5 years ago

Synthesis and evaluation of bifunctional tetrahydroxamate chelators for labeling antibodies with 89Zr for imaging with positron emission tomography

Synthesis and evaluation of bifunctional tetrahydroxamate chelators for labeling antibodies with 89Zr for imaging with positron emission tomography
Two novel bifunctional tetrahydroxamate chelators 3 and 4 were synthesized and evaluated for labeling antibodies with 89Zr for positron emission tomography imaging. Compared to previously reported tetrahydroxamate chelators 1 and 2 with an iminodiacetamide backbone, 3 and 4 were based on an extended iminodipropionamide and dipropylenetriamine backbone, respectively. Trastuzumab conjugates of 3 and 4 were efficiently labeled with 89Zr (> 95% radiochemical yield). The in vitro plasma stability of 89Zr-4-Trastuzumab and especially 89Zr-3-Trastuzumab was greatly improved over previously reported 89Zr-1-Trastuzumab and 89Zr-2-Trastuzumab, but their demetalation remained higher and faster than 89Zr-deferoxamine(DFO)-Trastuzumab. These observations were confirmed by PET imaging and biodistribution in mice, with significant higher bone uptake for 89Zr-4-Trastuzumab, followed by 89Zr-3-Trastuzumab, and to a lesser extent for 89Zr-DFO-Trastuzumab. Molecular modeling showed that 3 and 4 with an extended backbone could form eight-coordinate Zr-complexes as compared to only seven-coordinate Zr-complexes of 1 and 2. Our data suggest further elongation of linker length between hydroxamate motifs of this class of chelators is needed to reach a better Zr-coordination configuration and improve in vivo stability.

Publisher URL: www.sciencedirect.com/science

DOI: S0960894X18300787

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