Ultrastructural identification of extension aminopropeptides of type I and III collagens in human skin.

Fleischmajer, Raúl; Timpl, Rupert; Tuderman, Leena; Raisher, Laurie; Wiestner, Manfred; Perlish, Jerome S.; Graves, Peter N.

doi:10.1073/pnas.78.12.7360

Cited by 210 publications

(87 citation statements)

References 31 publications

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“…In accordance with previous studies [9,44,29], type III collagen and hyaluronic acid stained intensely in the normal subpapillary connective tissue surrounding the haemangidmas and in the connective tissue matrix between the capillary loops. In contrast to this, staining for type III collagen was very weak in the thickened vascular wall of the haemangioma capillaries; in these areas there were also ultrastructurally only a few scattered collagen fibrils with a periodicity of 67 nm.…”

Section: Discussionsupporting

confidence: 92%

Increase in types IV and VI collagen in cherry haemangiomas

Tamm

Jungkunz

et al. 1992

Arch Dermatol Res

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Summary. The capillaries in cherry haemangiomas show perivascular hyalinized sheaths. In order to clarify the nature of this sheath material, the extracellular matrix of cherry haemangiomas from 20 normal volunteers (age range 30-64 years) was investigated using immunohistochemical and electronmicroscopical methods. Antibodies against collagen types III, IV and VI and laminin were used. Hyaluronic acid was visualized using the hyaluronic acid binding region of the cartilage proteoglycan as ligand. Electronmicroscopically, the sheaths contained multilaminated basement membrane-like material, collagen fibres 20-25 nm thick with a periodicity of 67 nm and broadbanded aggregates with a periodicity of 100 nm (zebra bodies or fibrous long-spacing fibres). Immunohistochemically, type IV collagen was stained throughout the whole sheath material. Staining for laminin was more confined to the endothelial side of the sheath. Intense staining for type III collagen and hyaluronic acid was found in the connective tissue of the subpapillary layer and between the cherry haemangioma capillaries. Much weaker staining for type III coUagen and no staining for hyaluronic acid were found invariably in an area 4-10 [tm thick directly around the capillaries. Both sheath material and intercapillary connective tissue of the haemangiomas showed pronounced staining for collagen type VL Immunogold staining revealed that type VI collagen was localized to microfihrils 5-6 nm thick and to the broad-banded aggregates with 100 nm periodicity. These findings further underline the assumption that the broad-banded aggregates consist of type VI collagen.

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Section: Discussionsupporting

confidence: 92%

Increase in types IV and VI collagen in cherry haemangiomas

Tamm

Jungkunz

et al. 1992

Arch Dermatol Res

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“…It has been suggested that the duration of the so-called 'lag (or nucleation) phase' of fibril growth, which is altered by the presence of different GAGS, would directly affect the number-density of collagen fibrils so formed, in that collagen fibrils of smaller diameters would be produced when the nucleation phase was long and those of larger diameters when the nucleation phase was short [7][8][9]131. However, other experiments have shown that collagen molecules are capable of aggregating into fibrils in the absence of any of the GAGS [4,7,11] and that fibril diameter may be dependent upon glycoprotein content [ 141, parameters such as pH, ionic strength and temperature [3,, the distribution and number of glycosylated residues along the length of the collagen molecule [ 191, the degree of copolymerisation in some tissues of types I and III collagen , collagen-fibronectin interactions [22] and the amount of collagen extension aminopropeptides remaining in the fibril [23].…”

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confidence: 99%

A role for glycosaminoglycans in the development of collagen fibrils

et al. 1982

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Extensive data on the glycosaminoglycan (GAG) composition and the collagen fibril diameter distribution have been collected for a diverse range of connective tissues. It is shown that tissues with the smallest diameter collagen fibrils (mass-average diameter < 60 nm) have high concentrations of hyaluronic acid and that tissues with the largest diameter collagen fibrils (mass-average diameter -200nm) have high concentrations of dermatan sulphate. It is suggested that the lateral growth of fibrils beyond a diameter of about 60nm is inhibited by the presence of an excess of hyaluronic acid but that this inhibitory effect may be removed by an increasing concentration of chondroitin sulphate and/or dermatan sulphate. It is also postulated that high concentrations of chondroitin sulphate will inhibit fibril growth beyond a massaverage diameter of -150nm. Such an inhibition may in turn be removed by an increasing concentration of dermatan sulphate such that it becomes the dominant GAG present in the tissue. Glycosaminoglycan Collagen fibriI Fibrillogenesis Connective tissue development

