BIOMAT Database Logo BIOMAT Database Logo

Actin in B16 melanoma cells of differing metastatic potential. Effects of trypsin and serum. 1987

T C Holme, and T P Koestler, and N Crawford

Actin is present in cells in monomeric and polymeric (filamentous) forms. Filamentous actin is distributed in Triton-soluble (cytosolic) and Triton-insoluble (cytoskeletal core) fractions. We have used the DNase 1 inhibition assay and immunofluorescence to investigate the distribution of actin in monomeric and polymeric forms in cloned B16 murine melanoma cell lines of low and high metastatic capacity. The protease trypsin caused rounding up and detachment of both cell lines within 5 min. This was associated with almost complete depolymerization of cytosolic actin filaments but the Triton-insoluble cytoskeleton was not quantitatively affected by trypsin treatment. There were quantitative differences between the clones in their response to incubation in the presence or absence of 10% serum. The highly metastatic cell line contained 35% more actin when incubated in the presence of 10% serum, almost completely distributed to the Triton-insoluble cytoskeleton, an effect not seen in the low metastatic cells.

UI MeSH Term Description Entries
D008545 Melanoma A malignant neoplasm derived from cells that are capable of forming melanin, which may occur in the skin of any part of the body, in the eye, or, rarely, in the mucous membranes of the genitalia, anus, oral cavity, or other sites. It occurs mostly in adults and may originate de novo or from a pigmented nevus or malignant lentigo. Melanomas frequently metastasize widely, and the regional lymph nodes, liver, lungs, and brain are likely to be involved. The incidence of malignant skin melanomas is rising rapidly in all parts of the world. (Stedman, 25th ed; from Rook et al., Textbook of Dermatology, 4th ed, p2445) Malignant Melanoma,Malignant Melanomas,Melanoma, Malignant,Melanomas,Melanomas, Malignant
D008810 Mice, Inbred C57BL One of the first INBRED MOUSE STRAINS to be sequenced. This strain is commonly used as genetic background for transgenic mouse models. Refractory to many tumors, this strain is also preferred model for studying role of genetic variations in development of diseases. Mice, C57BL,Mouse, C57BL,Mouse, Inbred C57BL,C57BL Mice,C57BL Mice, Inbred,C57BL Mouse,C57BL Mouse, Inbred,Inbred C57BL Mice,Inbred C57BL Mouse
D009362 Neoplasm Metastasis The transfer of a neoplasm from one organ or part of the body to another remote from the primary site. Metastase,Metastasis,Metastases, Neoplasm,Metastasis, Neoplasm,Neoplasm Metastases,Metastases
D001769 Blood The body fluid that circulates in the vascular system (BLOOD VESSELS). Whole blood includes PLASMA and BLOOD CELLS.
D002460 Cell Line Established cell cultures that have the potential to propagate indefinitely. Cell Lines,Line, Cell,Lines, Cell
D002999 Clone Cells A group of genetically identical cells all descended from a single common ancestral cell by mitosis in eukaryotes or by binary fission in prokaryotes. Clone cells also include populations of recombinant DNA molecules all carrying the same inserted sequence. (From King & Stansfield, Dictionary of Genetics, 4th ed) Clones,Cell, Clone,Cells, Clone,Clone,Clone Cell
D003470 Culture Media Any liquid or solid preparation made specifically for the growth, storage, or transport of microorganisms or other types of cells. The variety of media that exist allow for the culturing of specific microorganisms and cell types, such as differential media, selective media, test media, and defined media. Solid media consist of liquid media that have been solidified with an agent such as AGAR or GELATIN. Media, Culture
D003599 Cytoskeleton The network of filaments, tubules, and interconnecting filamentous bridges which give shape, structure, and organization to the cytoplasm. Cytoplasmic Filaments,Cytoskeletal Filaments,Microtrabecular Lattice,Cytoplasmic Filament,Cytoskeletal Filament,Cytoskeletons,Filament, Cytoplasmic,Filament, Cytoskeletal,Filaments, Cytoplasmic,Filaments, Cytoskeletal,Lattice, Microtrabecular,Lattices, Microtrabecular,Microtrabecular Lattices
D003850 Deoxyribonuclease I An enzyme capable of hydrolyzing highly polymerized DNA by splitting phosphodiester linkages, preferentially adjacent to a pyrimidine nucleotide. This catalyzes endonucleolytic cleavage of DNA yielding 5'-phosphodi- and oligonucleotide end-products. The enzyme has a preference for double-stranded DNA. DNase I,Streptodornase,DNA Endonuclease,DNA Nicking Enzyme,DNAase I,Dornavac,Endonuclease I,Nickase,Pancreatic DNase,T4-Endonuclease II,T7-Endonuclease I,Thymonuclease,DNase, Pancreatic,Endonuclease, DNA,T4 Endonuclease II,T7 Endonuclease I
D005455 Fluorescent Antibody Technique Test for tissue antigen using either a direct method, by conjugation of antibody with fluorescent dye (FLUORESCENT ANTIBODY TECHNIQUE, DIRECT) or an indirect method, by formation of antigen-antibody complex which is then labeled with fluorescein-conjugated anti-immunoglobulin antibody (FLUORESCENT ANTIBODY TECHNIQUE, INDIRECT). The tissue is then examined by fluorescence microscopy. Antinuclear Antibody Test, Fluorescent,Coon's Technique,Fluorescent Antinuclear Antibody Test,Fluorescent Protein Tracing,Immunofluorescence Technique,Coon's Technic,Fluorescent Antibody Technic,Immunofluorescence,Immunofluorescence Technic,Antibody Technic, Fluorescent,Antibody Technics, Fluorescent,Antibody Technique, Fluorescent,Antibody Techniques, Fluorescent,Coon Technic,Coon Technique,Coons Technic,Coons Technique,Fluorescent Antibody Technics,Fluorescent Antibody Techniques,Fluorescent Protein Tracings,Immunofluorescence Technics,Immunofluorescence Techniques,Protein Tracing, Fluorescent,Protein Tracings, Fluorescent,Technic, Coon's,Technic, Fluorescent Antibody,Technic, Immunofluorescence,Technics, Fluorescent Antibody,Technics, Immunofluorescence,Technique, Coon's,Technique, Fluorescent Antibody,Technique, Immunofluorescence,Techniques, Fluorescent Antibody,Techniques, Immunofluorescence,Tracing, Fluorescent Protein,Tracings, Fluorescent Protein

