D. Daga-Gordini scite author profile

Abstract. The fine distribution of the extracellular matrix glycoprotein emilin (previously known as glycoprotein gp115) (Bressan, G. M., I. Castellani, A. Colombatti, and D. Volpin. 1983. J. Biol. Chem. 258: 13262-13267) has been studied at the ultrastructural level with specific antibodies. In newborn chick aorta the protein was exclusively found within elastic fibers. In both post-and pre-embedding immunolabeling emilin was mainly associated with regions where elastin and microfibrils are in close contact, such as the periphery of the fibers. This localization of emilin in aorta has been confirmed by quantitative evaluation of the distribution of gold particles within elastic fibers. In other tissues, besides being associated with typical elastic fibers, staining for emilin was found in structures lacking amorphous elastin, but where the presence of tropoelastin has been demonstrated by immunoelectron microscopy. This was particularly evident in the oxitalan fibers of the corneal stroma, in the Descemet's membrane, and in the ciliary zonule. Analysis of embryonic aorta revealed the presence of emilin at early stages of elastogenesis, before the appearance of amorphous elastin. Immunofluorescence studies have shown that emilin produced by chick embryo aorta cells in culture is strictly associated with elastin and that the process of elastin deposition is severely altered by the presence of antiemilin antibodies in the culture medium. The name of the protein was derived from its localization at sites where elastin and microfibrils are in proximity (emilin, elastin microfibril interface located protein).

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Conformational transitions of α-elastin

Tamburro¹,

Guantieri²,

Daga-Gordini

et al. 1977

Biochimica et Biophysica Acta (BBA) - Protein Structure

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Fine mapping of tropoelastin-derived components in the aorta of developing chick embryo

et al. 1987

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Affinity-purified antitropoelastin antibodies have been used to localize tropoelastin-derived components in aortas from chick embryos of different age by immunoelectron microscopy. Staining in the matrix is first noted at day 3 associated with irregular bundles of filaments resembling microfibrils, in the absence of amorphous elastin deposits. Amorphous material, which rapidly accumulates at later stages, is heavily labelled, while surrounding microfibrils are only poorly labelled. By contrast, a more intense staining of microfibrils persists in regions in which amorphous material is not morphologically evident. These observations indicate that the initial accumulation of elastin requires microfibrils, while the two components are not in close association in the subsequent growth of the amorphous core of the fibre. Intracellular staining is evident in the secretory apparatus of the cell and in peripheral large vesicles. Differentiated cells also show regions of close contact with elastic fibres in which immunological staining for elastin is very close to the cell membrane.

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Transient expression of type IV collagenolytic metalloproteinase by human mononuclear phagocytes.

Garbisa¹,

Ballin²,

Daga-Gordini³

et al. 1986

Journal of Biological Chemistry

109

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The Elastic Component of Normal and Dilated Ureters in Children: Chemical and Histochemical Characterisation

Pagano¹,

Passerini²,

Cortivo³

et al. 1976

British Journal of Urology

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D. Daga-Gordini

Emilin, a component of elastic fibers preferentially located at the elastin-microfibrils interface.

Conformational transitions of α-elastin

Fine mapping of tropoelastin-derived components in the aorta of developing chick embryo

Transient expression of type IV collagenolytic metalloproteinase by human mononuclear phagocytes.

The Elastic Component of Normal and Dilated Ureters in Children: Chemical and Histochemical Characterisation

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