74, P <  0008 for interleukin-6, 0 60, P = 002 for COX2, 0 67, P

74, P < .0008 for interleukin-6, 0.60, P = .002 for COX2, 0.67, P = .0065 for VEGFA, and 0.82, P = .032 for CCL2, respectively). Up-regulation

of c-Myc expression has been reported to occur in a majority of ccRCC cases [42] and [43], although amplification of the MYC gene is only found in a small subset of cases  [42] and [44] leading to the assumption that c-Myc is activated by other mechanisms in addition to amplification. We observed strong c-Myc down-regulation on YAP knockdown in MZ1774 cells. c-Myc knockdown by siRNA in ccRCC cell lines leads to a phenotype that resembles that of YAP knockdown with marked inhibition of proliferation and anchorage-independent growth [42]. c-Myc expression is stimulated by EDN1 through MAPK signaling in neoplastic cells [45] and [46], and our data show inhibition of the MAPK

GDC 0449 signaling pathway along with EDN1 and concomitant c-Myc down-regulation on YAP knockdown in MZ1774 and A498 cells, whereas mRNA expression levels of these genes were not DAPT cell line affected in ACHN cells, indicating that c-Myc might additionally be an indirect target of YAP, downstream of EDN1 in ccRCC. However, the MYC-promoter region features GT-IIC consensus sequences as potential binding sites for the YAP/TEAD complex, and indeed, these regions are enriched in ChIPs selleck inhibitor of MZ1774 lysates, underscoring the primary direct relationship. Previous studies have also found pronounced c-Myc up-regulation on overexpression of YAP in the murine liver [3]. CDH6 mRNA expression was found to be upregulated in MZ1774 YAP knockdown cells. Normal renal epithelium and RCC express multiple members of the cadherin family in a distinct pattern with E-cadherin being expressed in Bowman’s capsule and all tubular segments

except the proximal convoluted and straight tubules [47]. Consequently, E-cadherin expression frequency in RCC is lower than in other cancers and even low-grade tumors infrequently express E-cadherin [48]. Conversely, CDH6 is expressed in proximal renal tubules and RCC, especially when E-cadherin is absent, and seems partly to take over E-cadherin function [49]. Detectable CDH6 mRNA from circulating tumor cells in the peripheral blood of patients with RCC has been proposed as a prognostic marker associated with increased risk of metastasis [49] and [50] hinting not necessarily at an active role of the CDH6 protein in metastasis but rather highlighting the inadequate ability of CDH6 to replace E-cadherin in cell adhesion. Up-regulation of the cell adhesion molecule CDH6 in response to YAP knockdown is therefore not contradictory to a less invasive phenotype.

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