Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.4.3.13 (lysyl oxidase)
 1,248 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Healing of ocular surface wounds is a complex process involving migration, mitosis, and differentiation of epithelial and stromal cells. Endogenously produced peptide growth factors such as epidermal growth factor (EGF), transforming growth factor alpha (TGF-alpha), or transforming growth factor beta (TGF-beta) may play key roles in the natural wound healing process. Lacrimal gland cells were reported to synthesize and secrete EGF into tear fluid where it may enhance healing of corneal epithelial and stromal injuries by an exocrine pathway. EGF stimulated DNA synthesis of epithelial cells and stromal fibroblasts in culture, stimulated synthesis of fibronectin by epithelial cells and was chemotactic for human epithelial and stromal cells. Human corneal epithelial cells also synthesized TGF-alpha which may influence epithelial cells by an autocrine pathway. TGF-beta, which is a potent inducer of lysyl oxidase mRNA levels in cultures of human scleral fibroblasts, may be the factor most responsible for inducing synthesis of corneal extracellular matrix components after an injury. Treatment of epithelial injuries ocular surface wounds with exogenous peptide growth factors also accelerated healing in rabbits and primates. Treatment of severe ocular surface injuries caused by alkali with a combination of EGF, fibronectin, a synthetic collagenase inhibitor, and Aprotinin significantly blocked ulceration and enhanced epithelial regeneration. Clinical trials of topical treatment of EGF for ocular surface wounds suggest that peptide growth factors may be a valuable adjuvant for treatment of ocular surface wounds.
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PMID:Effects of growth factors on corneal wound healing. 132 13

Solubilized interstitial collagens will form a fibrillar, gel-like lattice when brought to physiologic conditions. In the presence of human dermal fibroblasts the collagen lattice will contract. The rate of contraction can be determined by computer-assisted planemetry. The mechanisms involved in contraction are as yet unknown. Using this system it was found that the rate of contraction was markedly decreased when collagen lacking telopeptides was substituted for native collagen. Histidinohydroxylysinonorleucine (HHL) is a major stable trifunctional collagen cross-link in mature skin that involves a carboxyl terminal, telopeptide site 16c, the sixteenth amino acid residue from the carboxy terminal of the telopeptide region of alpha 1 (I) in type I collagen. Little, if any, HHL was present in native, purified, reconstituted, soluble collagen fibrils from 1% acetic acid-extracted 2-year-old bovine skin. In contrast, HHL cross-links were present (0.22 moles of cross-link per mole of collagen) in lattices of the same collagen contracted by fibroblasts. However, rat tail tendon does not contain HHL cross-links, and collagen lattices made of rat tail tendon collagen are capable of contraction. This suggests that telopeptide sites, and not mature HHL cross-links per se, are essential for fibroblasts to contract collagen lattices. Beta-aminopropionitrile fumarate (BAPN), a potent lathyrogen that perturbs collagen cross-linking by inhibition of lysyl oxidase, also inhibited the rate of lattice cell contraction in lattices composed of native collagen. However, the concentrations of BAPN that were necessary to inhibit the contraction of collagen lattices also inhibited fibroblast growth suggestive of cellular toxicity. In accordance with other studies, we found no inhibition of the rate of lattice contraction when fibronectin-depleted serum was used. Electron microscopy of contracted gels revealed typical collagen fibers with a characteristic axial periodicity. The data provide evidence that collagen telopeptide sites play a role in collagen gel lattice contraction.
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PMID:Collagen telopeptides (cross-linking sites) play a role in collagen gel lattice contraction. 187 57

