ABSTRACT
Mesenchymal stem cells home towards inflammatory microenvironments, such as the tumour stroma, where they have been shown to have both pro- and anti-tumorigenic effects. Here, we demonstrate that the aspartic acid protease cathepsin D is part of the chemoattraction process. Using a Boyden chamber co-culture system, the migration of the mesenchymal stem cells and their invasion through Matrigel increased in the presence of breast cancer MDA-MB-231â¯cells, colon cancer HT29â¯cells or their conditioned media. Mesenchymal stem cell movement was reduced by protease inhibitors of matrix metalloproteinases and by pepstatin A, an inhibitor of cathepsin D. We confirmed a role for cathepsin D through addition of recombinant protein, upregulation of cathepsin D release using chloroquine and knockdown of cathepsin D expression. While all cell types expressed active cathepsin D, enzymatically inactive precursor procathepsin D was expressed only at low levels by mesenchymal stem cells. Expression in mesenchymal stem cells was increased following co-culture with cancer cells. The chemoattractive effect of cathepsin D required its enzymatic activity, but not changes in mesenchymal stem cell proliferation or adhesion rates. In conclusion, cathepsin D and its precursors enhance mesenchymal stem cell homing towards tumour sites, most likely by enzymatic mechanisms.