Aortic Elastin Research Articles

Oxysterol incorporation into rat aorta resulting in elastin compositional changes

The incorporation of dietary cholestan-3 beta,5 alpha,6 beta-triol (triol) into rat thoracic aortic tissue and changes in amino acid composition of the elastin were investigated to identify the cytotoxic properties of the triol. Weanling male Sprague-Dawley rats were fed the following diets for three months: (i) normal chow, (ii) normal chow with 1% (w/w) cholesterol added, or (iii) normal chow with 0.9% (w/w) cholesterol and 0.1% (w/w) triol added. Triol levels in the blood and in the thoracic aortic tissue were measured. Compositional changes of elastin were also determined. After three months on the triol-containing diet, triol was found in the thoracic aorta but was not detected in the blood. Amino acid analyses of the aortic tissue elastin revealed that the proline levels in the triol-fed animals were significantly greater than in the other two diet groups, while the elastin levels of leucine, aspartate, arginine, and phenylalanine decreased significantly. The mechanism for these observed changes induced by triol may reflect alternate splicing of elastin messenger ribonucleic acid (mRNA) resulting in structual changes in the elastin molecule. Dietary triol does contribute to tissue triol content and is associated with aortic elastin compositional changes. How these changes may contribute to the development of cardiovascular disease is not known.

Interaction of low density lipoproteins with human aortic elastin.

Interaction between lipoproteins and elastin in the arterial wall may play an important role in atherosclerotic lipid deposition, but binding affinities and other characteristics of the interaction have not been determined previously. Elastin was isolated by hot alkali treatment of human aortic tissue. At 4 degrees C, radioiodinated human low density lipoprotein (LDL) bound to more than one class of binding sites on elastin. Sites of highest affinity had an apparent dissociation constant of 3.6 x 10(-8) M. Total binding at an LDL concentration of 50 micrograms/ml ranged from 4 to 50 ng LDL protein/mg elastin. The binding was relatively specific, since binding was competitively inhibited by LDL and apo E-containing high density lipoprotein (HDL) but only modestly by HDL3. Atherosclerotic elastin exhibited a twofold to fourfold higher capacity for binding LDL, but a reduced affinity. At 37 degrees C, normal elastin exhibited an initial rapid binding of LDL, with a slower linear phase of binding over a 15-hour period, indicating an additional complex process at this temperature. Consideration of the expected LDL concentrations in the arterial intima, in comparison with binding affinities, suggests that LDL binding to elastin probably occurs in the intima and may foster atherosclerotic lipid deposition.

Role of elastase and lysyl oxidase activity in spontaneous rupture of internal elastic lamina in rats.

Rupture of the internal elastic lamina may occur spontaneously with age in certain arteries of the rat and to various extents in different strains. This phenomenon may have some bearing on certain aspects of arterial pathology. For this study, we investigated biochemically the mechanisms of formation of interruptions in the internal elastic lamina (IIEL) by comparing aortas of Brown Norway (BN) rats, which develop numerous IIEL in the abdominal aorta, with those of Long-Evans (LE) rats, which develop none. We isolated aortic elastin from BN and LE rats and determined its amino acid composition and its susceptibility to different elastases. No differences were found between the two strains, but the quantity of elastin isolated per aorta was lower in the BN than in the LE rats. Elastase-like activity (ELA) of whole aortic extracts, measured with Suc(Ala)3NA as a substrate, was greater in the BN rats than in the LE rats of both sexes. The assay of ELA in endothelium, media, and adventitia extracted separately showed very low levels in the media compared to the endothelium and adventitia. The endothelium accounts for about one-half of the total aortic ELA, but a difference between the two strains was detected only in the adventitia. With 3H-insoluble elastins prepared from BN and LE aortas as substrates, elastinolytic activity (EA) was detected only in extracts of endothelium after prior exposure to trypsin. Extracts from BN endothelium on BN elastin were more active than were those from LE endothelium on LE elastin. The assay of lysyl oxidase activity in aortic extracts from the two strains with 3H-collagen from chick embryo calvaria as the substrate showed a lower activity in the BN than in the LE rats. Taken together, these results suggest that increased elastase activity and decreased lysyl oxidase activity may be involved in the formation of IIEL.

Kinetics of the inhibition of human pancreatic elastase by recombinant eglin c. Influence of elastin

