Lilia Lauria de Cidre scite author profile

Heparin, a highly sulfated polysaccharide used as an anti-thrombotic and anticoagulant, inhibits proliferation of several cell types. We have investigated the effect of heparin and chemically modified heparins on the growth of a cell culture of a murine mammary adenocarcinoma (M3). We found that heparin inhibited the proliferation of M3 cells growing either with or without 2% fetal calf serum (FCS) in a dose-dependent and reversible fashion. Several heparins with different anticoagulant properties showed a similar antiproliferative effect. Histological assays showed that heparin was internalized and appeared in cytoplasmic vesicules. O-desulfated, O/N-desul-fated N-acetylated and N-desulfated heparins lost their antiproliferative activity, while N-desulfated N-acetylated heparin significantly inhibited cell proliferation with or without FCS. The finding of an antiproliferative action of N-desulfated N-acetylated heparin which does not show anticoagulant activity suggests a possible therapeutic role for this compound as an antineoplastic drug.

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Heparan sulfate, heparin, and heparinase activity detection on polyacrylamide gel electrophoresis using the fluorochrome tris(2,2′-bipyridine) ruthenium (II)

Rozenberg¹,

Espada

Cidre

et al. 2001

Electrophoresis

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The paper shows the ability of the fluorochrome tris(2,2'-bipyridine) ruthenium (II) (Rubipy) to detect heparan sulfate, heparin, and heparinase activity of M3 murine mammary adenocarcinoma cells as well as bacterial heparinases I, II, and III in native polyacrylamide gel electrophoresis (PAGE). The technique is based on the electrophoretic mobility of high molecular weight heparins and subsequent staining with Rubipy (50 micrograms/mL). The minimum content of heparin detected by fluorescence in a UV transilluminator was 25-50 ng. The number of Rubipy molecules bound to heparin, determined in relationship to the number of disaccharide units (DU), showed that two to six heparin disaccharide units are bound by each fluorochrome molecule. Scatchard plot analysis showed one Rubipy-binding site (Kd = (8.56 +/- 2.97) x 10(-5) M). Heparinase activity was determined by densitometric analysis of the fluorescence intensity of the heparin-containing band of the gel. While heparinase I (EC 4.2.2.7.) degraded heparin and, to a lower degree, partially N-desulfated N-acetylated heparin (N-des N-Ac), heparinase II (no EC number) could efficiently degrade heparan sulfate (HS) and partially N-des N-Ac heparin. Finally, heparinase III (EC 4.2.2.8.) degraded HS almost exclusively. Only heparin and N-des N-Ac heparin were substrates for M3 tumor cell heparinases. We describe a qualitative, sensitive and simple method to detect heparinase activity and determine its substrate specificity using Rubipy fluorescence with heparin and heparan sulfate in multiple biological samples tested in parallel.

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Formation and microscopical application of a fluorescent 1,10-phenanthrolinederivative of Ruthenium Red

1995

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