Establishing criteria for human mesenchymal stem cell potency

This study sought to identify critical determinants of mesenchymal stem cell (MSC) potency using in vitro and in vivo attributes of cells isolated from the bone marrow of age‐ and sex‐matched donors. Adherence to plastic was not indicative of potency, yet capacity for long‐term expansion in vitro varied considerably between donors, allowing the grouping of MSCs from the donors into either those with high‐growth capacity or low‐growth capacity. Using this grouping strategy, high‐growth capacity MSCs were smaller in size, had greater colony‐forming efficiency, and had longer telomeres. Cell‐surface biomarker analysis revealed that the International Society for Cellular Therapy (ISCT) criteria did not distinguish between high‐growth capacity and low‐growth capacity MSCs, whereas STRO‐1 and platelet‐derived growth factor receptor alpha were preferentially expressed on high‐growth capacity MSCs. These cells also had the highest mean expression of the mRNA transcripts TWIST‐1 and DERMO‐1. Irrespective of these differences, both groups of donor MSCs produced similar levels of key growth factors and cytokines involved in tissue regeneration and were capable of multilineage differentiation. However, high‐growth capacity MSCs produced approximately double the volume of mineralized tissue compared to low‐growth capacity MSCs when assessed for ectopic bone‐forming ability. The additional phenotypic criteria presented in this study when combined with the existing ISCT minimum criteria and working proposal will permit an improved assessment of MSC potency and provide a basis for establishing the quality of MSCs prior to their therapeutic application

Phenotypic and Functional Characterization of Bovine Adipose-Derived Mesenchymal Stromal Cells

Background: Mesenchymal stem cells (MSCs) are increasingly trialed in cellular therapy applications in humans. They can also be applied to treat a range of diseases in animals, particularly in cattle to combat inflammatory conditions and aging-associated degenerative disorders. We sought to demonstrate the feasibility of obtaining MSCs from adipose tissue and characterizing them using established assays. Methods: Bovine adipose MSCs (BvAdMSCs) were isolated using in-house optimized tissue digestion protocols and characterized by performing a colony formation assay, cell growth assessments, cell surface marker analysis by immunocytochemistry and flow cytometry, osteogenic and adipogenic differentiation, and secretion of indoleamine 2,3-dioxygenease (IDO). Results: Our results demonstrate the feasibility of successful MSC isolation and culture expansion from bovine adipose tissues with characteristic features of colony formation, in vitro multilineage differentiation into osteogenic and adipogenic lineages, and cell surface marker expression of CD105, CD73, CD90, CD44, and CD166 with negative expression of CD45. BvAdMSCs secreted significant amounts of IDO with or without interferon–gamma stimulation, indicating ability for immunomodulation. Conclusions: We report a viable approach to obtaining autologous adipose-derived MSCs that can be applied as potential adjuvant cell therapy for tissue repair and regeneration in cattle. Our methodology can be utilized by veterinary cell therapy labs for preparing MSCs for disease management in cattle

Clinical Utility of Mesenchymal Stem/stromal Cells in Regenerative Medicine and Cellular Therapy

Mesenchymal stem/stromal cells (MSCs) have been carefully examined to have tremendous potential in regenerative medicine. With their immunomodulatory and regenerative properties, MSCs have numerous applications within the clinical sector. MSCs have the properties of multilineage differentiation, paracrine signaling, and can be isolated from various tissues, which makes them a key candidate for applications in numerous organ systems. To accentuate the importance of MSC therapy for a range of clinical indications, this review highlights MSC-specific studies on the musculoskeletal, nervous, cardiovascular, and immune systems where most trials are reported. Furthermore, an updated list of the different types of MSCs used in clinical trials, as well as the key characteristics of each type of MSCs are included. Many of the studies mentioned revolve around the properties of MSC, such as exosome usage and MSC co-cultures with other cell types. It is worth noting that MSC clinical usage is not limited to these four systems, and MSCs continue to be tested to repair, regenerate, or modulate other diseased or injured organ systems. This review provides an updated compilation of MSCs in clinical trials that paves the way for improvement in the field of MSC therapy

Bovine Colostrum Supplementation and Bone Health: a Pilot Study

Research has shown the positive effects of some bovine colostrum components in bone cells; for instance, lactoferrin is reported to stimulate osteoblast proliferation and inhibit osteoclast activity in cell cultures. However, whether bovine colostrum as a whole can induce bone mass gains in osteoporotic bones is relatively unclear. The aim of this study was to investigate the effects of bovine colostrum supplementation in ovariectomized-induced bone loss (OVX) rats. Methods: Twenty-seven-month-old female Wister rats (n=16) were randomly assigned to the following two groups: 1) a healthy control (non-OVX) with no supplementation, and 2) a OVX with bovine colostrum supplementation (0.5g/day; oral consumption). After 5 months supplementation, bone microstructure was scanned using micro-CT (right tibia). Bone formation markers (serum: pre-and post supplementation) were analysed (alkaline phosphatase and osteocalcin) by ECLIA. The study was approved by the National Ethics Committee for the Use of Animals in Research (ORBEA). Results: No significant differences were found between groups in serum alkaline phosphatase either before or after supplementation (p>0.05). Serum osteocalcin significantly increased post-supple-mentation in the OVX compared to pre-supplementation (pre: 11.32+/-1.61; post: 12.45+/-1.21μg/L, p0.05). Trabecular bone mineral content (BMC), trabecular thickness, cortical bone mineral density (BMD) and cortical BMC were similar between groups after supplementation (p>0.05). However, OVX group revealed significantly higher trabecular porosity (5.6%, p<0.01), trabecular separation (36.3%, p<0.01), and cortical porosity (8.0%, p<0.01) compared to the healthy control post-supplementation. Conclusion: Bovine colostrum seems to preserve bone mass of OVX by stimulating bone formation. However, these positive effects seem not to be sufficient to restore bone micro-architecture in the OVX group, possibly because the administrated dose of bovine colostrum was not sufficient for OVX to catch-up healthy rats in terms of trabecular and cortical porosity. The potential therapeutic use of bovine colostrum for osteoporosis deserves further investigation

Enhancing the efficacy of stem cell therapy with glycosaminoglycans

Human mesenchymal stem cell (hMSC) therapy offers significant potential for osteochondral regeneration. Such applications require their ex vivo expansion in media frequently supplemented with fibroblast growth factor 2 (FGF2). Particular heparan sulfate (HS) fractions stabilize FGF2-FGF receptor complexes. We show that an FGF2-binding HS variant (HS8) accelerates the expansion of freshly isolated bone marrow hMSCs without compromising their naivety. Importantly, the repair of osteochondral defects in both rats and pigs is improved after treatment with HS8-supplemented hMSCs (MSCHS8), when assessed histologically, biomechanically, or by MRI. Thus, supplementing hMSC culture media with an HS variant that targets endogenously produced FGF2 allows the elimination of exogenous growth factors that may adversely affect their therapeutic potency

Preparation and characterization of polyisoprene based conducting polymer films

The present study indicates that it is possible to obtain conducting polyisoprene, not only by l2 doping, but also from other acceptor dopants such as FeCl3, HCl, H2SO4 and AlCl

Preparation and characterization of polyisoprene based conducting polymer films

The present study indicates that it is possible to obtain conducting polyisoprene, not only by l2 doping, but also from other acceptor dopants such as FeCl3, HCl, H2SO4 and AlCl