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“…They are liberated during the conversion of the precursor into collagen [1,2] and are considered to play important roles in regulating collagen synthesis [3] and fibril formation [4,5]. The amino acid sequence of the aminopropeptides of procollagen I and 111 has been elucidated [2, 6,7] supporting previous evidence on three structurally and conformationally distinct domains [8 -101 in each peptide segment.…”

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confidence: 82%

“…Similar data are still lacking for the homologous segment of procollagen 111. However, antibodies against this peptide have been of value for studying its matrix function [4] and for developing sensitive radioimmunoassays for quantifying circulating antigens under clinical conditions [I 71. The latter approach indicated different affinities for the intact aminopropeptide and smaller antigenic fra'gments which may arise in the body due to physiologic dcgradation [I 7 -191.…”

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confidence: 99%

Immunochemical properties of the aminopropeptide of procollagen type III

Rohde¹,

Brückner²,

Timpl

1983

Eur J Biochem

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The precursor-specific aminopropeptide of bovine type 111 procollagen is a strong immunogen in rabbits, guinea pigs and mice and induces antibodics which do not cross-react with type I procollagen. The antibody response is regulated by immune response genes associated with the major histocompatibility complex. Major antigenic determinants were found in the compact, non-collagenous domain (fragment Col 1) located at the N terminus of the aminopropeptide and were destroyed by reduction ofdisulfide bonds. Minor antigenic determinants independent of disulfide bonds also exist in fragment Col 1 and could be localized on a distinct tryptic peptide. Fragment Col 1 showed a lower affinity for antibody when compared with the intact aminopropeptide which causes a non-parallel shift in radioimmuno-inhibition profiles. Monovalent antibody fragments showed an average tenfold reduction in affinity constant and failed to distinguish bctween aminopropeptide and fragment Col 1. This indicates that the stronger binding of bivalent antibody by the triple-stranded aminopropeptide is due to multiple interactions with both antibody binding sites which are lost for a single-stranded antigen (Col 1) or with monovalent antibody fragments.Aminopropeptides are precursor-specific segments located at the amino end of procollagens. They are liberated during the conversion of the precursor into collagen [1,2] and are considered to play important roles in regulating collagen synthesis [3] and fibril formation [4,5]. The amino acid sequence of the aminopropeptides of procollagen I and 111 has been elucidated [2,6,7] supporting previous evidence on three structurally and conformationally distinct domains [8 -101 in each peptide segment. Specific antibodies could be raised against both types of aminopropeptide [9,11] and were useful tools in several structural and biological studies [4,12 -141. It was also found that the antibody response in mice to the aminopropeptide of procollagen I is under H-2 linked genetic control [I 51. lmmunochemical studics with the procollagen I aminopropeptide [13,16] indicated that only certain structures are antigenically important. Similar data are still lacking for the homologous segment of procollagen 111. However, antibodies against this peptide have been of value for studying its matrix function [4] and for developing sensitive radioimmunoassays for quantifying circulating antigens under clinical conditions [I 71. The latter approach indicated different affinities for the intact aminopropeptide and smaller antigenic fra'gments which may arise in the body due to physiologic dcgradation [I 7 -191. In the present study we have tried to explore the structural basis for these observations. A h h i w i u r m . pN-collagen rcfers to a partially processed form of procollagen which has lost its carboxypropeptide but still possesses its aminopropeptide.

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Ultrastructural identification of extension aminopropeptides of type I and III collagens in human skin.

Cited by 210 publications

References 31 publications

Increase in types IV and VI collagen in cherry haemangiomas

Increase in types IV and VI collagen in cherry haemangiomas

A role for glycosaminoglycans in the development of collagen fibrils

Immunochemical properties of the aminopropeptide of procollagen type III

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