely tuned mixture of the two reporters. In in vivo PET and fluorescence imaging experiments, a hybrid 89Zr- and Alexa Fluor 680-labeled huA33 conjugate displayed high levels of specific uptake (>45% ID/g) in athymic nude mice bearing A33 antigen-expressing SW1222 colorectal cancer xenografts. (Figure Presented).
Keywords:	mus musculus; alexa
Journal Title:	Bioconjugate Chemistry
Volume:	25
Issue:	12
ISSN:	1043-1802
Publisher:	American Chemical Society
Date Published:	2014-12-17
Start Page:	2123
End Page:	2128
Language:	English
DOI:	10.1021/bc500499h
PROVIDER:	scopus
PUBMED:	25418333
PMCID:	PMC4334285
DOI/URL:	http://www.scopus.com/inward/record.url?eid=2-s2.0-84918536144&partnerID=40&md5=36989a971cca0d8bebd9cde5084719c4
Notes:	Export Date: 2 January 2015 -- Source: Scopus

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MSK Authors

120 Zeglis
461 Lewis
83 Carlin
4 Davis
24 Abdel-Atti

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