Three glucuronate-rich dermatan sulfate proteoglycan (DS-PG) subclasses were isolated and previously characterized from bovine aortic endothelial cell cultures (Kinsella, M. G., and Wight, T. N. (1988) J. Biol. Chem. 263, 19222-19231). In the present study, pulse-chase experiments indicate that the DS-PG of highest apparent Mr (approximately 1 x 10(6)), denoted previously as HMW-DS, is a relatively stable component of the endothelial extracellular matrix and is formed at the expense of lower Mr DS-PG species. The formation of HMW-DS is reduced in a dose-dependent manner in the presence of dansylcadaverine, an inhibitor of transglutaminase-catalyzed protein cross-linking, but not when the activity of other cross-linking enzymes such as lysyl oxidase is inhibited. The putative DS-PG precursor to HMW-DS accumulates during inhibition of cross-linking only when lysosomal degradation is also inhibited by ammonium chloride, suggesting that the precursor is degraded rapidly in the absence of cross-linking. HMW-DS is precipitable from endothelial cell monolayer extracts with antibodies against fibronectin, a known transglutaminase substrate. Thus, we conclude that the stability of HMW-DS in the subendothelial matrix in culture depends upon the cross-linking of a low Mr DS-PG precursor to matrical protein(s), including fibronectin, resulting in the formation of a DS-PG subclass of high apparent molecular mass.
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PMID:Formation of high molecular weight dermatan sulfate proteoglycan in bovine aortic endothelial cell cultures. Evidence for transglutaminase-catalyzed cross-linking to fibronectin. 197 31

Using Western immunoblotting, the extractable proteins of the bovine zonular fibers were examined for reactivity with two zonular antisera known to have strong affinity for zonular fibers in tissues, in order to identify the antigenic components. The extracts were also tested with antisera to several matrix proteins that have been reported to be associated with zonular fibers. Proteins reactive with antisera to bovine serum albumin, serum immunoglobulins and fibronectin were present. No bands reactive with antisera to a-elastin, prealbumin, amyloid P component, collagen VI, lysyl oxidase or monoclonal antibody to fibrillin were demonstrated. The major nonserum protein band identified by both antisera was a 32kD polypeptide. An equally strong 250kD polypeptide was shown by the antiserum to guanidine-dithiothreitol extracted zonular fibers. Both of these proteins were PAS-positive and were demonstrated also by the antisera in extracts of bovine elastic neck ligament. Whether the two glycoproteins are related to each other, with the higher molecular weight protein either a precursor or aggregate form, is not yet clear. They appear to bear a close relationship to the elusive core microfibrillar protein.
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PMID:Identification of extractable proteins from the bovine ocular zonule: major zonular antigens of 32kD and 250kD. 337 Oct 65

Early studies showed that during hepatic fibrosis induced by bile duct ligation, fibroblasts within the portal tracts proliferate and express alpha-smooth muscle (SM) actin, suggesting that they may be involved in the deposition of extracellular matrix components in cholestatic fibrosis. Thus, we investigated the deposition of extracellular matrix components (laminin, fibronectin EIIIA, collagen I and IV, procollagen III, elastin, tenascin) as well as the expression of lysyl oxidase and of alpha-SM actin in the portal zone at 24, 48, and 72 hours and 7 days after ligation of the common bile duct. Rat liver tissues were processed for immunofluorescence, in situ hybridization, immunohistochemistry, and for electron and immunoelectron microscopy. At all times examined after bile duct ligation, laminin was observed essentially in the basal membrane of vessels and portal ductules. In sham-operated animals, the fibronectin EIIIA was present exclusively in vessels; at 24 hours postinjury, fibronectin EIIIA expression appeared in both the portal zone and along sinusoids. Two days after ligation, increased expressions of collagen I and IV, procollagen III, and elastin were observed within the portal zone, compared with sham-operated animals. The deposition of these components increased thereafter. Tenascin expression increased soon after bile duct ligation in stroma surrounding proliferating ductules, reaching a maximum at 48 hours; thereafter, expression was restricted to the periphery of proliferating ductules. By in situ hybridization, procollagen I and tissue inhibitor of metalloproteinase-1 mRNA expression was greatly increased in periductular areas at 24 hours postligation and remained elevated throughout the experiment. At 24 hours, a strong reactivity for lysyl oxidase appeared in the portal zone, and, as in controls, alpha-SM actin expression was restricted to vascular SM cells. In the stroma adjacent to proliferating ductules, alpha-SM actin appeared at 48 hours, and the number of alpha-SM actin-positive cells increased until the 7th day. Lysyl oxidase staining increased until 72 hours after bile duct ligation, when it was located in areas surrounding the myofibroblastic cells. At 7 days, lysyl oxidase expression was restricted around myofibroblastic cells present at the periphery of the reactive tissue and appeared to extend into the surrounding parenchyma. These results show that after bile duct ligation, extracellular matrix deposition, and lysyl oxidase expression occur very early in portal connective tissue surrounding proliferating ductules, and precede myofibroblastic differentiation, ie, alpha-SM actin expression. In addition, the data are compatible with the suggestion that in the bile duct ligation model, myofibroblastic differentiation represents an adaptive response to modification of the extracellular matrix environment.
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PMID:Extracellular matrix deposition, lysyl oxidase expression, and myofibroblastic differentiation during the initial stages of cholestatic fibrosis in the rat. 919 53

