Helena B. Nader scite author profile

The syndecans, heparan sulfate proteoglycans, are abundant molecules associated with the cell surface and extracellular matrix and consist of a protein core to which heparan sulfate chains are covalently attached. Each of the syndecan core proteins has a short cytoplasmic domain that binds cytosolic regulatory factors. The syndecans also contain highly conserved transmembrane domains and extracellular domains for which important activities are becoming known. These protein domains locate the syndecan on cell surface sites during development and tumor formation where they interact with other receptors to regulate signaling and cytoskeletal organization. The functions of cell surface heparan sulfate proteoglycan have been centered on the role of heparan sulfate chains, located on the outer side of the cell surface, in the binding of a wide array of ligands, including extracellular matrix proteins and soluble growth factors. More recently, the core proteins of the syndecan family transmembrane proteoglycans have also been shown to be involved in cell signaling through interaction with integrins and tyrosine kinase receptors.

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Enhanced Tumorigenic Potential of Colorectal Cancer Cells by Extracellular Sulfatases

Vicente

Lima

Yates

et al. 2015

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Heparan sulfate endosulfatase-1 and -2 (SULF1 and SULF2) are two important extracellular 6-O-endosulfatases that remove 6-O sulfate groups of N-glucosamine along heparan sulfate (HS) proteoglycan chains often found in the extracellular matrix. The HS sulfation pattern influences signaling events at the cell surface, which are critical for interactions with growth factors and their receptors. SULFs are overexpressed in several types of human tumors, but their role in cancer is still unclear because their molecular mechanism has not been fully explored and understood. To further investigate the functions of these sulfatases in tumorigenesis, stable overexpression models of these genes were generated in the colorectal cancer cells, Caco-2 and HCT-116. Importantly, mimicking overexpression of these sulfatases resulted in increased viability and proliferation, and augmented cell migration. These effects were reverted by shRNA-mediated knockdown of SULF1 or SULF2 and by the addition of unfractionated heparin. Detailed structural analysis of HS from cells overexpressing SULFs showed reduction in the trisulfated disaccharide UA(2S)-GlcNS(6S) and corresponding increase in UA(2S)-GlcNS disaccharide, as well as an unexpected rise in less common disaccharides containing GlcNAc(6S) residues. Moreover, cancer cells transfected with SULFs demonstrated increased Wnt signaling. In summary, SULF1 or SULF2 overexpression contributes to colorectal cancer cell proliferation, migration, and invasion.Implications: This study reveals that sulfatases have oncogenic effects in colon cancer cells, suggesting an important role for these enzymes in cancer progression. Mol Cancer Res; 13(3); 510-23. Ó2014 AACR.

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Structure and antithrombin-binding properties of heparin isolated from the clams Anomalocardia brasiliana and Tivela mactroides.

Pejler¹,

Danielsson²,

Björk³

et al. 1987

Journal of Biological Chemistry

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Purification and substrate specificity of heparitinase I and heparitinase II from Flavobacterium heparinum. Analyses of the heparin and heparan sulfate degradation products by 13C NMR spectroscopy.

Nader

Porcionatto

Tersariol

et al. 1990

Journal of Biological Chemistry

133

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Isolation and structural studies of heparan sulfates and chondroitin sulfates from three species of molluscs.

Nader¹,

Ferreira²,

Paiva³

et al. 1984

Journal of Biological Chemistry

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Structural requirements of heparin disaccharides responsible for hemorrhage: reversion of the antihemostatic effect by ATP

1989

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Topically applied heparin and heparan sulfate disaccharides, with the basic structure delta-4,5 uronyl-(1----4)-glucosamine and bearing a sulfate at the C-6 position of the glucosamine residue, are antihemostatics as potent as heparin, producing uncontrollable hemorrhage from small blood vessels. The finding that other sulfated disaccharides with the same sulfate:hexosamine:uronic acid ratios but with the sulfate at a different position (C-2), or with different glycosidic linkage (1----3), were inactive as inhibitors of hemostasis indicates that a specific structure is needed to produce the effect. The inhibitory activity of the normal hemostatic process could be reversed by ATP. Molecular models show that part of the disaccharide inhibitors and ATP hold a similar structural conformation.

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Decrease in sulphated glycosaminoglycans in aortic dissection--possible role in the pathogenesis

Gutierrez¹,

Almeida²,

Nader³

et al. 1991

Cardiovascular Research

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LDLR missense variants disturb structural conformation and LDLR activity in T-lymphocytes of Familial hypercholesterolemia patients

Barbosa

Hirata

Ferreira

et al. 2023

Gene

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Helena B. Nader

<a name="home"></a>Specific structural features of syndecans and heparan sulfate chains are needed for cell signaling

Enhanced Tumorigenic Potential of Colorectal Cancer Cells by Extracellular Sulfatases

Structure and antithrombin-binding properties of heparin isolated from the clams Anomalocardia brasiliana and Tivela mactroides.

Purification and substrate specificity of heparitinase I and heparitinase II from Flavobacterium heparinum. Analyses of the heparin and heparan sulfate degradation products by 13C NMR spectroscopy.

Isolation and structural studies of heparan sulfates and chondroitin sulfates from three species of molluscs.

Structural requirements of heparin disaccharides responsible for hemorrhage: reversion of the antihemostatic effect by ATP

Decrease in sulphated glycosaminoglycans in aortic dissection--possible role in the pathogenesis

LDLR missense variants disturb structural conformation and LDLR activity in T-lymphocytes of Familial hypercholesterolemia patients

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