Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cadaveric aortic intimas with uncomplicated atherosclerosis were examined to determine the distribution and polypeptide chain composition of fibrinogen-related protein. Immunohistochemical staining showed deposits rich in fibrinopeptides A and B. The deposits were usually disseminated throughout intimas of moderate thickness < 0.7 mm, but were distributed focally in elongate patches bounded both lumenally and medially by deposit-free tissue in thick atheromas. Saline extracts generally showed undegraded monomers and dimers by electrophoresis. The residual protein contained A alpha and gamma-chains that were cross-linked predominantly (>80%) into unresolved high M(r) (>200 kd) derivatives, whereas B beta-chains were left non-cross-linked, as occurs in late stages of cross-linking by transglutaminases. The resolved components had electrophoretic mobilities corresponding to characteristic products of both factor XIIIa and tissue-transglutaminase. A greater incorporation of alpha- rather than gamma-chains into cross-linked products implicated tissue-transglutaminase as contributing heavily. By contrast, vascular graft pseudo-intimas and a cadaveric clot were rich in degraded fibrin devoid of fibrinopeptide A, and cross-linked in patterns typical of XIIIa with gamma 2 dimers constituting the principal product. The findings indicate that the fibrinogen in the aortic intima is comparatively well protected from thrombin and plasmin, and that much of it is deposited through direct cross-linking by tissue-transglutaminase without being converted to fibrin.
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PMID:Immunoelectrophoretic and immunohistochemical characterizations of fibrinogen derivatives in atherosclerotic aortic intimas and vascular prosthesis pseudo-intimas. 141 80

The availability of epsilon-lysine residues of apolipoprotein B in LDL for chemical or enzymic modification was investigated. Amino acid analyses of detergent-solubilized apolipoprotein B, following cyanoethylation with acrylonitrile, revealed that 10% of the lysine in apolipoprotein B were unreactive. The unreactive residues were associated with the most hydrophobic subfraction of apolipoprotein B. Since apolipoprotein B has a high molecular weight a study was undertaken to determine whether lysine residues were crosslinked to glutamic acid via epsilon-(gamma-glutamyl)lysine as demonstrated for fibrin. Apolipoprotein B was digested exhaustively with proteases. The content of epsilon-(gamma-glutamyl) lysine was determined by chromatography and isotope dilution. In contrast to earlier reports for serum LDL the data showed that less than 0.01 moles of lysine/mole of LDL apolipoprotein B were present as epsilon-(gamma-glutamyl)lysine in plasma LDL. It was determined also that the crosslinks were not found in apolipoprotein B during clotting since LDL was not a substrate for clotting factor XIII which forms the bond in fibrin. Furthermore, the lipoprotein contained no inherent transglutaminase activity. It is concluded that the lysine residues in LDL, which are unreactive to cyanoethylation, can not be detected in the digests as epsilon-(gamma-glutamyl)lysine.
Atherosclerosis 1986 Jul
PMID:The biochemistry of epsilon-amino groups of lysine residues from apolipoprotein B of human low density lipoprotein. 373 52

Concentrations of peptidic compounds in blood plasma of uremics are increased. Evidence for participation of intestinal bacteria in the production of such peptides (presumably toxic) was obtained by isolation of a strongly basic peptide containing covalently bound spermidine from peritoneal dialysate of patients with chronic uremia. The same peptide was found in blood plasma of patients with end-stage chronic renal failure. The absence of glutamic acid in the spermidinepeptide molecule suggests that an enzyme different from the transglutaminase of mammalian cells must take part in the synthesis of spermidinepeptide. This conjugate forms a relatively stable complex with insulin, thus altering the action of the hormone on adipose cell metabolism. Also, interaction of spermidinepeptide with insulin and lipoproteins may contribute to hypertriglyceridemia and accelerated atherosclerosis in patients with chronic uremia.
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PMID:A uremic peptide containing polyamine: formation and possible role in uremic hypertriglyceridemia. 701 Mar 92

