Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.14.11.2 (prolyl hydroxylase)
 1,814 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lysyl oxidase catalyzes the crosslinking of collagen and elastin. Lysyl oxidase activity was measured and localized in rat liver during the evolution of hepatic fibrosis induced by CCl4. Enzyme activity measured with DL-[6-3H]-lysine-labeled collagen substrates in liver and plasma increased sharply after approximately 3 wk of injection, reached a maximum at 6 wk, and then decreased. The increase in activity correlated histologically with early connective tissue septa formation, and the magnitude of increase was significantly greater than that found for the intracellular collagen biosynthetic enzymes protocollagen prolyl hydroxylase and lysyl hydroxylase. Indirect immunofluorescence studies showed that lysyl oxidase was present in association with collagen in the extracellular space. However, it was not possible to correlate the distribution pattern with a particular liver cell type. These observations suggest that serial measurements of lysyl oxidase activity in liver or plasma may be useful for correlating changes in connective tissue formation with histologic connective tissue deposition.
 ...
PMID:Biochemical and immunochemical study of lysyl oxidase in experimental hepatic fibrosis in the rat. 2 18

Both clinical and experimental evidence implicate proteolytic enzymes active against elastin in the pathogenesis of emphysema. Paradoxically, however, the elastin content of emphysematous human lungs at autopsy has been normal. When emphysema was produced in hamsters by a single intratracheal injection of 25 units of porcine pancreatic elastase, the elastin content of the lungs was reduced from 1.40 +/- 0.22 mg. in controls to 0.43 +/- 0.10 mg. 24 hours after injection, and histologic sections showed that many elastic fibers had disappeared. The elastin content of the lungs gradually increased, approaching normal values by 2 months after injection. The incorporation of 14C-proline into elastin was markedly elevated during the first 2 weeks after injection, decreasing nearly to normal by 2 months. The synthesis of collagen was also increased, indicated by an increase in the collagen content of the lung, an increase in the prolyl hydroxylase activity, and an increase in incorporation of labeled proline into collagen. During the period of active resynthesis of elastin, small clumps of microfibrils and elastic fibrils were visible by electron microscopy within grooves on the surface of septal connective tissue cells in the lungs. Many elastic fibers seen in histologic sections up to 4 months after injection were of abnormal configuration and disorganized.
 ...
PMID:The induction of emphysema with elastase. II. Changes in connective tissue. 17 9

With the aim of understanding the structural basis for the substrate specificity of collagen prolyl 4-hydroxylase, we have studied the conformational features of synthetic oligopeptide substrates and their interaction with the enzyme purified from chicken embryo. Circular dichroism and infrared spectral data, taken in conjunction with relevant crystal structure data, indicated an equilibrium mixture of the polyproline-II (PP-II) helix, the beta-turn, and the random coil conformations in aqueous and trifluoroethanol solutions of the "collagen-related" peptides: t-Boc-Pro-Pro-Gly-Pro-OH, t-Boc-Pro-Pro-Gly-Pro-NHCH3, t-Pro-Pro-Gly-Pro-Pro-OH, t-Boc-Pro-Pro-Ala-Pro-OH, and t-Boc-Pro-Pro-Gln-Pro-OCH3, where t-Boc is tert-butoxycarbonyl. In another set of peptides related to elastin, t-Boc-Val-Pro-Gly-Val-OH and t-Boc-Gly-Val-Pro-Gly-Val-OH, the data indicated the beta-structure, rather than the PP-II helix, was in equilibrium with the beta-turn. Kinetic parameters for the enzymatic hydroxylation of the peptides showed that as a group, the first (proline-rich) set of peptides has higher Km values and lower Vmax and Kcat/Km values than the valine-rich peptides. Data on the inhibition of hydroxylation of the standard assay substrate (Pro-Pro-Gly)10 by the oligopeptides pointed to common binding sites for the peptides. Hydroxyproline-containing peptides had no effect on the hydroxylation of the standard substrate, showing the absence of product inhibition. Based on these and earlier data, we propose that in collagen and related peptides, a supersecondary structure consisting of the PP-II helix followed by the beta-turn is the minimal structural requirement for proline hydroxylation. The PP-II structure would aid effective interaction at the substrate binding subsites, while the beta-turn would be essential at the catalytic site of the enzyme. In elastin and related peptides, the beta-strand structure may be interchangeable with the PP-II structure. This conformational model for proline hydroxylation resolves the discrepancies in earlier proposals on the substrate specificity of prolyl 4-hydroxylase. It is also consistent with the available information on the active site geometry of the enzyme.
 ...
PMID:Interaction of prolyl 4-hydroxylase with synthetic peptide substrates. A conformational model for collagen proline hydroxylation. 184 36

