Abstract
BackgroundTRPV4 channels are calcium-permeable cation channels that are activated by several physicochemical stimuli. Accordingly, TRPV4 channels have been implicated in the regulation of osmosensing, mechanotransduction, thermosensation, and epithelial/endothelial barrier functions. Whether TRPV4 is also mechanistically implicated in melanoma cell proliferation is not clear. Here, we hypothesized that TRPV4 is expressed in human melanoma and that pharmacological activation interferes with cell proliferation.Methodology/Principal findingsTRPV4 functions were studied in melanoma cell lines (A375, SK-MEL-28, MKTBR), immortalized non-cancer keratinocytes (HaCaT), and murine 3T3 fibroblasts by patch-clamp, qRT-PCR, intracellular calcium measurements, cell proliferation, and flow cytometric assays of apoptosis and cell cycle. The selective TRPV4-activator, GSK1016790A, elicited non-selective cation currents with TRPV4-typical current-voltage-relationship in all cell lines. GSK1016790A-induced currents were blocked by the TRPV4-blocker, HC067047. TRPV4 mRNA expression was demonstrated by qRT-PCR. In A375 cells, TRPV4 activation was frequently paralleled by co-activation of calcium/calmodulin-regulated KCa3.1 channels. Light microscopy showed that TRPV4-activation produced rapid cellular disarrangement, nuclear densification, and detachment of a large fraction of all melanoma cell lines and HaCaT cells. TRPV4-activation induced apoptosis and drastically inhibited A375 and HaCaT proliferation that could be partially prevented by HC067047.Conclusions/SignificanceOur study showed that TRPV4 channels were functionally expressed in human melanoma cell lines and in human keratinocytes. Pharmacological TRPV4 activation in human melanoma cells and keratinocytes caused severe cellular disarrangement, necrosis and apoptosis. Pharmacological targeting of TRPV4 could be an alternative or adjuvant therapeutic strategy to treat melanoma progression and other proliferative skin disorders.
Highlights
The transient receptor potential channel subtype 4, transient receptor potential vanilloid-type 4 channel (TRPV4), is a poly-modally regulated channel with a considerable Ca2+-permeability that is capable of transducing a broad variety of physicochemical stimuli into intracellular calcium signals
Our study showed that TRPV4 channels were functionally expressed in human melanoma cell lines and in human keratinocytes
We show that human melanoma cell lines expressed functional TRPV4 channels and that the TRPV4-activator, GSK1016790A, caused a strong calcium-overload and cellular disarrangement, increased the rate of apoptosis, and strongly inhibited cell proliferation/survival
Summary
The transient receptor potential channel subtype 4, TRPV4, is a poly-modally regulated channel with a considerable Ca2+-permeability that is capable of transducing a broad variety of physicochemical stimuli into intracellular calcium signals Experimental proof-of-concept studies revealed that inhibition of TRPV4 was capable of preventing and resolving pulmonary edema caused by heart failure [11], while the TRPV4-activator, GSK1016790A, produces endothelial/epithelial barrier disruption, lung edema, and circulatory collapse in rodents [12,14]. TRPV4 channels have been implicated in the regulation of osmosensing, mechanotransduction, thermosensation, and epithelial/endothelial barrier functions. We hypothesized that TRPV4 is expressed in human melanoma and that pharmacological activation interferes with cell proliferation
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