Substrate-Dependent Activity of ERK and MEK Proteins in Breast Cancer (MCF7), and Kidney Embryonic (Hek-293) Cell Lines, Cultured on Different Substrates

Background: Breast cancer has been one of the most common types of cancer, as the leading cause of women death in world. Breast cancer has known as a heterogenic disease that the clinical path in different patients would be very different. Since the current classification has not covered the diverse clinical course of breast cancer, lots of efforts has done to find new biological markers. Integrins are hetero dimmer proteins of α and β subunits on cell membrane. After binding to extra cellular matrix (ECM), integrins activate MAPK pathway that regulated different activities like survival, differentiation, migration, immunologic response. The interaction of integrins and ECM have a key role in cancer cell activities like survival and metastasis. Objectives: In this study the expression of αvβ3 integrin, substrate -dependent morphology and ERK and p-ERK activation was compared in MCF7 and Hek-293 cells lines. Materials and Methods: The expression of αvβ3 integrin was assayed by flow cytometry. These cell lines were cultured on pre-covered plates with fibronectin (FN), fibrinogen (Fg) or collagen (Col) and the expression of ERK and p-ERK proteins was assessed in attached and free cells for each substrate after 1 hour incubation. The morphology of the cells have examined under an inverted phase contrast microscope at 15 min, 1 hour, 3 hours, 5 hours and 1 day of incubatioon. Results: Different substrate induced the expression ERK or p-ERK differently in the two cell lines. In MCF7 cells, substrates induced the expression of ERK in all the attached cells but free cells in BSA, collagen and Fg showed a lower expression of ERK. In comparison with Hek-293 cells althought all the attached cells have expressed ERK peotein but only free cells in collagen plates showed the expression of ERK. None of the cell lines has shown any expression of ERK and p-ERK in attached or free cells except for the Hek-293 free cells in collagen platees that have shown a weak signal for p-ERK. Conclusions: Overall the breast cancer cell lines MCF7 and Hek-293 cells have differently responded on similar substrates regarding morpology or ERK and MEK expressions.