Vasopressin (AVP) is a hormone with antidiuretic properties that is also involved in cellular proliferation of breast, pulmonary, and pancreatic neoplasias, attributable to the interaction with specific receptors, among which is the V2-R. Using a culture model of CAKI-2 and A498 cancer cells, our study aimed to verify if renal carcinoma cells also express V2-R and whether receptor activation modulates their proliferation. Immunofluorescence and RT-PCR showed that both CAKI-2 and A498 cells effectively synthesize and express the V2-R. Administration of the vasopressin analogue DDAVP induced an evident growth in both CAKI-2 and A498 cell lines. However, this proliferative effect was completely avoided by the preventive addition of the V2-R antagonist SR121463B (satavaptan). Our study shows for the first time that renal cancer may effectively synthesize and express the V2-R. Furthermore, AVP exerts in vitro a proliferative effect by acting on this receptor, as the selective V2-R blockage is able to completely prevent the cellular growth. A validation of these findings with in vivo models is required to ascertain if the eventual presence of V2-R could influence the aggressiveness of human renal neoplasias. From this point of view, a new, interesting therapeutical application of V2-R antagonists in the treatment of renal cancer could also be proposed, similar to that successfully described in the treatment of autosomal polycystic kidney disease (ADPKD).
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