Related Publications

T C Holme, and T P Koestler, and N Crawford
Cell surface properties of B16 melanoma variants with differing metastatic potential.
May 1980, Cancer research,
T C Holme, and T P Koestler, and N Crawford
The regulation of cyclic AMP production and the role of cyclic AMP in B16 melanoma cells of differing metastatic potential.
January 1990, Clinical & experimental metastasis,
T C Holme, and T P Koestler, and N Crawford
Effect of lactose derivatives on metastatic potential of B16 melanoma cells.
January 1990, Cancer communications,
T C Holme, and T P Koestler, and N Crawford
Influence of irradiation on metabolism and metastatic potential of B16-F10 melanoma cells.
November 2009, International journal of radiation biology,
T C Holme, and T P Koestler, and N Crawford
Heterogeneity in the surface properties of B16 melanoma cells from sublines with differing metastatic potential detected via two-polymer aqueous-phase partition.
June 1986, Experimental cell research,
T C Holme, and T P Koestler, and N Crawford
Drug sensitivity and metastatic ability in B16 melanoma cells.
January 1991, Clinical & experimental metastasis,
T C Holme, and T P Koestler, and N Crawford
Cathepsin B activity in B16 melanoma cells: a possible marker for metastatic potential.
March 1982, Cancer research,
T C Holme, and T P Koestler, and N Crawford
Metastatic potential of B16 melanoma cells after in vitro selection for organ-specific adherence.
September 1985, The Journal of cell biology,
T C Holme, and T P Koestler, and N Crawford
Differences in expression of a variant actin between low and high metastatic B16 melanoma.
May 1986, The Journal of biological chemistry,
T C Holme, and T P Koestler, and N Crawford
Preferential organ attachment and invasion in vitro by B16 melanoma cells selected for differing metastatic colonization and invasive properties.
January 1985, Invasion & metastasis,
Copied contents to your clipboard!