Zinc stabilizes adenomatous polyposis coli (APC) protein levels and induces cell cycle arrest in colon cancer cells

Abstract

In the present study, we investigated the mechanisms by which zinc causes growth arrest in colon cancer cells. The results suggest that zinc treatment stabilizes the levels of the wild-type adenomatous polyposis coli (APC) protein at the post-translational level since the APC mRNA levels and the promoter activity of the APC gene were decreased in HCT-116 cells (which express the wild-type APC gene) after treatment with ZnCl₂. Increased levels of wild-type but not truncated APC proteins were required for the ZnCl₂-mediated G₂/M phase arrest in different colon cancer cell lines. We further tested whether serum-stimulation, which induces cell cycle arrest in the S phase, can relieve ZnCl₂-induced G₂/M phase arrest of HCT-116 cells. Results showed that in the HCT-116 cells pretreated with ZnCl₂, the serum-stimulation neither changed the distribution of G₂/M phase arrested cells nor the increased levels of APC protein. The G₂/M phase arrest correlated with retarded growth of HCT-116 cells. To further establish that wild-type APC protein plays a role in ZnCl₂-induced G₂/M arrest, we treated SW480 colon cancer cells that express truncated APC protein. We found that ZnCl₂ treatment did not induce G₂/M phase arrest in SW480 cells; however, the cell growth was retarded due to the loss of E-cadherin and α-tubulin levels. These results suggest that ZnCl₂ inhibits the proliferation of colon cancer cells (which carry the wild-type APC gene) through stabilization of the APC protein and cell cycle arrest in the G₂/M phase. On the other hand, ZnCl₂ inhibits the proliferation of colon cancer cells (which carry the mutant APC gene) by disrupting cellular attachment and microtubule stability.