hNaa10p contributes to tumorigenesis by facilitating DNMT1-mediated tumor suppressor gene silencing
Chung-Fan Lee, … , Cheng-Wen Wu, Li-Jung Juan
Chung-Fan Lee, … , Cheng-Wen Wu, Li-Jung Juan
Published July 1, 2010
Citation Information: J Clin Invest. 2010;120(8):2920-2930. https://doi.org/10.1172/JCI42275.
View: Text | PDF
Research Article Oncology

hNaa10p contributes to tumorigenesis by facilitating DNMT1-mediated tumor suppressor gene silencing

Abstract

Hypermethylation-mediated tumor suppressor gene silencing plays a crucial role in tumorigenesis. Understanding its underlying mechanism is essential for cancer treatment. Previous studies on human N-α-acetyltransferase 10, NatA catalytic subunit (hNaa10p; also known as human arrest-defective 1 [hARD1]), have generated conflicting results with regard to its role in tumorigenesis. Here we provide multiple lines of evidence indicating that it is oncogenic. We have shown that hNaa10p overexpression correlated with poor survival of human lung cancer patients. In vitro, enforced expression of hNaa10p was sufficient to cause cellular transformation, and siRNA-mediated depletion of hNaa10p impaired cancer cell proliferation in colony assays and xenograft studies. The oncogenic potential of hNaa10p depended on its interaction with DNA methyltransferase 1 (DNMT1). Mechanistically, hNaa10p positively regulated DNMT1 enzymatic activity by facilitating its binding to DNA in vitro and its recruitment to promoters of tumor suppressor genes, such as E-cadherin, in vivo. Consistent with this, interaction between hNaa10p and DNMT1 was required for E-cadherin silencing through promoter CpG methylation, and E-cadherin repression contributed to the oncogenic effects of hNaa10p. Together, our data not only establish hNaa10p as an oncoprotein, but also reveal that it contributes to oncogenesis through modulation of DNMT1 function.

Authors

Chung-Fan Lee, Derick S.-C. Ou, Sung-Bau Lee, Liang-Hao Chang, Ruo-Kai Lin, Ying-Shiuan Li, Anup K. Upadhyay, Xiaodong Cheng, Yi-Ching Wang, Han-Shui Hsu, Michael Hsiao, Cheng-Wen Wu, Li-Jung Juan

×

Figure 7

DNMT1-dependent repression of E-cadherin by hNaa10p contributes to hNaa10p oncogenic ability.

Options: View larger image (or click on image) Download as PowerPoint
DNMT1-dependent repression of E-cadherin by hNaa10p contributes to hNaa1...
(A) hNaa10p inhibition of E-cadherin promoter activity was dependent on DNMT1. H1299 cells with lentivirus infection of si-scramble or si-DNMT1 were transfected with the luciferase reporter driven by the E-cadherin promoter, together with vector or hNaa10p-V5 expression plasmid, followed by luciferase assay. (B) E-cadherin promoter activity was only inhibited by transfected WT hNaa10p or hNaa10p mutant lacking aa 182–201, not by the mutant lacking DNMT1 binding region (aa 102 to 122). (C and D) Depletion of hNaa10p from H1299 cells increased mRNA (C) and protein (D) levels of E-cadherin gene. Quantified E-cadherin protein levels (relative to β-tubulin) are shown below the lane numbers. (E) Western blot showed that hNaa10p lacking DNMT1 interaction domain (aa 102–122) failed to repress E-cadherin protein level. (F) Knocking down E-cadherin partly rescued the colony formation ability inhibited by depleting hNaa10p. The indicated siRNAs were cotransfected into H1299 cells, followed by colony formation assay. All data in A, B, C, and F are mean ± SD from 3 independent experiments. *P < 0.05.