We show here that cultured neonatal-rabbit aortic smooth-muscle cells produce and accumulate significant amounts of insoluble elastin. When grown in the presence of ascorbic acid, the amount of insoluble elastin in these cultures decreases, whereas the accumulation of collagen increases. These changes have been attributed to increased hydroxylation of proline in elastin. The function of ascorbic acid in proline hydroxylation is thought to be that of a reductive cofactor that maintains the proper oxidation state of molecular iron in the enzyme complex. This study shows that both ascorbic and isoascorbic acids act similarly to modify the accumulation of elastin and collagen in culture. On the other hand, cultures grown in the presence of dithiothreitol, a reducing agent previously shown to act as a cofactor for prolyl hydroxylase, do not demonstrate altered elastin accumulation. These studies are consistent with the suggestion that there is a specific role for ascorbic acid in this cellular system that cannot be replaced by other reducing cofactors.
 ...
PMID:Effect of the reducing environment on the accumulation of elastin and collagen in cultured smooth-muscle cells. 293 May 13

The effects of ascorbic acid supplementation on the pulmonary toxicity induced by bleomycin were examined. Swiss-Webster mice were fed an ascorbate-free diet supplemented with ascorbic acid at 0%, 0.2%, or 1.0% of the diet for 2 weeks. Bleomycin (0.15 units) was instilled intratracheally and the mice were killed 1 week later. Bleomycin caused pulmonary inflammation and edema as noted by the increases in lung wet weight and lung wet-weight-to-dry-weight ratios. The activity of prolyl hydroxylase was increased 1.4-fold to 1.6-fold in response to bleomycin, but only minor increases were observed in the collagen and elastin content of the lung. Prior dietary ascorbic acid supplementation did not reverse the effects induced by bleomycin. Interestingly, each dietary level of supplemental ascorbic acid resulted in a slight increase in the elastin and collagen content of the lung in comparison with lungs from mice consuming no ascorbic acid in their diet. The data suggest that high levels of ascorbic acid supplementation may aggravate the response to bleomycin.
 ...
PMID:Interactions of ascorbic acid supplementation and bleomycin instillation on murine lung connective tissue metabolism. 620 40

Cells were isolated from the aortas of 17-day old chick embryos and they were stained with fluorescent antibodies specific for Type I collagen, Type I procollagen, Type III collagen, elastin and prolyl hydroxylase. The results indicated that the same cells simultaneously synthesize Type I procollagen, Type III procollagen and elastin. The synthesis of procollagens, and the presence of prolyl hydroxylase, in the same cells which synthesize elastin may well explain why elastin contains hydroxy-proline.
 ...
PMID:Demonstration by immunofluorescence that the same cells from chick embryo aortas synthesize elastin and collagen types I and III. 625 40

