Exposure of
cancer cells to
anticancer agents in cultures induces detachment of cells that are usually considered dead. These
drug-induced detached cells (D-IDCs) may represent a clinical problem for
chemotherapy since they may survive anoikis, enter the circulation, invade other tissues and resume proliferation, creating a
metastasis, especially in tissues where the bioavailability of
anticancer agents is not enough to eliminate all
cancer cells. In this study we evaluated the antiproliferative effect of menadione : sodium
orthovanadate (M : SO) combination on A549
lung cancer cells as well as the ability of M : SO to induce cell detachment. In addition, we followed the fate and chemosensitivity of M : SO-induced detached cells. Using transwell chambers, we found that a fraction of the M : SO-induced detached cells were viable and, furthermore, were able to migrate, re-attach, and resume proliferation when re-incubated in
drug-free media. The total elimination of A549 detachment-resistant cells and M : SO-induced detached cells were successfully eliminated by equivalent M : SO concentration (17.5 μM : 17.5 μM). Thus, M : SO prevented cell migration. Similar results were obtained on DBTRG.05MG human
glioma cells. Our data guarantee further studies to evaluate the in vivo occurrence of D-IDCs, their implications for invasiveness and
metastasis and their sensitivity to anticancer drugs.