iPS cell technologies and cartilage regeneration

Articular cartilage covers the ends of bone and provides shock absorption and lubrication to the diarthrodial joints. Cartilage has a limited capacity for repair when injured, and there is a need for cell sources for chondrocytes that can be transplanted as part of a regenerative medicine approach. Induced pluripotent stem cells (iPSCs) have pluripotency and the potential for self-renewal similar to embryonic stem cells (ESCs), but are not associated with the ethical issues that have plagued ESCs. Recent progress has made it possible to generate integration-free iPSCs and to differentiate iPSCs toward chondrocytes. An iPSC library prepared from donors homozygous for common HLA types is being developed, and will be able to provide allogeneic iPSC-derived chondrocytes at low cost that can cover the majority of the population. As an alternative approach, chondrocytic cells can be induced directly from dermal fibroblasts without going through the iPSC stage. Another important application of the iPSC technology is modeling cartilage diseases, such as skeletal dysplasia. Chondrogenically differentiated iPSCs generated from patients would recapitulate the pathology, and may serve as a useful platform both for exploring the disease mechanisms and for drug screening. This article is part of a Special Issue entitled “Stem Cells and Bone”.