Affiliation:
1. Cedars-Sinai Heart Institute, Los Angeles, CA, USA
2. Department of Stem Cell Biology, Nagasaki University Graduate School of Biomedical Science, Nagasaki, Japan
Abstract
The efficiency of stem cell transplantation is limited by low cell retention. Intracoronary (IC) delivery is convenient and widely used but exhibits particularly low cell retention rates. We sought to improve IC cell retention by magnetic targeting. Rat cardiosphere-derived cells labeled with iron microspheres were injected into the left ventricular cavity of syngeneic rats during brief aortic clamping. Placement of a 1.3 Tesla magnet ~1 cm above the heart during and after cell injection enhanced cell retention at 24 h by 5.2–6.4-fold when 1, 3, or 5 × 105 cells were infused, without elevation of serum troponin I (sTnI) levels. Higher cell doses (1 or 2 × 106 cells) did raise sTnI levels, due to microvascular obstruction; in this range, magnetic enhancement did not improve cell retention. To assess efficacy, 5 × 105 iron-labeled, GFP-expressing cells were infused into rat hearts after 45 min ischemia/20 min reperfusion of the left anterior coronary artery, with and without a superimposed magnet. By quantitative PCR and optical imaging, magnetic targeting increased cardiac retention of transplanted cells at 24 h, and decreased migration into the lungs. The enhanced cell engraftment persisted for at least 3 weeks, at which time left ventricular remodeling was attenuated, and therapeutic benefit (ejection fraction) was higher, in the magnetic targeting group. Histology revealed more GFP+ cardiomyocytes, Ki67+ cardiomyocytes and GFP-/ckit+ cells, and fewer TUNEL+ cells, in hearts from the magnetic targeting group. In a rat model of ischemia/reperfusion injury, magnetically enhanced intracoronary cell delivery is safe and improves cell therapy outcomes.
Subject
Transplantation,Cell Biology,Biomedical Engineering
Cited by
88 articles.
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