Browsing by Subject "Vitronectin"

Now showing 1 - 2 of 2
  • Thumbnail Image
    Publication
    Open Access
    Constitutive and regulated expression of vitronectin
    (Murcia : F. Hernández, 1997) Seiffert, D.
    Tissue homeostasis depends on spatially and temporally controlled expression of multifunctional adhesive glycoproteins and their cellular counter receptors, and on a tight regulation of proteolytic enzyme systems. The adhesive glycoprotein vitronectin (Vn) not only regulates adhesive events, but also controls a number of these proteolytic enzyme cascades, including the complement, coagulation, and fibrinolytic systems. However, understanding of the biological functions of this molecule is complicated due to it's conformationally lability and its tendency to selfassociate. While plasma Vn is monomeric and lacks exposure of conformationally sensitive epitopes, platelet and tissue-associated Vn are believed to be conformationally altered and multimeric. The latter forms express a functional repertoire distinct from plasma Vn. While little Vn immunoreactivity is detectable in most normal tissues, increased depositions of Vn have been observed in areas of tissue injury and necrosis. Tissue Vn was believed to be plasma-derived, but recent studies indicate that extrahepatic cells have the biosynthetic potential to produce Vn and that its synthesis can be regulated under inflammatory conditions. Here, the constitutive and regulated expression of Vn, its locations in tissues and interaction with other matrix molecules are reviewed and their implications for the functions of this molecule are discussed.
  • Thumbnail Image
    Publication
    Open Access
    Vessel wall-dependent metabolic pat hways of the
    (Murcia : F. Hernández, 1995) Preissner, K.T.; Pötzsch, B.
    The integrity of the vessel wall under quiescent conditions as well as its appropriate responsiveness under conditions of stimulation, inflammation or vascular injury is controlled by a number of adhesive interactions involving distinct cellular receptor systems and various multifunctional adhesive ligands. While a number of these extracellular matrix components of the vessel wall are endogenously produced, secreted and deposited, exogenous adhesion proteins may become translocated from the intra- to the extravascular space by virtue of endothelial cell-specific transport systems. Two prominent examples for each metabolic pathway are discussed. Endothelial cellspecific biosynthesis and secretion as well as deposition of multimeric von-Willebrand-factor within intracellular granules (Weibel-Palade bodies) relates to the first possibility of processing, whereas binding of reactive forms of circulating vitronectin to diverse cellular receptors with subsequent extravasation and deposition into the extracellular matrix appears to be characteristic for the second case. In this review the known features of the metabolic routes of both adhesion proteins are discussed and set in perspective to their functional properties. Their localized mode of action in the vessel wall appears to be crucial for balanced haemostasis and immune systems, two major defence mechanisms of the organism.