Larisa V. Gordeeva scite author profile

Larisa V. Gordeeva

4Publications

12Citation Statements Received

35Citation Statements Given

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Affiliations

Lomonosov Moscow State University

Publications

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Restoration of adhesive potentials of Ehrlich ascites carcinoma cells by modification of plasma membrane

Bogdanov

Gordeeva

Baibakov

et al. 1991

Journal Cellular Physiology

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A novel technique for modulating the spreading of ascites cells has been developed. Plasma membranes of Ehrlich ascites carcinoma cells were modified in two different ways: 1) biotin residues were covalently coupled to membrane components; 2) biotinylated lipid was introduced into plasma membrane. Adhesion and spreading of modified cells on avidin-coated substrates were studied and compared to those of non-modified cells. Both types of membrane alteration were shown to induce specific (biotin-dependent) interaction with immobilized avidin with resultant cell spreading. Spread cells attained epithelioid-like morphology with the formation of wide thin lamellae, focal contacts with substrate, and circular actin bundles. The process of spreading was shown to be energy-dependent: it could be blocked by metabolic inhibitors and by low temperature. Formation of extended lamellae was prevented by preincubation of cells in the presence of cytochalasin B. The effects of metabolic poisons, low temperature, and microfilament--disruptive drugs were reversible and after the restoration of physiological conditions the cells resumed the spreading process. Immunoprecipitation of biotinylated cell lysates with antiserum to cytoplasmic domain of beta 1-integrin subunit revealed a major 110 kD avidin-binding component. We conclude that lack of spreading of ascites carcinoma cells may be explained by the lack of functionally active adhesion- and spreading-competent cell-surface receptors, but may not be attributed to the defects in intracellular function or organization. Intracellular machinery of cell spreading is preserved in these ascites cells and could be turned on by cell attachment to the substrate via artificial adhesive site incorporated into plasma membrane.

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Lectin-bearing liposomes: Differential binding to normal and to transformed mouse fibroblasts

Bogdanov

Gordeeva

Torchilin

et al. 1989

Experimental Cell Research

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Adhesion defect of ascites cells corrected with membrane‐bound attachment molecules

Gordeeva¹,

Bogdanov²,

Baibakov³

et al. 1988

FEBS Letters

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Adhesion is obligatory for cell proliferation in most types of cells. This function becomes defective after malignant transformation. An extreme example is ascites cells which proliferate in suspension. The nature of their defects remains obscure. Here we show that the linking of biotin molecules to the Ehrlich ascites carcinoma cells enables these cells to spread normally on an avidin-coated substrate. The spreading was the result of specific avidin-biotin interaction. The morphology of the spread cells and sensitivity to different inhibitors are similar to those of normal epithelia. Thus it is enough to supply appropriate substrate-adhesive molecules to the ascites cell surface to normalize their adhesion.

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LACTIC ACID BIOSYNTHESIS BY A RECOMBINANT YEAST STRAIN OF Schizosaccharomyces pombe AT LOW pH IN THE FERMENTATION BROTH

Федоров¹,

Gordeeva²,

Борщевская³

et al. 2015

Biotehnologiâ (Mosk.)

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