erential of the ROT spectrum. The CRF method permits accurate and rapid determination of the maximum rotation frequency fc1, at which hV/hf = 0 and the cell stop rotating. In the CRF experiments, 10 mL of cell suspension was added to a fourelectrode chamber described previously. The electrode spacing was,1.2 mm. The chamber is open at the top for rapid sample replacement. The cells were viewed with an inverted LeitzLabovert microscope through a 1006 oil-immersion objective. Cell radii were determined with a calibrated eyepiece micrometer. Conductivity within the chamber was monitored by a conductometer connected to two opposite electrodes. The ROT spectra of living cells can be presented as a superposition of several Lorentzian curves caused by the Maxwell-Wagner dispersions at the various dielectric interfaces, e.g. at the plasma and nuclear membranes: N P 2Ai f =fci 2 Materials and Methods Cell Culture The set of 5 human glioblastoma cell lines studied here includes DK-MG, GaMG, U87-MG, U373-MG, and SNB19 cells. All cell lines were obtained from ATCC and routinely cultured under standard conditions in Complete Growth Medium, which was either Dulbecco’s modified Eagle’s medium or minimum essential medium, supplemented with 10% FBS. Mutations of the tumor suppressors PTEN and p53 in the tested cell lines are summarized in Scanning Electron Microscopy For SEM, cells were seeded on microscope cover glass and fixed by addition of 6.25% glutaraldehyde in 50 mM phosphate buffer for 10 min at RT and subsequently at 4uC overnight. Excessive Membrane Folding in Glioblastoma Cells The theory of single cell electrorotation gives the following relationship between the characteristic frequency of anti-field electrorotation fc1, the cell radius a, the area-specific membrane capacity Cm and conductance Gm : se SaT:Gm z f c1:a~: p Cm 2p:Cm 2 where,a. is the mean cell radius, se is the external 3 Excessive Membrane Folding in Glioblastoma Cells conductivity of suspending medium, which is assumed to be held so low that se,,si. The membrane parameters Cm and Gm can be extracted by fitting Eq. 2 to the data plotted against se. Given that smooth plasma membrane has a capacitance of Cm0 < 0.8 mF/cm2, an effective folding factor can be introduced as Q = Cm/C0. The folding factor Q describes the ratio of the actual cell membrane surface area to that of a smooth sphere of the same radius. From the Cm and radius data, the whole-cell capacitance CC was also calculated as: CC ~4p:a2:Cm ~:4p:a2:Cm0 3 Heidelberg, Germany), mouse monoclonal anti-MDM2 , mouse monoclonal anti-b-actin. Secondary species-specific antibodies for Western blot were labelled with horseradish-peroxidase. Results Scanning Electron Microscopy The SEM images of adherently growing GBM cells reveal complex cell surface topography in all 5 cell lines. Depending on the cell line, the GBM cells exhibited various types of membrane protrusions, including microvilli, blebs and PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19649022 BAY 41-2272 filopodia. As seen in the microphotographs, the formation of microvilli on the apical membrane varies greatly not only among cell lines, but also from cell to cell within a particular sample. Many U373-MG and SNB19 cells were found to possess dense microvilli distributed evenly over the entire cell surface. In contrast, the plasma membrane of DK-MG cells displayed many bud-like surface protrusions and irregular clusters of microvilli, and appeared much smoother than U87-MG and SNB19 cells. In addition to their complex apical top
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