Tissue transglutaminase is a calcium-dependent enzyme that catalyzes the cross-linking of polypeptide chains, including those of extracellular matrix (ECM) proteins, through the formation of epsilon-(gamma-glutamyl) lysine bonds. This crosslinking leads to the formation of protein polymers that are highly resistant to degradation. As a consequence, the enzyme has been implicated in the deposition of ECM protein in fibrotic diseases such as pulmonary fibrosis and atherosclerosis. In this study, we have investigated the involvement of tissue transglutaminase in the development of kidney fibrosis in adult male Wistar rats submitted to subtotal nephrectomy (SNx). Groups of six rats were killed on days 7, 30, 90, and 120 after SNx. As previously described, these rats developed progressive glomerulosclerosis and tubulo-interstitial fibrosis. The tissue level of epsilon-(gamma-glutamyl) lysine cross-link (as determined by exhaustive proteolytic digestion followed by cation exchange chromatography) increased from 3.47+/- 0.94 (mean+/-SEM) in controls to 13.24+/-1.43 nmol/g protein 90 d after SNx, P </= 0.01. Levels of epsilon-(gamma-glutamyl) lysine cross-link correlated well with the renal fibrosis score throughout the 120 observation days (r = 0.78, P </= 0.01). Tissue homogenates showed no significant change in overall transglutaminase activity (14C putrescine incorporation assay) unless adjusted for the loss of viable tubule cells, when an increase from 5.77+/-0.35 to 13.93+/-4.21 U/mg DNA in cytosolic tissue transglutaminase activity was seen. This increase was supported by Western blot analysis, showing a parallel increase in renal tissue transglutaminase content. Immunohistochemistry demonstrated that this large increase in epsilon-(gamma-glutamyl) lysine cross-link and tissue transglutaminase took place predominantly in the cytoplasm of tubular cells, while immunofluorescence also showed low levels of the epsilon-(gamma-glutamyl) lysine cross-link in the extracellular renal interstitial space. The number of cells showing increases in tissue transglutaminase and its cross-link product, epsilon-(gamma-glutamyl) lysine appeared greater than those showing signs of typical apoptosis as determined by in situ end-labeling. This observed association between tissue transglutaminase, epsilon-(gamma-glutamyl) lysine cross-link, and renal tubulointerstitial scarring in rats submitted to SNx suggests that tissue transglutaminase may play an important role in the development of experimental renal fibrosis and the associated loss of tubule integrity.
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PMID:The role of transglutaminase in the rat subtotal nephrectomy model of renal fibrosis. 918 19

During the development of atherosclerotic lesions, lipoprotein(a) [Lp(a)], a highly atherogenic lipoprotein, accumulates within fibrin clots attached to blood vessel walls. As Lp(a) accumulates within the fibrin clot with time, fatty streaks are formed that develop into occlusive atherosclerotic plaques. It is not understood, however, which mechanisms are involved in the binding of Lp(a) to fibrin and, hence, the stable incorporation of Lp(a) into the fibrin clot. The results of the present study demonstrate that factor XIIIa, a transglutaminase that catalyzes the formation of amide bonds between endo-gamma-glutaminyl and endo-epsilon-lysyl residues of proteins, is capable of cross-linking Lp(a) to fibrinogen, the soluble precursor of fibrin. Biochemical assays were conducted to demonstrate that factor XIIIa cross-links Lp(a) with fibrinogen in a time- and concentration-dependent manner. Additionally, immunohistochemical studies revealed that factor XIII protein expression colocalizes with Lp(a) expression in human atherosclerotic plaques. It is proposed that factor XIIIa-mediated cross-linking of Lp(a) to fibrin effectively increases the local concentration of Lp(a) within a fibrin clot. The accumulation of Lp(a) within the blood vessel promotes an antifibrinolytic environment, foam cell formation, the generation of a fatty streak, and an increase in smooth muscle cell content, all of which may contribute to the pathogenesis of atherosclerosis.
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PMID:Factor XIIIa cross-links lipoprotein(a) with fibrinogen and is present in human atherosclerotic lesions. 971 Jan 18

Factor XIII is a transglutaminase that crosslinks fibrin in the last steps of the coagulation process. A few polymorphic sites have been identified in this gene, one of them being a point mutation (FXIII Val34Leu), leading to an amino acid change of valine to leucine. Recently, in British patients, FXIII 34Leu allele was suggested to be associated with a decreased incidence of myocardial infarction (MI). PAI-1 4G/4G genotype seemed to lessen the beneficial effect of FXIII 34Leu allele. The aim of our study was to further investigate the possible protective role of the FXIII 34Leu allele against MI and its suggested interaction with the PAI-1 4G/5G polymorphism. We carried out genotype analyses for FXIII Val34Leu using solid-phase minisequencing in two independent Finnish study groups. In our study, the FXIII 34Leu allele was associated with a lower risk of MI (P = 0.009), however, the PAI-1 4G allele showed no interaction with this polymorphism. To establish the population frequency of the FXIII 34Leu allele and to study the possible variations in Finland four DNA pools from different geographical areas of Finland were genotyped. No significant differences in the allele frequencies were observed (21-28%) except in the Eastern Kainuu area (13%), an area with an increased risk of mortality from coronary artery disease (CAD), supporting the results presented above. The association of FXIII 34Leu variant with a lower incidence of myocardial infarction suggests a new role for FXIII in a polygenic thrombotic disease.
Atherosclerosis 1999 Feb
PMID:Association of FXIII Val34Leu with decreased risk of myocardial infarction in Finnish males. 1003 Mar 80

