Julian Borejdo scite author profile

C17orf37/MGC14832, a novel gene located on human chromosome 17q12 in the ErbB-2 amplicon, is abundantly expressed in breast cancer. C17orf37 expression has been reported to positively correlate with grade and stage of cancer progression; however the functional significance of C17orf37 overexpression in cancer biology is not known. Here, we show that C17orf37 is highly expressed in prostate cancer cell lines and tumors, compared to minimal expression in normal prostate cells and tissues. Cellular localization studies by confocal and TIRF microscopy revealed predominant expression of C17orf37 in the cytosol with intense staining in the membrane of prostate cancer cells. RNA interference mediated downregulation of C17orf37 resulted in decreased migration and invasion of DU-145 prostate cancer cells, and suppressed the DNA binding activity of NF-κB transcription factor resulting in reduced expression of downstream target genes MMP-9, uPA and VEGF. Phosphorylation of PKB/Akt was also reduced upon C17orf37 downregulation, suggesting C17orf37 acts as a signaling molecule that increases invasive potential of prostate cancer cells by NF-κB mediated downstream target genes. Our data strongly suggest C17orf37 overexpression in prostate cancer functionally enhances migration and invasion of tumor cells, and is an important target for cancer therapy.

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Distribution of actin filament lengths measured by fluorescence microscopy

Burlacu

Janmey

Borejdo

1992

American Journal of Physiology-Cell Physiology

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We analyzed the distribution of actin filament lengths by optical microscopy (OM). OM avoids possible alterations in the size or structure of actin filaments occurring during sample preparation for electron microscopy (EM). Images of F-actin labeled with tetramethylrhodamine isothiocyanate (TRITC)-phalloidin were analyzed for both size distribution and flexibility. In the standard buffer [25 mM potassium acetate, 4 mM MgSO4, 25 mM tris(hydroxymethyl)aminomethane acetate, pH 7.5, 20 mM beta-mercaptoethanol] filaments did not aggregate into bundles and remained stable at nanomolar concentrations for at least 1 h. At the same concentration, actin labeled directly with rhodamine (no phalloidin) formed unstable filaments whose average length decreased with time. The number average length of TRITC-phalloidin labeled filaments (Ln) was 4.90 microns, the ratio (rho) of the weight average length to the number average length was 2.06, and the correlation length (1/lambda) was 8.33 microns. These parameters were in good agreement with the values determined by EM for filaments shorter than 8 microns. Passing G-actin through a Sephadex G-150 column before polymerization did not have a significant effect on the distribution of lengths but made filaments more stiff (1/lambda = 12.5 microns). Millimolar concentration of ATP increased the correlation length, and gelsolin had the expected fragmenting effect on filaments. These results show that OM can be used as a fast and reliable method to analyze the distribution and flexibility of actin filaments and suggest that, in spite of extensive manipulation of actin filaments during sample preparation, EM is a valid tool for determination of size parameters of actin filaments.

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Application of Surface Plasmon Coupled Emission to Study of Muscle

Borejdo

Gryczyński

Calander

et al. 2006

Biophysical Journal

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Muscle contraction results from interactions between actin and myosin cross-bridges. Dynamics of this interaction may be quite different in contracting muscle than in vitro because of the molecular crowding. In addition, each cross-bridge of contracting muscle is in a different stage of its mechanochemical cycle, and so temporal measurements are time averages. To avoid complications related to crowding and averaging, it is necessary to follow time behavior of a single cross-bridge in muscle. To be able to do so, it is necessary to collect data from an extremely small volume (an attoliter, 10(-18) liter). We report here on a novel microscopic application of surface plasmon-coupled emission (SPCE), which provides such a volume in a live sample. Muscle is fluorescently labeled and placed on a coverslip coated with a thin layer of noble metal. The laser beam is incident at a surface plasmon resonance (SPR) angle, at which it penetrates the metal layer and illuminates muscle by evanescent wave. The volume from which fluorescence emanates is a product of two near-field factors: the depth of evanescent wave excitation and a distance-dependent coupling of excited fluorophores to the surface plasmons. The fluorescence is quenched at the metal interface (up to approximately 10 nm), which further limits the thickness of the fluorescent volume to approximately 50 nm. The fluorescence is detected through a confocal aperture, which limits the lateral dimensions of the detection volume to approximately 200 nm. The resulting volume is approximately 2 x 10(-18) liter. The method is particularly sensitive to rotational motions because of the strong dependence of the plasmon coupling on the orientation of excited transition dipole. We show that by using a high-numerical-aperture objective (1.65) and high-refractive-index coverslips coated with gold, it is possible to follow rotational motion of 12 actin molecules in muscle with millisecond time resolution.

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Julian Borejdo

Cross-bridge orientation in skeletal muscle measured by linear dichroism of an extrinsic chromophore

Novel gene C17orf37 in 17q12 amplicon promotes migration and invasion of prostate cancer cells

Distribution of actin filament lengths measured by fluorescence microscopy

Application of Surface Plasmon Coupled Emission to Study of Muscle

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