Liposome-Adenoviral hTERT-siRNA Knockdown in Fibroblasts from Keloids Reduce Telomere Length and Fibroblast Growth

Keloids, which possess invasive tumor-like behavior, have been clinically challenging to clinicians especially surgeons. Excessive extracellular matrix secreted from fibroblasts is the main histo-pathological feature of keloids. In this study, we transfected hTERT-siRNA into scar fibroblasts by liposome-adenoviral transduction in order to disrupt telomere length homeostasis and influence the cell cycle of fibroblasts. Our results showed that liposome hTERT-siRNA was able to knock down hTERT gene expression in scar fibroblasts. Moreover, the telomerase activity in hTERT-siRNA group was significantly reduced compared with the control groups. And the telomeric length of hTERT-siRNA group was significantly shortened as well. Further, flow cytometry studies and MTT assay demonstrated that apoptosis rate of fibroblasts in liposome hTERT-siRNA group significantly increased. These results indicated that the liposome-mediated hTERT gene transduction could inhibit the growth of fibroblasts in scar tissues suggesting a promising strategy of keloids treatment in the future.