Bone morphogenetic protein 2 (BMP2) has been shown to modulate the proliferation and differentiation of breast cancer cells. However, the biochemical effects and mechanisms remain unknown. In this paper, the effects of recombinant human BMP2 on the migration of MCF-7 cells-one breast cancer cell line, using transwell and wound healing experiments, as well as on the cellular morphology, cytoskeleton, cell surface adhesion, and stiffness detected at subcellular level by an atomic force microscope, were investigated. After BMP2 treatment, the untreated round-shaped MCF-7 cells transformed to a spindle-like shape with lots of specialized structures, such as lamellipodia, filopodia, membrane protrusions, and others, which are essential for cellular migration or spreading. Moreover, flow cytometry quantitatively detected the BMP2-induced changes in the expression of adhesion molecules, a significant rise of CD44, and a remarkable drop of E-cadherin. The data indicated that BMP2 promoted the migration and invasion of MCF-7 cells by regulating the reorganization of cytoskeleton and the expression of adhesion molecules in/on the cells. Thus, it is very imperative to evaluate the oncogenicity of BMP2 when used in tissue engineering.
Summary:The rigidity/stiffness is an important biomechanical property of bacteria and potentially correlated with many bacterial activities. While the rigidity or fluidity of the bacterial membrane has been extensively studied, the contributions of different bacterial substructures to the bacterial rigidity are less investigated. Here, we utilized four Escherichia coli (E. coli) strains with different membrane lipid compositions and three antibacterial drugs (EDTA, lysozyme, and streptomycin) to specifically alter bacterial substructures. By using atomic force microscopy (AFM), we found that the average height and Young's modulus of phosphatidylethanolamine (PE)-deficient E. coli strains were larger than those of PE þ strains and that EDTA, EDTA plus lysozyme instead of lysozyme alone, and streptomycin all caused significant decreases in height and Young's modulus of the four E. coli strains. Our data imply that membrane lipid composition, the integrated outer membrane, the cell wall, and the cytoplasmic content are all responsible for bacterial rigidity but to different extents. SCANNING 38:70-79, 2016.
Summary:The integrity and adhesion properties of endothelium play vital roles during atherosclerosis. It is well known that oxidized low-density lipoprotein (Ox-LDL) influences many physiological activities or mechanical properties of endothelial cells. However, the effects of Ox-LDL on the integrity and nonspecific adhesion properties of endothelial cells are still unclear. In this study, using the topographical imaging and force measurement functions of atomic force microscopy (AFM), we found that Ox-LDL can transiently weaken the integrity of endothelium by impairing cell spreading of endothelial cells and decrease the attachment of irrelevant blood cells to endothelium by impairing the nonspecific adhesion property of endothelial cells. The AFM-based data provide important information for understanding the effects of Ox-LDL on endothelial cells or during atherogenesis. SCANNING 00: 1-8, 2012. C 2012 Wiley Periodicals, Inc.
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