Abstract
Drug resistance mechanisms still characterize metastatic melanoma, despite the new treatments that have been recently developed. Targeting of the cGMP/protein kinase G pathway is emerging as a therapeutic approach in cancer research. In this study, we evaluated the anticancer effects of two polymeric-linked dimeric cGMP analogs able to bind and activate protein kinase G, called protein kinase G activators (PAs) 4 and 5. PA5 was identified as the most effective compound on melanoma cell lines as well as on patient-derived metastatic melanoma cells cultured as three-dimensional spheroids and in a zebrafish melanoma model. PA5 was able to significantly reduce cell viability, size, and invasion of melanoma spheroids. Importantly, PA5 showed a tumor-specific outcome because no toxic effect was observed in healthy melanocytes exposed to the cGMP analog. We defined that by triggering protein kinase G, PA5 interfered with the EGF pathway as shown by lower EGFR phosphorylation and reduction of activated, phosphorylated forms of protein kinase B and extracellular signal‒regulated kinase 1/2 in melanoma cells. Finally, PA5 significantly reduced the metastatic process in zebrafish. These studies open future perspectives for the cGMP analog PA5 as a potential therapeutic strategy for melanoma.
Highlights
Melanoma is one of the most aggressive, complex, and deadliest types of cancer (Andor et al, 2016), and its worldwide incidence has been increasing annually at a more rapid rate than any other type of cancer (Ali et al, 2013)
High amounts of protein kinase G (PKG)-Ia protein were found in WM115 compared with those in spheroids derived from the other melanoma cell lines, whereas all types of patient’s metastatic spheroids expressed the PKG-Ia isoform at similar levels
We identified two polymeric-linked dimeric (PLD) cGMP analogs (PA4 and PA5) as unidentified compounds able to reduce cell viability in melanoma cell lines cultured in two-dimensional conditions, and their effects were associated with the activation of PKG-II (Vighi et al, 2018)
Summary
Melanoma is one of the most aggressive, complex, and deadliest types of cancer (Andor et al, 2016), and its worldwide incidence has been increasing annually at a more rapid rate than any other type of cancer (Ali et al, 2013). Received 14 January 2021; revised 7 May 2021; accepted 18 June 2021; accepted manuscript published online 13 July 2021; corrected proof published online 3 August 2021 have increased overall patient survival, the prognosis for metastatic melanoma remains dismal owing to the occurrence of resistance mechanisms (Cosgarea et al, 2017; RodrıguezCerdeira et al, 2017). Given this evidence, there is an elevated medical need for new therapeutic strategies
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