Mukesh Punjabi1, Lifen Xu1, Amanda Ochoa-Espinosa1, Alexandra Kosareva1, Thomas Wolff2, Ahmed Murtaja2, Alexis Broisat3, Nick Devoogdt4, Beat A Kaufmann1,5. 1. From the Cardiovascular Molecular Imaging Laboratory, Department of Biomedicine, University of Basel, Switzerland (M.P., L.X., A.O.-E., A.K., B.A.K.). 2. Department of Vascular Surgery (T.W., A.M.), University Hospital and University of Basel, Switzerland. 3. University Grenoble Alpes, Inserm, U1039, LRB, France (A.B.). 4. In Vivo Cellular and Molecular Imaging Laboratory, Vrije Universiteit Brussel, Belgium (N.D.). 5. Department of Cardiology (B.A.K.), University Hospital and University of Basel, Switzerland.
Abstract
OBJECTIVE: Contrast-enhanced ultrasound molecular imaging (CEUMI) of endothelial expression of VCAM (vascular cell adhesion molecule)-1 could improve risk stratification for atherosclerosis. The microbubble contrast agents developed for preclinical studies are not suitable for clinical translation. Our aim was to characterize and validate a microbubble contrast agent using a clinically translatable single-variable domain immunoglobulin (nanobody) ligand. Approach and Results: Microbubble with a nanobody targeting VCAM-1 (MBcAbVcam1-5) and microbubble with a control nanobody (MBVHH2E7) were prepared and characterized in vitro. Attachment efficiency to VCAM-1 under continuous and pulsatile flow was investigated using activated murine endothelial cells. In vivo CEUMI of the aorta was performed in atherosclerotic double knockout and wild-type mice after injection of MBcAbVcam1-5 and MBVHH2E7. Ex vivo CEUMI of human endarterectomy specimens was performed in a closed-loop circulation model. The surface density of the nanobody ligand was 3.5×105 per microbubble. Compared with MBVHH2E7, MBcAbVcam1-5 showed increased attachment under continuous flow with increasing shear stress of 1-8 dynes/cm2 while under pulsatile flow attachment occurred at higher shear stress. CEUMI in double knockout mice showed signal enhancement for MBcAbVcam1-5 in early (P=0.0003 versus MBVHH2E7) and late atherosclerosis (P=0.007 versus MBVHH2E7); in wild-type mice, there were no differences between MBcAbVcam1-5 and MBVHH2E7. CEUMI in human endarterectomy specimens showed a 100% increase in signal for MBcAbVcam1-5versus MBVHH2E7 (20.6±27.7 versus 9.6±14.7, P=0.0156). CONCLUSIONS: CEUMI of the expression of VCAM-1 is feasible in murine models of atherosclerosis and on human tissue using a clinically translatable microbubble bearing a VCAM-1 targeted nanobody.
OBJECTIVE: Contrast-enhanced ultrasound molecular imaging (CEUMI) of endothelial expression of VCAM (vascular cell adhesion molecule)-1 could improve risk stratification for atherosclerosis. The microbubble contrast agents developed for preclinical studies are not suitable for clinical translation. Our aim was to characterize and validate a microbubble contrast agent using a clinically translatable single-variable domain immunoglobulin (nanobody) ligand. Approach and Results: Microbubble with a nanobody targeting VCAM-1 (MBcAbVcam1-5) and microbubble with a control nanobody (MBVHH2E7) were prepared and characterized in vitro. Attachment efficiency to VCAM-1 under continuous and pulsatile flow was investigated using activated murine endothelial cells. In vivo CEUMI of the aorta was performed in atherosclerotic double knockout and wild-type mice after injection of MBcAbVcam1-5 and MBVHH2E7. Ex vivo CEUMI of human endarterectomy specimens was performed in a closed-loop circulation model. The surface density of the nanobody ligand was 3.5×105 per microbubble. Compared with MBVHH2E7, MBcAbVcam1-5 showed increased attachment under continuous flow with increasing shear stress of 1-8 dynes/cm2 while under pulsatile flow attachment occurred at higher shear stress. CEUMI in double knockout mice showed signal enhancement for MBcAbVcam1-5 in early (P=0.0003 versus MBVHH2E7) and late atherosclerosis (P=0.007 versus MBVHH2E7); in wild-type mice, there were no differences between MBcAbVcam1-5 and MBVHH2E7. CEUMI in human endarterectomy specimens showed a 100% increase in signal for MBcAbVcam1-5versus MBVHH2E7 (20.6±27.7 versus 9.6±14.7, P=0.0156). CONCLUSIONS: CEUMI of the expression of VCAM-1 is feasible in murine models of atherosclerosis and on human tissue using a clinically translatable microbubble bearing a VCAM-1 targeted nanobody.
Authors: Patrick M Glassman; Landis R Walsh; Carlos H Villa; Oscar A Marcos-Contreras; Elizabeth D Hood; Vladimir R Muzykantov; Colin F Greineder Journal: Bioconjug Chem Date: 2020-03-20 Impact factor: 4.774
Authors: Nairo Brilhante-da-Silva; Rosa Maria de Oliveira Sousa; Andrelisse Arruda; Eliza Lima Dos Santos; Anna Carolina Machado Marinho; Rodrigo Guerino Stabeli; Carla Freire Celedonio Fernandes; Soraya Dos Santos Pereira Journal: Mol Diagn Ther Date: 2021-06-19 Impact factor: 4.074