A Bioactive Cartilage Graft of IGF1-Transduced Adipose Mesenchymal Stem Cells Embedded in an Alginate/Bovine Cartilage Matrix Tridimensional Scaffold.
Nidia K Moncada-SaucedoIvan Alberto Marino-MartinezJorge Lara-AriasVíktor J Romero-DíazAlberto CamachoArcadio Valdes FrancoVanessa Pérez-SilosAlejandro García-RuizHang LinRocky S TuanRosalio Ramos PayánM Lara-BandaRocío Ortíz-LópezAugusto Rojas-MartinezLizeth Fuentes-MeraPublished in: Stem cells international (2019)
Articular cartilage injuries remain as a therapeutic challenge due to the limited regeneration potential of this tissue. Cartilage engineering grafts combining chondrogenic cells, scaffold materials, and microenvironmental factors are emerging as promissory alternatives. The design of an adequate scaffold resembling the physicochemical features of natural cartilage and able to support chondrogenesis in the implants is a crucial topic to solve. This study reports the development of an implant constructed with IGF1-transduced adipose-derived mesenchymal stem cells (immunophenotypes: CD105+, CD90+, CD73+, CD14-, and CD34-) embedded in a scaffold composed of a mix of alginate/milled bovine decellularized knee material which was cultivated in vitro for 28 days (3CI). Histological analyses demonstrated the distribution into isogenous groups of chondrocytes surrounded by a de novo dense extracellular matrix with balanced proportions of collagens II and I and high amounts of sulfated proteoglycans which also evidenced adequate cell proliferation and differentiation. This graft also shoved mechanical properties resembling the natural knee cartilage. A modified Bern/O'Driscoll scale showed that the 3CI implants had a significantly higher score than the 2CI implants lacking cells transduced with IGF1 (16/18 vs. 14/18), representing high-quality engineering cartilage suitable for in vivo tests. This study suggests that this graft resembles several features of typical hyaline cartilage and will be promissory for preclinical studies for cartilage regeneration.
Keyphrases
- extracellular matrix
- mesenchymal stem cells
- tissue engineering
- cell proliferation
- induced apoptosis
- stem cells
- pi k akt
- total knee arthroplasty
- cell cycle arrest
- emergency department
- soft tissue
- insulin resistance
- oxidative stress
- adipose tissue
- type diabetes
- umbilical cord
- knee osteoarthritis
- wound healing
- cell death
- nk cells