Radiometal-labeled anti-VCAM-1 nanobodies as molecular tracers for atherosclerosis – impact of radiochemistry on pharmacokinetics-Reference-Cited by-同舟云学术

Radiometal-labeled anti-VCAM-1 nanobodies as molecular tracers for atherosclerosis – impact of radiochemistry on pharmacokinetics

Published:2018-09-21 Issue:3 Volume:400 Page:323-332
ISSN:1437-4315
Container-title:Biological Chemistry
language:en
Short-container-title:

Author:

Bala Gezim¹²,Crauwels Maxine¹³,Blykers Anneleen¹,Remory Isabel¹⁴,Marschall Andrea L.J.⁵,Dübel Stefan⁵,Dumas Laurent⁶,Broisat Alexis⁶,Martin Charlotte⁷,Ballet Steven⁷,Cosyns Bernard²,Caveliers Vicky¹⁸,Devoogdt Nick¹,Xavier Catarina¹,Hernot Sophie¹^ORCID

Affiliation:

1. Laboratory for In vivo Cellular and Molecular Imaging, ICMI-BEFY , Vrije Universiteit Brussel , Laarbeeklaan 103 , B-1090 Brussels , Belgium

2. Department of Cardiology, UZBrussel , Laarbeeklaan 101 , B-1090 Brussels , Belgium

3. Cellular and Molecular Immunology, CMIM , Vrije Universiteit Brussel , Pleinlaan 2 , B-1050 Brussels , Belgium

4. Department of Anesthesiology, UZBrussel , Laarbeeklaan 101 , B-1090 Brussels , Belgium

5. Biotechnology and Bioinformatics, Institute of Biochemistry , Technische Universität Braunschweig , Spielmannstraβe 7 , D-38106 Braunschweig , Germany

6. Inserm U1039, LRB, Université Grenoble Alpes , Domaine de la Merci , F-38700 La Tonche , France

7. Research Group of Organic Chemistry , Vrije Universiteit Brussel, Pleinlaan 2 , B-1050 Brussels , Belgium

8. Department of Nuclear Medicine, UZBrussel , Laarbeeklaan 101 , B-1090 Brussels , Belgium

Abstract

Abstract Radiolabeling of nanobodies with radiometals by chelation has the advantage of being simple, fast and easy to implement in clinical routine. In this study, we validated 68Ga/111In-labeled anti-VCAM-1 nanobodies as potential radiometal-based tracers for molecular imaging of atherosclerosis. Both showed specific targeting of atherosclerotic lesions in ApoE−/− mice. Nevertheless, uptake in lesions and constitutively VCAM-1 expressing organs was lower than previously reported for the 99mTc-labeled analog. We further investigated the impact of different radiolabeling strategies on the in vivo biodistribution of nanobody-based tracers. Comparison of the pharmacokinetics between 68Ga-, 18F-, 111In- and 99mTc-labeled anti-VCAM-1 nanobodies showed highest specific uptake for 99mTc-nanobody at all time-points, followed by the 68Ga-, 111In- and 18F-labeled tracer. No correlation was found with the estimated number of radioisotopes per nanobody, and mimicking specific activity of other radiolabeling methods did not result in an analogous biodistribution. We also demonstrated specificity of the tracer using mice with a VCAM-1 knocked-down phenotype, while showing for the first time the in vivo visualization of a protein knock-down using intrabodies. Conclusively, the chosen radiochemistry does have an important impact on the biodistribution of nanobodies, in particular on the specific targeting, but differences are not purely due to the tracer’s specific activity.

Publisher

Walter de Gruyter GmbH

Subject

Clinical Biochemistry,Molecular Biology,Biochemistry

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