Long-Term/Bioinert Labeling of Rat Mesenchymal Stem Cells with PVA-Gd Conjugates and MRI Monitoring of the Labeled Cell Survival after Intramuscular Transplantation

Noninvasive in vivo imaging of transplanted stem cells is an effective method to clarify the mechanisms involved in stem cell transplantation therapy. We labeled rat mesenchymal stem cells (MSCs) with water-soluble magnetic resonance imaging (MRI) contrast agent poly­(vinyl alcohol)-gadolinium (PVA-Gd) in order to ascertain the fate of transplanted MSCs in vivo. PVA-Gd was retained and localized in the cytosolic compartment of MSCs for a longer period of time. The effect of PVA-Gd labeling on MSC proliferation was much less than that of the commercially available contrast agent ProHance, and the labeled MSCs were found to have osteoblastic differentiation ability. To study the MSC lifetime in vivo, MSCs were seeded and trapped in the cytocompatible three-dimensional porous scaffolds of Spongel and transplanted. The MRI signal attributed to MSCs was eliminated from the transplanted site in 14 days. Because free PVA-Gd was rapidly eliminated from the site, this signal reduction indicated MSC death in the transplantation site. The low efficiency of MSC transplantation for ischemic tissue may be due to their short lifetime, making it important to develop highly effective stem cell transplantation systems that address cell number, injection position, and cell formulation (suspension, sheet, and aggregates). Our cell survival tracking system would be a very powerful tool to this end and would be applicable in clinical cell therapies

Dysregulation of RNF213 promotes cerebral hypoperfusion

RNF213 is a susceptibility gene for moyamoya disease, yet its exact functions remain unclear. To evaluate the role of RNF213 in adaptation of cerebral blood flow (CBF) under cerebral hypoperfusion, we performed bilateral common carotid artery stenosis surgery using external microcoils on Rnf213 knockout (KO) and vascular endothelial cell-specific Rnf213 mutant (human p.R4810K orthologue) transgenic (EC-Tg) mice. Temporal CBF changes were measured by arterial spin-labelling magnetic resonance imaging. In the cortical area, no significant difference in CBF was found before surgery between the genotypes. Three of eight (37.5%) KO mice died after surgery but all wild-type and EC-Tg mice survived hypoperfusion. KO mice had a significantly more severe reduction in CBF on day 7 than wild-type mice (KO, 29.7% of baseline level; wild-type, 49.3%; p = 0.038), while CBF restoration on day 28 was significantly impaired in both KO (50.0%) and EC-Tg (56.1%) mice compared with wild-type mice (69.5%; p = 0.031 and 0.037, respectively). Changes in the subcortical area also showed the same tendency as the cortical area. Additionally, histological analysis demonstrated that angiogenesis was impaired in both EC-Tg and KO mice. These results are indicative of the essential role of RNF213 in the maintenance of CBF