Literature DB >> 27186438

PET imaging of in vivo caspase-3/7 activity following myocardial ischemia-reperfusion injury with the radiolabeled isatin sulfonamide analogue [(18)F]WC-4-116.

Arun K Thukkani1, Kooresh I Shoghi2, Dong Zhou3, Jinbin Xu3, Wenhua Chu3, Eric Novak4, Delphine L Chen3, Robert J Gropler1, Robert H Mach5.   

Abstract

The utility of [(18)F]WC-4-116, a PET tracer for imaging caspase-3 activation, was evaluated in an animal model of myocardial apoptosis. [(18)F]WC-4-116 was injected into rats at 3 hours after a 30 min period of ischemia induced by temporary occlusion of the left anterior descending coronary artery in Sprague-Dawley rats. [(18)F]WC-4-116 uptake was quantified by 1) autoradiography, 2) microPET imaging studies, and 3) post-PET biodistribution studies. MicroPET imaging also assessed uptake of the non-caspase-3-targeted tracer [(18)F]ICMT-18 at 3 hours postischemia. Enzyme assays and Western blotting assessed caspase-3 activation in both at-risk and not-at-risk regions. Caspase-3 enzyme activity increased in the at-risk but not in the not-at-risk myocardium. Quantitative autoradiographic analysis of [(18)F]WC-4-116 demonstrated nearly 2-fold higher uptake in the ischemia-reperfusion (IR) versus sham animals. [(18)F]WC-4-116 microPET imaging studies demonstrated that the IR animals was similarly elevated in relation to sham. [(18)F]ICMT-18 uptake did not increase in at-risk myocardium despite evidence of caspase-3 activation. Biodistribution studies with [(18)F]WC-4-116 confirmed the microPET findings. These data indicate that the caspase-3-PET tracer [(18)F]WC-4-116 can noninvasively image in vivo caspase activity during myocardial apoptosis and may be useful for clinical imaging in humans.

Entities:  

Keywords:  Isatin sulfonamide analogue; PET; apoptosis; caspase; tracer

Year:  2016        PMID: 27186438      PMCID: PMC4858607     

Source DB:  PubMed          Journal:  Am J Nucl Med Mol Imaging


  35 in total

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Authors:  Wenhua Chu; Justin Rothfuss; André d'Avignon; Chenbo Zeng; Dong Zhou; Richard S Hotchkiss; Robert H Mach
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