Cell cycle arrest and cellular differentiation mediated by a cell surface sialoglycopeptide

Cell cycle arrest and cellular differentiation mediated by a cell surface sialoglycopeptide

Cell cycling by a relatively wide variety of cell lines was shown to be reversibly inhibited by a cell surface sialoglycopeptide (SGP) isolated and purified from intact bovine cerebral cortex cells. Cell cycle arrest, mediated by the bovine SGP inhibitor, was shown to be completely reversible with m...

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Veröffentlicht in:Life sciences (1973) 1991, Vol.48 (19), p.1813-1820
Hauptverfasser: Edson, Gregory D., Fattaey, Heideh K., Johnson, Terry C.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological and medical sciences
Cattle
cell cycle
Cell Cycle - drug effects
Cell cycle, cell proliferation
Cell Differentiation - drug effects
Cell Division - drug effects
Cell Line, Transformed
Cell physiology
cerebrum
cortex
Epithelial Cells
Fibroblasts - cytology
Fibrosarcoma - pathology
Fundamental and applied biological sciences. Psychology
Growth Inhibitors - pharmacology
Humans
Leukemia, Experimental - pathology
Leukemia, Myeloid - pathology
Mice
Molecular and cellular biology
Neuroblastoma - pathology
Sialoglycoproteins - pharmacology
Space life sciences
Tumor Cells, Cultured
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Zusammenfassung:Cell cycling by a relatively wide variety of cell lines was shown to be reversibly inhibited by a cell surface sialoglycopeptide (SGP) isolated and purified from intact bovine cerebral cortex cells. Cell cycle arrest, mediated by the bovine SGP inhibitor, was shown to be completely reversible with mouse Swiss 3T3, mouse 1316 fibrosarcoma, mouse N 2a neuroblastoma, bovine MDBK and monkey BSC-1 cells. These cell lines represented both fibroblast and epithelial-like cells, transformed and nontransformed cells, as well as their being derived from a broad array of species. In contrast to the others tested, human HL-60 leukemic cells were sensitive to the inhibitory effects of the SGP but did not reenter the mitotic cycle after the removal of the inhibitor. Instead, the mitotic arrest of HL-60 cells appeared to enhance entry into a terminal and irreversible state of cellular differentiation.
ISSN:0024-3205
1879-0631
DOI:10.1016/0024-3205(91)90236-5