Doxorubicin Promotes Migration and Invasion of Breast Cancer Cells through the Upregulation of the RhoA/MLC Pathway / 한국유방암학회지

PURPOSE: Cancer cells develop acquired resistance induced by chemotherapeutic drugs. In this study, we investigated the effects of brief treatment with cytotoxic drugs on the phenotype of breast cancer cells. METHODS: Breast cancer cells MCF7 and BT-474 were briefly treated with paclitaxel or doxorubicin. Clonogenic, migration, and invasion assays were performed on the treated cells. Western blot analysis and RhoA activity assay were also performed. RESULTS: Breast cancer cells when briefly treated with paclitaxel or doxorubicin showed reduced clonogenic ability. Doxorubicin, but not paclitaxel, augmented cell migration and invasion. The invasion-promoting effects of doxorubicin were lost when the two drugs were sequentially used in combination. Myosin light chain (MLC) 2 phosphorylation and RhoA activity were upregulated by doxorubicin and downregulated by paclitaxel. Pretreatment with RhoA inhibitors abolished the migration- and invasion-promoting effects of doxorubicin. CONCLUSION: Doxorubicin activates the RhoA/MLC pathway and enhances breast cancer cell migration and invasion. Therefore, this pathway might be explored as a therapeutic target to suppress anthracycline-enhanced tumor progression.

Identification and biochemical characterization of a unique Mn2+-dependent UMP kinase from Helicobacter pylori.

Uridine monophosphate (UMP) kinase converts UMP to the corresponding UDP in the presence of metal ions and ATP and is allosterically regulated by nucleotides such as UTP and GTP. Although the UMP kinase reported to date is Mg(2+)-dependent, we found in this study that the UMP kinase of Helicobacter pylori had a preference for Mn(2+) over Mg(2+), which may be related to a conformational difference between the Mn(2+)-bound and Mg(2+)-bound UMP kinase. Similar to previous findings, the UMP kinase activity of H. pylori UMP kinase was inhibited by UTP and activated by GTP. However, a relatively low GTP concentration (0.125 mM) was required to activate H. pylori UMP kinase to a level similar to other bacterial UMP kinases using a higher GTP concentration (0.5 mM). In addition, depending on the presence of either Mg(2+) or Mn(2+), a significant difference in the level of GTP activation was observed. It is therefore hypothesized that the Mg(2+)-bound and Mn(2+)-bound H. pylori UMP kinase may be activated by GTP through different mechanisms.