Endolysosomal two-pore channel 2 plays opposing roles in primary and metastatic malignant melanoma cells.

The ion channel two-pore channel 2 (TPC2), localised on the membranes of acidic organelles such as endo-lysosomes and melanosomes, has been shown to play a role in pathologies including cancer, and it is differently expressed in primary versus metastatic melanoma cells. Whether TPC2 plays a pro- or anti-oncogenic role in different tumour conditions is a relevant open question which we have explored in melanoma at different stages of tumour progression. The behaviour of primary melanoma cell line B16F0 and its metastatic subline B16F10 were compared in response to TPC2 modulation by silencing (by small interfering RNA), knock-out (by CRISPR/Cas9) and overexpression (by mCherry-TPC2 transfected plasmid). TPC2 silencing increased cell migration, epithelial-to-mesenchymal transition and autophagy in the metastatic samples, but abated them in the silenced primary ones. Interestingly, while TPC2 inactivation failed to affect markers of proliferation in both samples, it strongly enhanced the migratory behaviour of the metastatic cells, again suggesting that in the more aggressive phenotype TPC2 plays a specific antimetastatic role. In line with this, overexpression of TPC2 in B16F10 cells resulted in phenotype rescue, that is, a decrease in migratory ability, thus collectively resuming traits of the B16F0 primary cell line. Our research shows a novel role of TPC2 in melanoma cells that is intriguingly different in initial versus late stages of cancer progression.

Relevance of lysosomal Ca2+ signalling machinery in cancer.

In comparison with normal cells, cancer cells are equipped with a higher number of lysosomes, involved in degradative and non-degradative roles. In particular, the lysosome is a Ca2+signalling hub, and the enhancement of this interconnected machinery in cancer cells has recently prompted investigations into the role that lysosomal ion channels play in oncology. The present review reports findings about the emerging role of lysosomal Ca2+channels: Two-Pore Channels (TPCs), Transient Receptor Potential Cation Channels (TRPMLs; mucolipins), and Purinergic X Receptor 4 (P2×4R), in a variety of cancer models, highlighting their impact on crucial functions such as the regulation of autophagy and the composition of the tumour microenvironment, including the secretion-mediated interplay with immune and endothelial cells. Notably, recent evidence indicates that, by regulating tumour secretome, lysosomal Ca2+ signalling can affect the composition of the tumour-infiltrating immune cell repertoire. Intriguingly, the data so far available show that the protumoral/antitumoral role of lysosomal Ca2+ channels can differ according to the specific genetic context, types of cancer and the malignancy stage, and signals from the microenvironment.