BIOMAT Database Logo BIOMAT Database Logo

Studies on the function of cell surface glycoproteins. II. Possible role of surface glycoproteins in the control of cytoskeletal organization and surface morphology. 1979

C H Damsky, and D E Wylie, and C A Buck

Immunoglobulin from goat antiserum directed against purified surface membranes from transformed BHK21/C13 cells (anti-M) has been shown to cause both control and transformed hamster cells to round and detach from the substrate (see accompanying paper). This paper documents the effects of the antiserum on the cytoskeletal organization and cell surface morphology of control BHK21/C13 cells examined by scanning and transmission electron microscopy. As a result of antiserum-induced rounding, the normally smooth cell surface becomes covered with filopodia and blebs, and the organization of all three components of the filamentous cytoskeleton is altered. In terms of cell surface morphology and cytoskeletal organization, the cells resemble rounded, postmitotic or trypsinized BHK cells rather than cells treated with either anticytoskeletal drugs or lectins. Immunocytochemical and radioimmune assay experiments support the suggestion that the rounding reaction induced by anti-M serum results from the specific interaction of antibodies with molecules on the cell surface. It is suggested that anti-M serum induces alterations in cytoskeletal organization via a transmembrane signal and that cytoskeletal reorganization is a fundamental part of the rounding and detachment process.

UI MeSH Term Description Entries
D007136 Immunoglobulins Multi-subunit proteins which function in IMMUNITY. They are produced by B LYMPHOCYTES from the IMMUNOGLOBULIN GENES. They are comprised of two heavy (IMMUNOGLOBULIN HEAVY CHAINS) and two light chains (IMMUNOGLOBULIN LIGHT CHAINS) with additional ancillary polypeptide chains depending on their isoforms. The variety of isoforms include monomeric or polymeric forms, and transmembrane forms (B-CELL ANTIGEN RECEPTORS) or secreted forms (ANTIBODIES). They are divided by the amino acid sequence of their heavy chains into five classes (IMMUNOGLOBULIN A; IMMUNOGLOBULIN D; IMMUNOGLOBULIN E; IMMUNOGLOBULIN G; IMMUNOGLOBULIN M) and various subclasses. Globulins, Immune,Immune Globulin,Immune Globulins,Immunoglobulin,Globulin, Immune
D007668 Kidney Body organ that filters blood for the secretion of URINE and that regulates ion concentrations. Kidneys
D008565 Membrane Proteins Proteins which are found in membranes including cellular and intracellular membranes. They consist of two types, peripheral and integral proteins. They include most membrane-associated enzymes, antigenic proteins, transport proteins, and drug, hormone, and lectin receptors. Cell Membrane Protein,Cell Membrane Proteins,Cell Surface Protein,Cell Surface Proteins,Integral Membrane Proteins,Membrane-Associated Protein,Surface Protein,Surface Proteins,Integral Membrane Protein,Membrane Protein,Membrane-Associated Proteins,Membrane Associated Protein,Membrane Associated Proteins,Membrane Protein, Cell,Membrane Protein, Integral,Membrane Proteins, Integral,Protein, Cell Membrane,Protein, Cell Surface,Protein, Integral Membrane,Protein, Membrane,Protein, Membrane-Associated,Protein, Surface,Proteins, Cell Membrane,Proteins, Cell Surface,Proteins, Integral Membrane,Proteins, Membrane,Proteins, Membrane-Associated,Proteins, Surface,Surface Protein, Cell
D009363 Neoplasm Proteins Proteins whose abnormal expression (gain or loss) are associated with the development, growth, or progression of NEOPLASMS. Some neoplasm proteins are tumor antigens (ANTIGENS, NEOPLASM), i.e. they induce an immune reaction to their tumor. Many neoplasm proteins have been characterized and are used as tumor markers (BIOMARKERS, TUMOR) when they are detectable in cells and body fluids as monitors for the presence or growth of tumors. Abnormal expression of ONCOGENE PROTEINS is involved in neoplastic transformation, whereas the loss of expression of TUMOR SUPPRESSOR PROTEINS is involved with the loss of growth control and progression of the neoplasm. Proteins, Neoplasm
D002460 Cell Line Established cell cultures that have the potential to propagate indefinitely. Cell Lines,Line, Cell,Lines, Cell
D002462 Cell Membrane The lipid- and protein-containing, selectively permeable membrane that surrounds the cytoplasm in prokaryotic and eukaryotic cells. Plasma Membrane,Cytoplasmic Membrane,Cell Membranes,Cytoplasmic Membranes,Membrane, Cell,Membrane, Cytoplasmic,Membrane, Plasma,Membranes, Cell,Membranes, Cytoplasmic,Membranes, Plasma,Plasma Membranes
D002471 Cell Transformation, Neoplastic Cell changes manifested by escape from control mechanisms, increased growth potential, alterations in the cell surface, karyotypic abnormalities, morphological and biochemical deviations from the norm, and other attributes conferring the ability to invade, metastasize, and kill. Neoplastic Transformation, Cell,Neoplastic Cell Transformation,Transformation, Neoplastic Cell,Tumorigenic Transformation,Cell Neoplastic Transformation,Cell Neoplastic Transformations,Cell Transformations, Neoplastic,Neoplastic Cell Transformations,Neoplastic Transformations, Cell,Transformation, Cell Neoplastic,Transformation, Tumorigenic,Transformations, Cell Neoplastic,Transformations, Neoplastic Cell,Transformations, Tumorigenic,Tumorigenic Transformations
D005347 Fibroblasts Connective tissue cells which secrete an extracellular matrix rich in collagen and other macromolecules. Fibroblast
D006023 Glycoproteins Conjugated protein-carbohydrate compounds including MUCINS; mucoid, and AMYLOID glycoproteins. C-Glycosylated Proteins,Glycosylated Protein,Glycosylated Proteins,N-Glycosylated Proteins,O-Glycosylated Proteins,Glycoprotein,Neoglycoproteins,Protein, Glycosylated,Proteins, C-Glycosylated,Proteins, Glycosylated,Proteins, N-Glycosylated,Proteins, O-Glycosylated
D006224 Cricetinae A subfamily in the family MURIDAE, comprising the hamsters. Four of the more common genera are Cricetus, CRICETULUS; MESOCRICETUS; and PHODOPUS. Cricetus,Hamsters,Hamster

