Targeting of Apoptotic Macrophages and Experimental Atheroma With Radiolabeled Annexin V: A Technique With Potential for Noninvasive Imaging of Vulnerable Plaque

doi:10.1161/01.CIR.0000105761.00573.50

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Circulation. 2003;108:3134-3139
Published online before print December 15, 2003, doi: 10.1161/01.CIR.0000105761.00573.50

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Animal models of human disease

Apoptosis

Imaging

Targeting of Apoptotic Macrophages and Experimental Atheroma With Radiolabeled Annexin V

A Technique With Potential for Noninvasive Imaging of Vulnerable Plaque

Frank D. Kolodgie, PhD; Artiom Petrov, PhD; Renu Virmani, MD; Navneet Narula, MD; Johan W. Verjans, MS; Deena K. Weber, BS; Dagmar Hartung, MD; Neil Steinmetz, MD; Jean Luc Vanderheyden, PhD; Mani A. Vannan, MD; Herman K. Gold, MD; Chris P.M. Reutelingsperger, PhD; Leo Hofstra, MD, PhD; Jagat Narula, MD, PhD

From the Armed Forces Institute of Pathology (F.D.K., R.V., D.K.W.), Washington, DC; Drexel University College of Medicine (A.P., J.W.V., D.H., M.A.V., J.N.) and University of Pennsylvania Medical Center (N.N.), Philadelphia, Pa; Theseus Imaging (N.S., J.L.V.) and Massachusetts General Hospital (H.K.G.), Boston, Mass; and Cardiovascular Research Institute (C.P.M.R., L.H.), Maastricht, the Netherlands.

Correspondence to Jagat Narula, MD, PhD, University of California, Irvine, 101 The City Drive, Bldg 53, Route 81, Room 100, Orange, CA 92868-4080. E-mail narula{at}uci.edu

Received May 16, 2003; de novo received July 31, 2003; accepted August 21, 2003.

Background— Apoptosis is common in advanced human atheromaand contributes to plaque instability. Because annexin V hasa high affinity for exposed phosphatidylserine on apoptoticcells, radiolabeled annexin V may be used for noninvasive detectionof apoptosis in atherosclerotic lesions.

Methods and Results— Atherosclerotic plaques were producedin 5 rabbits by deendothelialization of the infradiaphragmaticaorta followed by 12 weeks of cholesterol diet; 5 controls werestudied without manipulation. Animals were injected with humanrecombinant annexin V labeled with technetium-99m before imaging.Aortas were explanted for ex vivo imaging, macroautoradiography,and histological characterization of plaque. Radiolabeled annexinV cleared rapidly from the circulation (T_1/2, ${alpha}$ 9 and ß46 minutes). There was intense uptake of radiolabel within lesionsby 2 hours; no uptake was seen in controls. The results wereconfirmed in the ex vivo imaging of the explanted aorta. Quantitativeannexin uptake was 9.3-fold higher in lesion versus nonlesionareas; the lesion-to-blood ratio was 3.0±0.37. Annexinuptake paralleled lesion severity and macrophage burden; nocorrelation was observed with smooth muscle cells. DNA fragmentationstaining of apoptotic nuclei was increased in advanced lesionswith evolving necrotic cores, predominantly in macrophages;the uptake of radiolabel correlated with the apoptotic index.

Conclusions— Because annexin V clears rapidly from bloodand targets apoptotic macrophage population, it should constitutean attractive imaging agent for the noninvasive detection ofunstable atherosclerotic plaques.

Key Words: apoptosis • atherosclerosis • imaging • nuclear medicine

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Basic Science Reports

Targeting of Apoptotic Macrophages and Experimental Atheroma With Radiolabeled Annexin V

A Technique With Potential for Noninvasive Imaging of Vulnerable Plaque

				P. R. Moreno and V. Fuster The year in atherothrombosis J. Am. Coll. Cardiol., December 7, 2004; 44(11): 2099 - 2110. [Full Text] [PDF]

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				Z. S. Galis Vulnerable Plaque: The Devil Is in the Details Circulation, July 20, 2004; 110(3): 244 - 246. [Full Text] [PDF]

				B. L.J.H. Kietselaer, C. P.M. Reutelingsperger, G. A.K. Heidendal, M. J.A.P. Daemen, W. H. Mess, L. Hofstra, and J. Narula Noninvasive Detection of Plaque Instability with Use of Radiolabeled Annexin A5 in Patients with Carotid-Artery Atherosclerosis N. Engl. J. Med., April 1, 2004; 350(14): 1472 - 1473. [Full Text] [PDF]