Hairless mice (Skh/ hr1 ) were exposed to ultraviolet A (UVA; peak irradiance at 365 nm), or to ultraviolet B (UVB; peak irradiance at 313 nm) radiation. The animals received 12 treatments on alternate days. Connective tissue changes in the skin were monitored by assaying hydroxyproline and desmosine as an indication of collagen and elastin concentrations, respectively. The activities of prolyl hydroxylase and collagen glucosyl-transferase, enzymes participating in the biosynthesis of collagen, were also assayed. The concentration of elastin was significantly increased in mice treated with UVA or UVB. The concentration of collagen was unaffected by the treatments, but the activity of prolyl hydroxylase, reflecting collagen synthetic capacity, was decreased in UVA-treated mice. The collagen glucosyl-transferase activity was unchanged. Irradiation of purified human prolyl hydroxylase with UVA in vitro decreased the enzyme activity at higher doses, but UVB had no effect. The results indicate that definitive changes in the biochemistry of dermal connective tissues can be induced by exposure of mice to UV irradiation.
 ...
PMID:Ultraviolet radiation-induced connective tissue changes in the skin of hairless mice. 632 31

Phosgene, an acylating agent, is a very potent inducer of pulmonary edema. Subchronic effects of phosgene in laboratory animals are not well characterized. The purpose of the study was to elucidate potential long-term effects on collagen and elastin metabolism during pulmonary injury/recovery and obtain information about the concentration x time (C x T) behavior of low levels of phosgene. Male Fischer 344 rats (60 days old) were exposed either to clean air or phosgene, 6 hr/day: 0.1 ppm (5 days/week), 0.2 ppm (5 days/week), 0.5 ppm (2 days/week), and 1.0 ppm (1 day/week), for 4 or 12 weeks. A group of rats was allowed clean air recovery for 4 weeks after 12 weeks of phosgene exposure. This exposure scenario was designed to provide equal C x T product for all concentrations at one particular time point except for 0.1 ppm (50% C x T). Phosgene exposure for 4 or 12 weeks increased lung to body weight ratio and lung displacement volume in a concentration-dependent manner. The increase in lung displacement volume was significant even at 0.1 ppm phosgene at 4 weeks. Light microscopic level histopathology examination of lung was conducted at 0.0, 0.1, 0.2, and 1.0 ppm phosgene following 4 and 12 and 16 weeks (recovery). Small but clearly apparent terminal bronchiolar thickening and inflammation were evident with 0.1 ppm phosgene at both 4 and 12 weeks. At 0.2 ppm phosgene, terminal bronchiolar thickening and inflammation appeared to be more prominent when compared to the 0.1 ppm group and changes in alveolar parenchyma were minimal. At 1.0 ppm, extensive inflammation and thickening of terminal bronchioles as well as alveolar walls were evident. Concentration rather than C x T seems to drive pathology response. Trichrome staining for collagen at the terminal bronchiolar sites indicated a slight increase at 4 weeks and marked increase at 12 weeks in both 0.2 and 1.0 ppm groups (0.5 ppm was not examined), 1.0 ppm being more intense. Whole-lung prolyl hydroxylase activity and hydroxyproline, taken as an index of collagen synthesis, were increased following 1.0 ppm phosgene exposure at 4 as well as 12 weeks, respectively. Desmosine levels, taken as an index of changes in elastin, were increased in the lung after 4 or 12 weeks in the 1.0 ppm phosgene group. Following 4 weeks of air recovery, lung hydroxyproline was further increased in 0.5 and 1.0 ppm phosgene groups. Lung weight also remained significantly higher than the controls; however, desmosine and lung displacement volume in phosgene-exposed animals were similar to controls. In summary, terminal bronchiolar and lung volume displacement changes occurred at very low phosgene concentrations (0.1 ppm). Phosgene concentration, rather than C x T product appeared to drive toxic responses. The changes induced by phosgene (except of collagen) following 4 weeks were not further amplified at 12 weeks despite continued exposure. Phosgene-induced alterations of matrix were only partially reversible after 4 weeks of clean air exposure.
 ...
PMID:Pulmonary structural and extracellular matrix alterations in Fischer 344 rats following subchronic phosgene exposure. 919 22