Related Publications

C H Damsky, and D E Wylie, and C A Buck
The effect of silica nanoparticle-modified surfaces on cell morphology, cytoskeletal organization and function.
October 2008, Biomaterials,
C H Damsky, and D E Wylie, and C A Buck
Cytoskeletal control of nuclear morphology and chromatin organization.
February 2015, Journal of molecular biology,
C H Damsky, and D E Wylie, and C A Buck
Action of tolytoxin on cell morphology, cytoskeletal organization, and actin polymerization.
January 1993, Cell motility and the cytoskeleton,
C H Damsky, and D E Wylie, and C A Buck
Hepatocyte adhesion to carbohydrate-derivatized surfaces. II. Regulation of cytoskeletal organization and cell morphology.
October 1991, The Journal of cell biology,
C H Damsky, and D E Wylie, and C A Buck
The possible role of glycoproteins in neural function.
January 1969, Perspectives in biology and medicine,
C H Damsky, and D E Wylie, and C A Buck
Control at the cell center: the role of spindle poles in cytoskeletal organization and cell cycle regulation.
November 2007, Cell cycle (Georgetown, Tex.),
C H Damsky, and D E Wylie, and C A Buck
Human endothelial cells in culture. Characterization of surface and matrix glycoproteins, protein translocation and cytoskeletal organization.
January 1985, Proceedings of the Finnish Dental Society. Suomen Hammaslaakariseuran toimituksia,
C H Damsky, and D E Wylie, and C A Buck
Role of surface glycoproteins in human platelet function.
February 1976, Thrombosis and haemostasis,
C H Damsky, and D E Wylie, and C A Buck
Organization of glycolipids and glycoproteins in surface membranes: dependency on cell cycle and on transformation.
July 1974, Biochemical and biophysical research communications,
C H Damsky, and D E Wylie, and C A Buck
Nanotopographic control of cytoskeletal organization.
May 2006, Langmuir : the ACS journal of surfaces and colloids,
Copied contents to your clipboard!