iEDDA Conjugation Reaction in Radiometal Labeling of Peptides with (68)Ga and (64)Cu: Unexpected Findings #MMPMID30411057
Litau S; Seibold U; Wangler B; Schirrmacher R; Wangler C
ACS Omega 2018[Oct]; 3 (10): 14039-14053 PMID30411057show ga
The inverse electron demand Diels-Alder conjugation reaction has gained increasing importance over the past few years for efficient in vivo and ex vivo radiometal labeling of antibodies. However, the application of this very fast reaction type has not been studied for radiolabeling of peptides so far. We show here the synthesis of 3-benzyl-1,2,4,5-tetrazine-comprising ((1,4,7,10-tetraazacyclododecane-4,7,10-triyl)triacetic acid-1-glutaric acid) (DOTA-GA) and ((1,4,7-triazacyclononane-4,7-diyl)diacetic acid-1-glutaric acid) (NODA-GA) chelators and their radiometal labeling with (68)Ga(3+) and (64)Cu(2+). The secondary labeling precursors (68)Ga-DOTA-GA-Tz, (68)Ga-NODA-GA-Tz, and (64)Cu-DOTA-GA-Tz were obtained in high radiochemical yields (RCYs) and purities as well as molar activities for further labeling of trans-cyclooctene (TCO)-modified peptides. However, the following reactions of the radiometal-labeled tetrazines with different TCO-comprising model peptide analogs unexpectedly resulted in the formation of a considerable amount of side products (20-55%) which limits the overall achievable RCYs and purities as well as molar activities of the target radiopeptides. Under otherwise identical, nonradioactive reaction conditions, this effect could however not be observed. In contrast, the corresponding one-step radiolabeling protocols provided the target (68)Ga-labeled radiopeptides in exceptionally high RCYs and purities of >/=99% and molar activities of 68-72 GBq/mumol starting from activities of 340-358 MBq of (68)Ga. Thus, the usefulness of the two-step labeling of TCO-modified peptides with radiometal-labeled chelator-tetrazines seems to be limited.
free
free
free
ACS+Omega 2018 ; 3 (10): 14039-14053