The interstitial lung disease lymphangioleiomyomatosis (LAM) is characterized by diffuse proliferation of smooth muscle cells (SMCs), which in many patients show TSC2 (tuberin) gene mutations, in addition to thickening of interstitial tissues, loss of alveoli, and the development of cystic spaces. While SMC proliferation is the defining feature of LAM, a significant proportion of LAM lung tissue consists of expanded interstitial connective tissue that is negative for smooth muscle actin and TSC2 mutations. The importance of this actin-negative interstitial tissue to the pathophysiology of LAM is not clear. The present study has determined the contribution of this interstitial tissue to LAM lung volume by morphometric analysis and has examined its cell and matrix proteoglycan composition by immunohistochemistry. Lung tissue from nine LAM patients and four control subjects was examined. LAM lung contained twice as much interstitial tissue as control lung (27% versus 13% of total lung volume), with SMCs accounting for less than 25% of the interstitial volume. Areas of interstitial tissue stained strongly for the matrix proteoglycans versican and biglycan. Decorin was prominent in association with collagen bundles. SMCs did not stain, or stained lightly, for proteoglycans. Versican and biglycan deposits were closely associated with actin-negative interstitial fibroblasts identified by prolyl 4-hydroxylase immuno-staining. Comparatively normal alveolar walls in LAM lung also stained strongly for versican and had a reduced elastin content. Thickened interstitial regions contained significant amounts of elastin (approximately 13% of interstitial volume) but with fibres in disorganized patterns. Elastic fibres were absent from areas that stained strongly for versican and biglycan. These areas also showed weak staining for elastin binding protein (EBP), consistent with proteoglycan-induced shedding of EBP and inhibition of elastic fibre formation. These findings point to a significant contribution from matrix proteoglycans to the expanded and remodelled interstitial lung tissue of LAM patients.
 ...
PMID:Matrix proteoglycans and remodelling of interstitial lung tissue in lymphangioleiomyomatosis. 1514 80

4-Hydroxyproline is found in collagens, collagen-like proteins, elastin, and the hypoxia-inducible transcription factor in animals and in many hydroxyproline-rich glycoproteins in plants. We report here on the cloning and characterization of a second plant P4H (prolyl 4-hydroxylase), At-P4H-2, from Arabidopsis thaliana. It consists of 299 amino acids and shows 33% sequence identity to the first characterized isoenzyme, At-P4H-1. A characteristic feature of the At-P4H-2 polypeptide is a 49-amino-acid C-terminal toxin homology domain with 6 cysteines that is not found in At-P4H-1 but is present in a putative rice P4H homologue. At-P4H-2 differed distinctly from At-P4H-1 in its substrate specificity. Recombinant At-P4H-2 hydroxylated poly(L-proline) and extensin and arabinogalactan-like peptides effectively but with much higher Km values than At-P4H-1, suggesting different roles for the two At-P4Hs in the plant cell. Unlike At-P4H-1, At-P4H-2 hydroxylated collagen-like peptides only very inefficiently and did not hydroxylate hypoxia-inducible transcription factor alpha-like peptides at all. All the peptides efficiently hydroxylated by At-P4H-2 had at least 3 consecutive prolines, suggesting that these may represent a minimum requirement for efficient hydroxylation by this isoenzyme. N-terminal sequencing of an extensin-like peptide SPPPVYKSPPPPVKHYSPPPV indicated that At-P4H-2 preferentially hydroxylated the 3rd proline in the C-terminal PPP triplet. The Km values of At-P4H-2 for the reaction cosubstrates Fe2+, 2-oxoglutarate, and ascorbate were similar to those of At-P4H-1 with the exception that the Km for iron was about 3-fold lower. Pyridine-2,4-dicarboxylate and pyridine-2,5-dicarboxylate, well known competitive inhibitors of the vertebrate P4Hs with respect to 2-oxoglutarate, were also competitive inhibitors of At-P4H-2 but with Ki values 5-100-fold higher than those of human type I collagen P4H. It thus seems that there are some distinct differences in the structure of the 2-oxoglutarate-binding site between At-P4H-2 and the animal collagen P4Hs.
 ...
PMID:Characterization of a second Arabidopsis thaliana prolyl 4-hydroxylase with distinct substrate specificity. 1552


1 2 Next >>