Early morphogenesis of mouse submandibular glands begins on late day 11 of fetal development when the epithelium begins to bud from the surrounding mandibular mesenchyme. Using total RNA collected from fetal BALB/c submandibular glands, steady-state levels of mRNA expression for extracellular matrix molecules were measured using quantitative competitive reverse transcription-polymerase chain reaction (RT-PCR). By comparing the PCR amplification products of both the cellular mRNA and a synthetic template, pMATRIX, it was possible to measure the direct expression of collagens alpha2(I), alpha1(III), alpha1(IV), fibronectin, laminin B2, elastin and lysyl oxidase genes. There was an observed trend for an increasing concentration of collagen alpha2(I), collagen alpha1(III) and lysyl oxidase mRNA molecules per cell on day 16 of development. The relative abundance of elastin mRNA was detectable only on day 16. Fibronectin and laminin B2 were more constitutively present but had their highest copy number per cell on day 16. The presence of extracellular-matrix protein was confirmed by immunohistochemistry using day-16 fetal glands and adult glands. With the construction of the pMATRIX supertemplate and the advent of quantitative, competitive RT-PCR technology, it has been possible to measure small changes in the steady-state concentrations for extracellular-matrix mRNA during salivary gland development.
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PMID:Extracellular-matrix gene expression during mouse submandibular gland development. 938 9

The process leading to irreversible fibrotic constriction of the bronchioles was studied in two cases of bronchiolitis obliterans (BO) after bone marrow transplantation. Because lysyl oxidase (LOX) is the main collagen cross-linking enzyme that might account for irreversible fibrosis, its expression was studied together with expression of extracellular matrix (ECM) proteins. Characteristic types of lesions could be distinguished on the basis of histological and immunohistological criteria. An inflammatory stage was characterised by infiltration restricted to the bronchioles by lymphocytes and dendritic cells. A fibro-inflammatory stage was characterised by the coexistence of a persistent immune cellular lesion pattern with further focal modelling of a sub-epithelial neo-synthesised connective matrix. LOX expression was observed at the tips of intra-luminal fibrotic protrusions, together with tenascin and cellular fibronectin. A fibrotic stage was characterised by dense ECM deposits spreading throughout the peri-bronchiolar connective tissue, resulting in bronchiole obliteration and final disappearance. In contrast to reversible cases of fibrosis, persistence of long-term LOX expression reflecting continuing fibrosing activity might account for the irreversible status of BO. Our two cases illustrated that, at inflammatory and fibro-inflammatory stages, BO may be stabilised by immunosuppressive treatment, while the persistence of LOX expression in the fibrotic stage might correspond to a disease that becomes irreversible and fatal.
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PMID:Constrictive bronchiolitis obliterans. Characterisation of fibrogenesis and lysyl oxidase expression patterns. 1149 44

