Helmut Hörmann scite author profile

Abstract. Immunogold labeling was used to localize the core protein of small dermatan sulfate proteoglycan (DS-PG) on the surface of cultured human fibroblasts. At 4°C, DS-PG core protein was uniformly distributed over the cell surface. At 37°C, gold particles either became rearranged in form of clusters or remained associated with fibrils. Double-label immunocytochemistry indicated the co-distribution of DS-PG core protein and fibronectin in the fibrils. In an enzyme-linked immunosorbent assay, binding of DS-PG from fibroblast secretions and of its core protein to fibronectin occurred at pH 7.4 and at physiological ionic strength.Larger amounts of core protein than of intact proteoglycan could be bound. Fibronectin peptides conruining either the heparin-binding domain near the COOH-terminal end or the heparin-binding NH2 terminus were the only fragments interacting with DS-PG and core protein. Competition and replacement experiments with heparin and dermatan sulfate suggested the existence of adjacent binding sites for heparin and DS-PG core protein. It is hypothesized that heparan sulfate proteoglycans and DS-PG may competitively interact with fibronectin.

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Fibronectin — Mediator between cells and connective tissue

Hörmann

1982

Klin Wochenschr

108

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Fibronectin, previously also termed LETS-protein, is a high-molecular-weight protein (mol. w. ca. 450,000) present in the form of thin fibrils in the pericellular space of fibroblasts and other adherent cells, as well as in distinct areas of the connective tissue. A soluble form, immunologically identical and chemically at least very similar to the cell-attached protein, is found in plasma in a concentration of about 300 micrograms/ml. It is also denominated cold-insoluble globulin. The protein has affinity both to cell surfaces and to various matrix substances such as fibrin and collagen and, therefore, is capable of mediating cell attachment to these substrates. In addition, it serves as an opsonin for the phagocytosis of gelatin-containing compounds and probably is essential for the removal of soluble fibrin from the circulating blood by the reticulo-endothelial system. Bacterial cell walls are also recognized by fibronectin. A conversion of soluble fibronectin to fibrils is achieved by heparin which also enhances the binding of soluble fibronectin to cells. Heparin or, as suggested, the related heparan sulfate present on the surface of various cells, appears to function as a cofactor in the formation of pericellular fibrils. The fibronectin fibrils precipitated with heparin, compared to soluble fibronectin, show a considerably improved affinity to native collagen, especially to type III. Hyaluronic acid has an antagonistic function which, at higher concentrations, prevents the fibronectin fibrils from interacting with collagen and cell surfaces. Masking of fibronectin fibrils was also achieved by sulfated proteoglycans of cartilage. Virus-transformed fibroblasts produce less fibronectin and are less capable of maintaining surface pericellular fibrils. A reasonable explanation is that they have an elevated secretion of hyaluronic acid. The transformed cells attach only weakly to a surface and exhibit a rounded shape in contrast to healthy ones. This phenotype can be corrected to a great extent with fibronectin. It is suggested that fibronectin also influences the formation of connective tissue by accumulating collagen precursors on the surface of fibroblasts and facilitating fibrillogenesis.

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Fibronectin (Cold-Insoluble Globulin), VI. Influence of Heparin and Hyaluronic Acid on the Binding of Native Collagen

Jilek¹,

Hörmann²

1979

Hoppe-Seyler´s Zeitschrift für physiologische Chemie

161

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Shape, conformation and stability of fibronectin fragments determined by electron microscopy, circular dichroism and ultracentrifugation

Odermatt

Engel

Richter

et al. 1982

Journal of Molecular Biology

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Similarity of antigelatin factor and cold insoluble globulin

Dessau

Jilek

Adelmann

et al. 1978

Biochimica et Biophysica Acta (BBA) - Protein Structure

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Helmut Hörmann

Interaction of small dermatan sulfate proteoglycan from fibroblasts with fibronectin.

Fibronectin — Mediator between cells and connective tissue

Fibronectin (Cold-Insoluble Globulin), VI. Influence of Heparin and Hyaluronic Acid on the Binding of Native Collagen

Shape, conformation and stability of fibronectin fragments determined by electron microscopy, circular dichroism and ultracentrifugation

Similarity of antigelatin factor and cold insoluble globulin

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