demecolcine and Sarcoma

demecolcine has been researched along with Sarcoma* in 2 studies

Other Studies

2 other study(ies) available for demecolcine and Sarcoma

Article	Year
Octaploid Meth-A cells are established from a highly polyploidized cell population. Cell proliferation, 2003, Volume: 36, Issue:2 Tetraploid Meth-A cells were polyploidized by demecolcin, an inhibitor of spindle fibre formation in M phase, and then released from the drug 1, 2, 3 and 4 days after the addition. Octaploid cells were successfully established from cell populations including hexadecaploid cells produced by 2, 3 and 4 days of exposure to demecolcin. One-day-treated cells were polyploidized octaploid cells, but they returned to tetraploid cells. All of the octaploid Meth-A cells showed essentially the same features. The octaploid Meth-A cells had eight homologous chromosomes and double the DNA content of the parent tetraploid cells. The doubling time of octaploid Meth-A cells was 30.2 h, somewhat longer than the 28.3 and 24.0 h of tetraploid and diploid cells, respectively. The fractions of cells in the G1, S and G2/M phases were essentially the same in diploid, tetraploid and octaploid Meth-A cells. The cell volume of octaploid Meth-A cells was about two times that of the tetraploid cells. It was concluded that octaploid Meth-A cells were established from transient hexadecaploid cells produced by the polyploidization of tetraploid cells that had been established from diploid cells. Topics: Animals; Cell Cycle; Cell Division; Demecolcine; DNA, Neoplasm; Karyotyping; Methylcholanthrene; Mice; Models, Genetic; Polyploidy; Sarcoma; Tumor Cells, Cultured	2003
Establishment of a tetraploid Meth-A cell line through polyploidization by demecolcine but not by staurosporine, K-252A and paclitaxel. Cell proliferation, 2001, Volume: 34, Issue:4 Polyploid cells are made by DNA reduplication without cell division, however, it is not easy to establish polyploid mammalian cell lines. It is worth studying the difference in cell character between hyperploid and parent cell lines. Meth-A cells were polyploidized by demecolcine, K-252a, staurosporine and paclitaxel. The cell-cycle responses of highly polyploid Meth-A cells after the removal of the drugs were examined by flow cytometry (FCM). Meth-A cells were highly polyploidized by these drugs. The polyploid Meth-A cells gradually decreased in ploidy after the drug release. A tetraploid Meth-A cell line was established only from the demecolcine-induced polyploid Meth-A cells. The duration of G1, S and G2/M phases of the tetraploid cell line were mostly the same as those of the parent diploid cells, except that the G2/M phase was 1.5 h longer. The chromosome number of tetraploid Meth-A cell line was about twice of the diploidy. A tetraploid Meth-A cell line was established. Topics: Animals; Antineoplastic Agents, Phytogenic; Carbazoles; Cell Count; Cell Cycle; Cell Division; Demecolcine; DNA; Enzyme Inhibitors; Flow Cytometry; Indole Alkaloids; Karyotyping; Mice; Paclitaxel; Ploidies; Sarcoma; Staurosporine; Tumor Cells, Cultured	2001

Article

Year

Octaploid Meth-A cells are established from a highly polyploidized cell population.

Cell proliferation, 2003, Volume: 36, Issue:2

Tetraploid Meth-A cells were polyploidized by demecolcin, an inhibitor of spindle fibre formation in M phase, and then released from the drug 1, 2, 3 and 4 days after the addition. Octaploid cells were successfully established from cell populations including hexadecaploid cells produced by 2, 3 and 4 days of exposure to demecolcin. One-day-treated cells were polyploidized octaploid cells, but they returned to tetraploid cells. All of the octaploid Meth-A cells showed essentially the same features. The octaploid Meth-A cells had eight homologous chromosomes and double the DNA content of the parent tetraploid cells. The doubling time of octaploid Meth-A cells was 30.2 h, somewhat longer than the 28.3 and 24.0 h of tetraploid and diploid cells, respectively. The fractions of cells in the G1, S and G2/M phases were essentially the same in diploid, tetraploid and octaploid Meth-A cells. The cell volume of octaploid Meth-A cells was about two times that of the tetraploid cells. It was concluded that octaploid Meth-A cells were established from transient hexadecaploid cells produced by the polyploidization of tetraploid cells that had been established from diploid cells.

Topics: Animals; Cell Cycle; Cell Division; Demecolcine; DNA, Neoplasm; Karyotyping; Methylcholanthrene; Mice; Models, Genetic; Polyploidy; Sarcoma; Tumor Cells, Cultured

2003

Establishment of a tetraploid Meth-A cell line through polyploidization by demecolcine but not by staurosporine, K-252A and paclitaxel.

Cell proliferation, 2001, Volume: 34, Issue:4

Polyploid cells are made by DNA reduplication without cell division, however, it is not easy to establish polyploid mammalian cell lines. It is worth studying the difference in cell character between hyperploid and parent cell lines. Meth-A cells were polyploidized by demecolcine, K-252a, staurosporine and paclitaxel. The cell-cycle responses of highly polyploid Meth-A cells after the removal of the drugs were examined by flow cytometry (FCM). Meth-A cells were highly polyploidized by these drugs. The polyploid Meth-A cells gradually decreased in ploidy after the drug release. A tetraploid Meth-A cell line was established only from the demecolcine-induced polyploid Meth-A cells. The duration of G1, S and G2/M phases of the tetraploid cell line were mostly the same as those of the parent diploid cells, except that the G2/M phase was 1.5 h longer. The chromosome number of tetraploid Meth-A cell line was about twice of the diploidy. A tetraploid Meth-A cell line was established.

Topics: Animals; Antineoplastic Agents, Phytogenic; Carbazoles; Cell Count; Cell Cycle; Cell Division; Demecolcine; DNA; Enzyme Inhibitors; Flow Cytometry; Indole Alkaloids; Karyotyping; Mice; Paclitaxel; Ploidies; Sarcoma; Staurosporine; Tumor Cells, Cultured

2001