Showing papers by "Kari Alitalo published in 1980"

Fibronectin is produced by human macrophages.

Abstract: Monocyte-enriched cultures were prepared from human blood mononuclear leukocytes by adherence to growth substratum. Synthesis and secretion of fibronectin was detected in these cultures concomitantly with morphological differentiation, starting on day 3--5. Production of fibronectin by macrophages was documented by metabolic labeling followed by immunoprecipitation and gel electrophoresis, radioimmunoassay specific for human fibronectin, and by indirect immunofluorescence. Fibronectin was detected mainly intracellularly but was also detected pericellularly only in minute amounts. No production of collagenous proteins was seen in these cultures. Macrophage fibronectin might act in vivo as a nonspecific opsonin and promote cell adhesion during macrophage migration in tissues.

Induction of a basement membrane glycoprotein in embryonic kidney: Possible role of laminin in morphogenesis

Abstract: The glycoprotein laminin is found exclusively in the basement membranes of adult tissues, not in the mesenchymal stroma. We studied the appearance and distribution of laminin during the early formation of kidney tubules in mouse embryos and in an in vitro transfilter model system. In immunofluorescence using affinity-purified antibodies, the distribution of laminin showed a clear correlation, both spatially and temporally, to the early stages of tubule formation. In vivo, laminin was first detected in a punctate pattern in areas where the pretubular aggregates form; later, it became confined to the basement membranes of the tubules. In experiments in vitro, the nephrogenic mesenchyme was found to form tubules after 12-24 hr of transfilter contact with the inductor. The first laminin spots were found after 12 hr of culture, 24 hr before overt morphogenesis. As the mesenchymal cells began to aggregate and elongate (at 36 hr), laminin was detected in those cells destined to become epithelial, and at 48 hr it was not found in cells remaining in the stroma. In more mature tubules (at 72 hr), laminin was seen as a sharp band in the basement membranes. It is suggested that laminin is involved in the increased cell adhesiveness during the early aggregation of the nephrogenic mesenchyme.

Biosynthesis of Two Subunits of Type IV Procollagen and of Other Basement Membrane Proteins by a Human Tumor Cell Line

Abstract: The major collagenous component secreted into the medium of cultured HT-1080 tumor cells was identified as type IV procollagen by specific antibodies and characteristic ratios of incorporated labeled 3-hydroxyproline and 4-hydroxyproline. The disulfide-bonded molecules consisted of two subunits, pro-alpha 1(IV) and pro-alpha 2(IV) chains with apparent molecular weights of 180 000 and 165 000. No conversion of the procollagen to collagen or to procollagen intermediates was detected in the cell cultures. The two subunits apparently represent different gene products, since enzymatic digestion of the separated chains produced quite different peptide maps. Pepsin degraded native type IV procollagen successively into several fragments, some still disulfide-linked, giving rise to a complex set of polypeptide chains (Mr = 30 000-140 000). This agrees with similar diverse patterns produced by pepsin from authentic type IV collagens. The ratio between the pro-alpha 1(IV) and pro-alpha 2(IV) chains varied in several experiments between 1.3 and 1.8, suggesting that the two chains belong to different triple-helical molecules. The cells also produced distinct amounts of fibronectin (subunit Mr = 230 000) and of the basement membrane glycoprotein laminin. The latter showed three subunits with Mr = 220 000, 210 000, and 400 000. A further disulfide-bonded, non-collagenous polypeptide (Mr = 160 000) was detected but not yet identified. Immunofluorescence demonstrated these proteins within the cells but not in a pericellular matrix. The production of basement membrane components by HT-1080 cells and lack of interstitial collagens disagree with the original classification of the cell line as a fibrosarcoma.

Basal lamina glycoproteins are produced by neuroblastoma cells.

Abstract: Murine neuroblastoma cells have been widely used as a model system for neuronal cells as they can be induced to differentiate in culture by various stimuli, such as dibutyryl cyclic AMP (dbcAMP)1, prostaglandin2, and serum starvation3. The cells respond with assembly of microtubules, leading to neurite outgrowth4,5, with increased activity of neuronal-specific enzymes, tyrosine hydroxvlase, choline acetyltransferase and acetylcholine-esterase6,7, and synthesis of neurotransmitters8. The differentiated cells lose tumorigenicity9. Cell-to-substratum adhesion is evidently crucial for neurone extension in vitro10. Neurite outgrowth is induced by treatments that increase cell-to-substratum adhesion in some neuronal cell cultures11,12. We have now identified the major high molecular weight proteins synthesized and secreted by murine C1300 neuroblastoma cells as fibronectin, laminin and type IV procollagen, of which the latter two were also found to be deposited in pericellular matrix form.