Characterization of human telomerase reverse transcriptase immortalized anterior cruciate ligament cell lines

The anterior-cruciate-ligament (ACL) contains mesenchymal stem cells (ACL-MSCs), suggesting the feasibility of regenerative treatments of this tissue. The immortalization of isolated cells

Cell lines generated from ACL-MSCs maintain their morphology, surface antigen expression profile, and proliferative capacity; while markers of senescence appear to be reduced. These cell-lines maintained their multilineage differentiation capacity. The demonstrated model systems can be used for further development of new cell-based regenerative approaches in anterior cruciate ligament research, which may lead to new therapeutic strategies in the future.

We isolated ACL-MSCs from human ACLs derived at the time of ACL reconstruction surgery or total knee arthroplasty. We generated cell lines and compared them to non-immortalized ACL-MSCs. We assessed the cellular morphology and we detected surface antigen expression. The resistance to senescence was inferred using the beta galactosidase activity. Histology, immunohistochemistry, and reverse transcriptase polymerase chain reaction (RT-PCR) were used to evaluate the multilineage differentiation capacity.

The morphology of hTERT-ACL-MSCs was similar to ACL up to the last assessment at passage eight. We detected a strong surface expression of CD44, CD90, CD105, and STRO-1 in hTERT-ACL-MSCs. No substantial reduction in the ATP activity was observed in hTERT-ACL-MSCs.