Abstract
Phenotypic drift of stem cells and insufficient production of extracellular matrix (ECM) are frequently observed in tissue-engineered cartilage substitutes, posing major weaknesses of clinically relevant therapies targeting cartilage repair. Microenvironment plays an important role for stem cell maintenance and differentiation and therefore an optimal chondrogenic differentiation protocol is highly desirable. Macromolecular crowding (MMC) is a biophysical phenomenon that accelerates biological processes by several orders of magnitude. MMC was recently shown to significantly increase ECM deposition and to promote chondrogenic differentiation of stem cells. We hypothesise that the addition of sulphated high-molecular weight polysaccharides (carrageenan) to the media positively affects stem cell maintenance and chondrogenic differentiation. Herein, we venture to assess the impact of MMC on the maintenance of stem cell phenotype and multipotency, and ECM deposition in xeno-free human bone marrow mesenchymal stem cell (BMSCs) cultures. We investigate different xeno- and serum-free stem cell media with MMC for expansion of BMSCs, assessing multipotency maintenance (FACS analysis), cell viability, metabolic activity, proliferative capacity and matrix deposition (SDS-PAGE, ICC) at day 4 and day 10. Experiments will be conducted at 2 different passages (p3, p7). Medium without MMC will be used as control. Based on these results, cells expanded with the best protocol will be subsequently investigated for chondrogenic differentiation comparing different xeno-/serum-free and serum containing differentiation media. Chondrogenic differentiation will be assessed via Alcian blue and Safranin O stainings, gene expression for chondrogenic marker genes and quantification of GAG content. Finally, these findings will pave the way for developing more effective strategies for cartilage tissue engineering.
