Human adipose-derived mesenchymal stem cell spheroids improve recovery in a mouse model of elastase-induced emphysema

Previous reports suggested that culture as 3D aggregates or as spheroids can increase the therapeutic potential of the adult stem/progenitor cells referred to as mesenchymal stem cells or multipotent mesenchymal stromal cells (MSCs). Here we used a hanging drop protocol to prepare human MSCs (hMSCs) as spheroids that maximally expressed TNFalpha stimulated gene/protein 6 (TSG-6), the antiinflammatory protein that was expressed at high levels by hMSCs trapped in the lung after i.v. infusion and that largely explained the beneficial effects of hMSCs in mice with myocardial infarcts. The properties of spheroid hMSCs were found to depend critically on the culture conditions. Under optimal conditions for expression of TSG-6, the hMSCs also expressed high levels of stanniocalcin-1, a protein with both antiinflammatory and antiapoptotic properties. In addition, they expressed high levels of three anticancer proteins: IL-24, TNFalpha-related apoptosis inducing ligand, and CD82. The spheroid hMSCs were more effective than hMSCs from adherent monolayer cultures in suppressing inflammatory responses in a coculture system with LPS-activated macrophages and in a mouse model for peritonitis. In addition, the spheroid hMSCs were about one-fourth the volume of hMSCs from adherent cultures. Apparently as a result, larger numbers of the cells trafficked through the lung after i.v. infusion and were recovered in spleen, liver, kidney, and heart. The data suggest that spheroid hMSCs may be more effective than hMSCs from adherent cultures in therapies for diseases characterized by sterile tissue injury and unresolved inflammation and for some cancers that are sensitive to antiinflammatory agents.

M. Zhang, D. Methot, V. Poppa, Y. Fujio, K. Walsh and C. E. Murry. Cardiomyocyte Grafting for Cardiac Repair: Graft Cell Death and Anti-Death Strategies. Journal of Molecular and Cellular Cardiology (2001) 33, 907-921. Recent studies indicate that cardiomyocyte grafting forms new myocardium in injured hearts. It is unknown, however, whether physiologically significant amounts of new myocardium can be generated. Pilot experiments showed that death of grafted rat neonatal cardiomyocytes limited formation of new myocardium after acute cryoinjury. Time-course studies showed that, at 30 min after grafting, only 1.8(+/-0.4)% of graft cells were TUNEL-positive. At 1 day, however, TUNEL indices increased to 32.1(+/-3.5)% and remained high at 4 days, averaging 9.8(+/-3.8)%. By 7 days, TUNEL decreased to 1.0(+/-0.2)%. Electron microscopy revealed that dead cells had features of both irreversible ischemic injury and apoptosis. To test whether ischemia contributed to poor graft survival, grafts were placed into vascularized 2-week-old cardiac granulation tissue or normal myocardium. TUNEL indices were reduced by 53% and 86%, respectively. Adenoviral infection of graft cells with the cytoprotective kinase Akt, or constitutively active Akt, reduced TUNEL indices by 31% and 40%, respectively, compared to beta -gal-transfected controls. Neither treatment reached statistical significance compared to untreated controls, however. Heat shock reduced cardiomyocyte death in vitro in response to serum deprivation, glucose depletion, and viral activation of the Fas death pathway. When cardiomyocytes were heat shocked prior to grafting, graft cell death in vivo was reduced by 54% at day 1. Therefore, high levels of cardiomyocyte death occur for at least 4 days after grafting into injured hearts, in large part due to ischemia. Death can be limited by activating the Akt pathway and even more effectively by heat shock prior to transplantation. Copyright 2001 Academic Press.

Adipose-derived stem cells (ASCs) have valuable applications in regenerative medicine, but maintaining the stemness of ASCs during in vitro culture is still a challenging issue. In this study, human ASCs spontaneously formed three-dimensional spheroids on chitosan films. Most ASCs within the spheroid were viable, and the cells produced more extracellular molecules, like laminin and fibronectin. Comparing to monolayer culture, ASC spheroids also exhibited enhanced cell survival in serum deprivation condition. Although cell proliferation was inhibited in spheroids, ASCs readily migrated out and proliferated upon transferring spheroids to another adherent growth surface. Moreover, spheroid-derived ASCs exhibited higher expansion efficiency and colony-forming activity. Importantly, we demonstrated that spheroid formation of human ASCs on chitosan films induced significant upregulation of pluripotency marker genes (Sox-2, Oct-4 and Nanog). By culturing the ASC spheroids in proper induction media, we found that ASC differentiation capabilities were significantly enhanced after spheroid formation, including increased transdifferentiation efficiency into neuron and hepatocyte-like cells. In a nude mice model, we further showed a significantly higher cellular retention ratio of ASC spheroids after intramuscular injection of spheroids and dissociated ASCs. These results suggested that ASCs cultured as spheroids on chitosan films can increase their therapeutic potentials. Copyright © 2011 Elsevier Ltd. All rights reserved.