Abstract
Human mesenchymal stem cells (hMSCs) are a promising tool for cartilage regeneration in arthritic joints. hMSC labeling with iron oxide nanoparticles enables non-invasive in vivo monitoring of transplanted cells in cartilage defects with MR imaging. Since graft failure leads to macrophage phagocytosis of apoptotic cells, we evaluated in vitro and in vivo whether nanoparticle-labeled hMSCs show distinct MR signal characteristics before and after phagocytosis by macrophages. We found that apoptotic nanoparticle-labeled hMSCs were phagocytosed by macrophages while viable nanoparticle-labeled hMSCs were not. Serial MRI scans of hMSC transplants in arthritic joints of recipient rats showed that the iron signal of apoptotic, nanoparticle-labeled hMSCs engulfed by macrophages disappeared faster compared to viable hMSCs. This corresponded to poor cartilage repair outcomes of the apoptotic hMSC transplants. Therefore, rapid decline of iron MRI signal at the transplant site can indicate cell death and predict incomplete defect repair weeks later. Currently, hMSC graft failure can be only diagnosed by lack of cartilage defect repair several months after cell transplantation. The described imaging signs can diagnose hMSC transplant failure more readily, which could enable timely re-interventions and avoid unnecessary follow up studies of lost transplants.
Highlights
Apoptotic ferumoxytol-labeled Human mesenchymal stem cells (hMSCs) co-incubated with macrophages showed positive iron stains of macrophages, suggesting hMSC phagocytosis
This was confirmed by confocal microscopy: CD-68 stained activated macrophages engulfed Rhodamine-ferumoxytol labeled apoptotic hMSC, but not Rhodamine-ferumoxytol labeled viable hMSCs (Fig. 1b)
The number of viable hMSCs in the group of viable, iron labeled hMSC co-incubated with macrophages was four times higher than in the group of apoptotic, iron labeled hMSC co-incubated with macrophages (p = 0.0037)
Summary
The purpose of our study was to evaluate if iron oxide-labeled hMSCs demonstrate different MR signal characteristics before and after phagocytosis by macrophages
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