Characterization of T ‐DM1‐resistant breast cancer cells

AbstractThe development of targeted therapies has drastically improved the outcome of patients with different types of cancer. T ‐DM1 (trastuzumab‐emtansine) is an antibody‐drug conjugate used for the treatment of HER2‐positive breast cancer combining the FDA approved mAb (monoclonal antibody) trastuzumab and the microtubule cytotoxic agent DM1 (emtansine). Despite clinical successes achieved by targeted therapies, a large number of patients develop resistance during treatment. To explore mechanisms of resistance to T‐DM1, the MDA‐MB‐361 HER2‐positive breast cancer cell line was exposed in vitro to T‐DM1 in the absence or presence of ciclosporin A. Previously reported mechanisms of resistance such as t rastuzumab‐binding alterations, MDR1 upregulation, and SLC46A3 downregulation were not observed in these models. Despite a decrease in HER2 expression at the cell surface, both resistant cell lines remained sensitive to HER2 targeted therapies such as mAbs and tyrosine kinase inhibitors. In additi on, sensitivity to DNA damaging agents and topoisomerase inhibitors were unchanged. Conversely resistance to anti‐tubulin agents increased. Resistant cells displayed a decreased content of polymerized tubulin and a decreased content of βIII tubulin although the downregulation of βIII tubulin by siRNA in the parental cell line did not modified the sensitivity to T‐DM1. Both cell lines resistant to T‐DM1 also presented giant aneuploid cells. Several SLC (solu...
Source: Pharmacology Research and Perspectives - Category: Drugs & Pharmacology Authors: Tags: ORIGINAL ARTICLE Source Type: research