293T cells were transfected

293T cells were transfected Bioactive Compound Library screening with either FLAG-SV1 or FLAG-KLF6. Coimmunoprecipitation using α-FLAG beads, followed by immunoblotting with a KLF6 polyclonal antibody that detects both KLF6 and SV1 protein, was performed. In the cells transfected with FLAG-SV1, endogenous KLF6 was recovered and, conversely, in

the cells transfected with FLAG-KLF6 SV1 was recovered, documenting physical interaction between SV1 and KLF6 (Fig. 6). To date, Ras-induced SV1 has been shown to decrease KLF6 promoter occupancy.16, 22 We confirmed the antagonistic function of SV1 to KLF6 by assessing the impact of SV1 on the transcriptional activity of KLF6 in cell culture using the p21 promoter, a well-validated direct transcriptional target of KLF6.5 In both 293T (Fig. 7A), and HUH7 cells Wnt inhibitor (Fig. 7B), transfection of FLAG-SV1 alone did not affect p21 activity, whereas cotransfection of FLAG-SV1 with FLAG-KLF6 significantly reduced the increase in p21-luciferase activity induced by FLAG-KLF6 alone (P < 0.05). Similar to

transfected cells, p21 protein levels were decreased in primary hepatocytes from our AlbCre Klf6fl(+/+)- and SV1 AlbCre Klf6fl(+/+) mice in comparison with the Klf6fl(+/+) hepatocytes with endogenous Klf6 (Fig. 7C). Moreover, in primary hepatocytes from Klf6fl(+/+) mice transduced with either AdenoCre virus or pBabe- or pBabeSV1 lentivirus, respectively, Klf6 depletion was also associated with a decrease in p21 protein levels (Fig. 7D). These findings confirm p21 as a transcriptional target of KLF6 and establish a bona fide antagonistic function of SV1. Because SV1 is localized primarily in the cytoplasm26 and can interact with KLF6, we hypothesized that SV1 antagonizes KLF6 by accelerating its degradation in the cytoplasm. To test this hypothesis, increasing amounts of FLAG-SV1 上海皓元医药股份有限公司 cDNA were cotransfected with a constant amount of FLAG-KLF6. This led to an SV1-dependent decrease in KLF6 protein in both

293T (Fig. 8A), and HUH7 cells (Fig. 8C), without affecting KLF6 RNA levels (not shown), which was quantified in four 293T immunoblots (Fig. 8B, P < 0.05). To assess if decreased KLF6 protein was due to accelerated degradation of KLF6, 293T cells were cotransfected with either pCI-neo-GFP+FLAG-KLF6 or FLAG-SV1+FLAG-KLF6, and protein was collected 24 hours after transfection and at 0, 15, 30, and 60 minutes after adding cycloheximide (Fig. 8D,E). In the presence of SV1, KLF6 protein levels at baseline were significantly lower (Fig. 8E, P < 0.05) and KLF6 degradation was accelerated 60 minutes after adding cycloheximide (Fig. 8E, P < 0.005). The accelerated degradation was inhibited by adding the proteasomal inhibitor MG132 (Fig. 8D,F), indicating that SV1 accelerates the proteasomal degradation of KLF6.

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