Uncontrolled expansion of adipose tissue leads to obesity, a public health epidemic affecting >30% of adult Americans. Adipose mass increases in part through the recruitment and differentiation of an existing pool of preadipocytes (PA) into adipocytes (AD). Most studies investigating adipogenesis used primarily murine cell lines; much less is known about the relevant processes that occur in humans. Therefore, characterization of genes associated with adipocyte development is key to understanding the pathogenesis of obesity and developing treatments for this disorder. To address this issue, we performed large-scale analyses of human adipose gene expression using microarray technology. Differential gene expression between PA and AD was analyzed in 6 female patients using human cDNA microarray slides and data analyzed using the Stanford Microarray Database. Statistical analysis for the gene expression was performed using the SAS mixed models. Compared with PA, several genes involved in lipid metabolism were overexpressed in AD, including fatty acid binding protein, adipose differentiation-related protein, lipoprotein lipase, perilipin, and adipose most abundant transcript 1. Novel genes expressed in adipocytes included E2F5 transcriptional factor and SMARC (SWI/SNF-related, matrix associated, actin-dependent regulator of chromatin). PA predominantly expressed genes encoding extracellular matrix components such as fibronectin, matrix metalloprotein, and novel proteins such as lysyl oxidase. Despite the high differential expression of some of these genes, many did not differ significantly likely due to high variability and limited statistical power. A comprehensive list of differential gene expression is presented according to cellular function. In conclusion, these studies offer an overview of the gene expression profiles in PA and AD and identify new genes with potentially important functions in adipose tissue development and obesity that merit further investigation.
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PMID:Gene expression profiling in human preadipocytes and adipocytes by microarray analysis. 1505 23

The expression of RAG1 and RAG2 is essential for V(D)J rearrangement of the immunoglobulin (Ig) locus in developing B cells. In mature B cells further V(D)J rearrangement is suppressed and RAG1/2 proteins decline to undetectable levels. However, there is evidence that mature B cells in the periphery may re-express RAG1/2. In humans evidence of RAG1/2 re-expression is often linked with an autoimmune state, indicating that further understanding of re-expression may be crucial to understanding immune disorders. We have investigated the molecular consequences of RAG1/2 expression in mature lymphocytes using a cell culture system (M12 and DR3). M12 (IgG+, Igkappa+ and RAG-) is a mouse B cell lymphoma. DR3 is a RAG1+/RAG2+ line derived from M12 by introduction of stable plasmids carrying RAG1 and RAG2 cDNAs. RAG1/2 mediated receptor revision occurs in the DR3 line, as evidenced by both the deletion of the endogenous rearranged Igkappa gene segment (present in the parent M12 lines) and the presence of a new Iglambda rearrangement. Gene expression profiles obtained through microarray analysis and RT-PCR found differences in expression levels between the two lines for: fibronectin, lysyl oxidase, TAP2, B220, Igkappa, TIS11B, HMG2 and DNAPKcs. Thus, the expression of RAG1/2 in a previously RAG- cell line results in multiple changes to the gene expression profile as well as receptor revision. The significance of the changes found in this model of RAG re-expression is discussed.
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PMID:RAG1/2 re-expression causes receptor revision in a model B cell line. 1670 98

Previous data from spaceflight studies indicate that injured muscle and bone heal slowly and abnormally compared with ground controls, strongly suggesting that ligaments or tendons may not repair optimally as well. Thus the objective of this study was to investigate the biochemical and molecular gene expression of the collagen extracellular matrix in response to medial collateral ligament (MCL) injury repair in hindlimb unloaded (HLU) rodents. Male rats were assigned to 3- and 7-wk treatment groups with three subgroups each: sham control, ambulatory healing (Amb-healing), and HLU-healing groups. Amb- and HLU-healing animals underwent bilateral surgical transection of their MCLs, whereas control animals were subjected to sham surgeries. All surgeries were performed under isoflurane anesthesia. After 3 wk or 7 wk of HLU, rats were euthanized and MCLs were surgically isolated and prepared for molecular or biochemical analyses. Hydroxyproline concentration and hydroxylysylpyridinoline collagen cross-link contents were measured by HPLC and showed a substantial decrement in surgical groups. MCL tissue cellularity, quantified by DNA content, remained significantly elevated in all HLU-healing groups vs. Amb-healing groups. MCL gene expression of collagen type I, collagen type III, collagen type V, fibronectin, decorin, biglycan, lysyl oxidase, matrix metalloproteinase-2, and tissue inhibitor of matrix metalloproteinase-1, measured by real-time quantitative PCR, demonstrated differential expression in the HLU-healing groups compared with Amb-healing groups at both the 3- and 7-wk time points. Together, these data suggest that HLU affects dense fibrous connective tissue wound healing and confirms previous morphological and biomechanical data that HLU inhibits the ligament repair processes.
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PMID:Temporal extracellular matrix adaptations in ligament during wound healing and hindlimb unloading. 1769 62


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