Although atherosclerosis progresses in an indolent state for decades, the rupture of plaques creates acute ischemic syndromes that may culminate in myocardial infarction and stroke. Mechanical forces and matrix metalloproteinase activity initiate plaque rupture, whereas tissue inhibitors of metalloproteinases have an important (albeit indirect) role in plaque stabilization. In this paper, an enzyme that could directly stabilize the plaque is described. Tissue transglutaminase (TG) catalyzes the formation of epsilon(gamma-glutamyl)lysine isopeptide bonds that are resistant to enzymatic, mechanical, and chemical degradation. We performed immunohistochemistry for TG in atherosclerotic human coronary and carotid arteries. TG was most prominent along the luminal endothelium and in the medium of the vessels with a distribution mirroring that of smooth muscle cells. Variable, often prominent, immunoreactivity for TG was also seen in the intima, especially in regions with significant neovascularization. Additionally, TG was detected in fibrous caps and near the "shoulder regions" of some plaques. A monoclonal antibody to the transglutaminase product epsilon(gamma-glutamyl)lysine isopeptide demonstrated co-localization with TG antigen. Transglutaminase activity was found in 6 of 14 coronary artery atherectomy samples. Cross-linking of TG substrates such as fibrinogen, fibronectin, vitronectin, collagen type I, and protease inhibitors stabilized the plaque. Furthermore, the activation of transforming growth factor-beta-1 by TG might be an additional mechanism for the promotion of plaque stabilization and progression by increasing the synthesis of extracellular matrix components.
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PMID:Localization of tissue transglutaminase in human carotid and coronary artery atherosclerosis: implications for plaque stability and progression. 1120 77

Angiotensin II, a small peptide hormone that plays key roles in the regulation of blood pressure, also contributes to inflammatory processes that promote the development of atherosclerosis. In this issue of Cell, AbdAlla et al. (2004) provide evidence that pathogenic actions of angiotensin II involve covalent crosslinking of angiotensin AT1 receptors by factor XIIIA transglutaminase, resulting in stable receptor dimers with enhanced signaling properties.
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PMID:Factor XIIIA (cross)links AT1 receptors to atherosclerosis. 1550 6

Many G protein-coupled receptors form dimers in cells. However, underlying mechanisms are barely understood. We report here that intracellular factor XIIIA transglutaminase crosslinks agonist-induced AT1 receptor homodimers via glutamine315 in the carboxyl-terminal tail of the AT1 receptor. The crosslinked dimers displayed enhanced signaling and desensitization in vitro and in vivo. Inhibition of angiotensin II release or of factor XIIIA activity prevented formation of crosslinked AT1 receptor dimers. In agreement with this finding, factor XIIIA-deficient individuals lacked crosslinked AT1 dimers. Elevated levels of crosslinked AT1 dimers were present on monocytes of patients with the common atherogenic risk factor hypertension and correlated with an enhanced angiotensin II-dependent monocyte adhesion to endothelial cells. Elevated levels of crosslinked AT1 receptor dimers on monocytes could sustain the process of atherogenesis, because inhibition of angiotensin II generation or of intracellular factor XIIIA activity suppressed the appearance of crosslinked AT1 receptors and symptoms of atherosclerosis in ApoE-deficient mice.
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PMID:Factor XIIIA transglutaminase crosslinks AT1 receptor dimers of monocytes at the onset of atherosclerosis. 1550 3

All transglutaminases share the common enzymatic activity of transamidation, or the cross-linking of glutamine and lysine residues to form N epsilon (gamma-glutamyl) lysyl isopeptide bonds. The plasma proenzyme factor XIII is responsible for stabilizing the fibrin clot against physical and fibrinolytic disruption. Another member of the transglutaminase family, tissue transglutaminase or TG2 is abundantly expressed in cardiomyocytes, vascular cells and macrophages. The transglutaminases have a variety of functions independent of their transamidating activity. For example, TG2 binds and hydrolyzes GTP, thereby fostering signal transduction by several G protein coupled receptors. Accumulating evidence points to novel roles for factor XIII and TG2 in cardiovascular biology including: (a) modulating platelet activity, (b) regulating glucose control, (c) contributing to the development of hypertension, (d) influencing the progression of atherosclerosis, (e) regulating vascular permeability and angiogenesis (f) and contributing to myocardial signaling, contractile activity and ischemia/reperfusion injury. In this review, we summarize the cardiovascular biology of two members of the family of transglutaminases, Factor XIII and TG2.
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PMID:Roles of transglutaminases in cardiac and vascular diseases. 1712 61


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