Recombinant eglin c is a potent reversible inhibitor of human pancreatic elastase. At pH 7.4 and 25 degrees C, kass. = 7.3 x 10(5) M-1.s-1, kdiss. = 2.7 x 10(-4) s-1 and Ki = 3.7 x 10(-10) M. Stopped-flow kinetic indicate that the formation of the stable enzyme-inhibitor complex is not preceded by a fast pre-equilibrium complex or that the latter has a dissociation constant greater than 0.3 microM. The elastase-eglin c complex is much less stable at pH 5.0 and 25 degrees C, where kdiss. = 1.1 x 10(-2) s-1 and Ki = 7.3 x 10(-8) M. At pH 7.4 the activation energy for kass. is 43.9 kJ.mol-1 (10.5 kcal.mol-1). The kass. increases between pH 5.0 and 8.0 and remains essentially constant up to pH 9.0. This pH-dependence could not be described by a simple ionization curve. Both alpha 2-macroglobulin and alpha 1-proteinase inhibitor are able to dissociate the elastase-eglin c complex, as evidenced by measurement of the enzymic activity of alpha 2-macroglobulin-bound elastase or by polyacrylamide-gel electrophoresis of mixtures of alpha 1-proteinase inhibitor and elastase-eglin c complex. The rough estimate of kdiss. obtained with the alpha 2-macroglobulin dissociation experiment (1.6 x 10(-4) s-1) was of the same order of magnitude as the constant measured with the progress curve method. Eglin c strongly inhibits the solubilization of human aorta elastin by human pancreatic elastase. The extent of inhibition is the same whether elastase is added to a suspension of elastin and eglin c or whether elastase is preincubated with elastin for 3 min before addition of eglin c. However, the efficiency of the inhibitor sharply decreases if elastase is reacted with elastin for more prolonged periods.

Silicon facilitation of copper utilization in the rat

An eight-week, 2 × 4 factorial rat experiment using two levels of dietary copper and four levels of dietary silicon was conducted to further delineate a previously observed silicon-copper interaction in which silicon appears to mimic copper in its effect on the composition of the aorta. Dietary copper concentrations were 1.4 (deficient) and 5.4 (adequate) mg/kg diet, and silicon concentrations were 5, 135, 270, and 540 mg/kg diet. Compared with the lowest level of silicon and copper, weight gains were 15.5% higher for rats fed 540 mg silicon/kg diet and 14.3% higher for those fed 5.4 mg copper/kg diet. The growth-promoting effects of silicon and copper were additive. Evidence that silicon elevated the copper status of copper-deficient rats includes an increase in packed-cell volume by 540 mg silicon/kg diet in the otherwise packed-cell volume-depressed, copper-deficient rats, accompanied by a trend toward higher hemoglobin values and lower relative heart weights. In the copper-adequate rats, evidence that 540 mg silicon/kg diet elevated their copper status includes a two-fold increase in the blood-plasma copper concentration, a three-fold increase in ceruloplasmin activity, and an increase in cardiac, renal, and hepatic copper concentrations. In addition, 540 mg silicon/kg diet resulted in higher aortic dry mass and aortic elastin content in both copper-deficient and copper-adequate rats. While dietary silicon concentrations of 135, 270, and 540 mg/kg diet were all effective in increasing aortic elastin in the copper-adequate rats, only 540 mg silicon/kg diet increased aortic elastin in the copper-deficient rats. These data indicate that some of the metabolic effects attributed to silicon may be manifested through a silicon-facilitated increase in copper utilization.

The regulation of lung elastin synthesis

The important role that elastin plays in the development and proper function of lung has long been recognized. Also, the intimate connection between pulmonary emphysema and the destruction of alveolar elastin has been well established. Understanding the mechanisms regulating pulmonary elastin synthesis is crucial to fully understanding these normal and pathological processes. In this article, we review recent literature on elastin structure, the elastin gene and its multiple RNA transcripts, and the different tropoelastin isoforms that are translated from these mRNAs. The similarity of lung and aortic elastin and the cellular origin of lung elastin are also discussed. We next examine the few studies addressing regulation of elastin expression during lung development, maturation, and aging. The search for modulators of pulmonary elastogenesis, which has yielded mostly negative results, is then reviewed. Finally, we present a cell culture model that has been developed to study the molecular basis of lung injury in pulmonary emphysema.

Effect of Age and IGF-I Administration on Elastin Gene Expression in Rat Aorta

An age-related decrease in elasticity of arteries has been found in clinical and experimental studies done during the past two decades. We have investigated molecular and endocrine aspects of that decrease by examining the effects of age and insulin-like growth factor-I (IGF-I) on rat aorta elastogenesis. For comparison, pulmonary elastogenesis was examined in the same experimental animals. Different aged groups of male Fischer 344 rats (barrier protected) were implanted with minipumps for a two-week infusion of either 0.1 N acetic acid (vehicle solution) or IGF-I (1.2 mg/kg/day). The DNA content (micrograms DNA/g tissue) decreased with age in aorta but remained fairly constant in lung. Administration of IGF-I increased the aortic DNA content in all but the oldest rats. Conversely, the DNA content of pulmonary tissue was significantly increased in only the youngest animals. The steady-state levels of tropoelastin mRNA decreased dramatically in both aorta and lung with increased age. The decrease was greater in lung than aorta. Administration of IGF-I elevated aortic tropoelastin mRNA steady-state levels, whereas lung tropoelastin mRNA levels were unaffected by IGF-I administration. Aortic tissue synthesized decreased amounts of insoluble elastin with increased age. These results establish a direct relationship between aortic tropoelastin mRNA levels and the synthesis of insoluble elastin in aging. Administration of IGF-I increased aortic elastin synthesis throughout the life span of the rat, although the proportionate increase diminished with age.

Elastin metabolism during recovery from impaired crosslink formation

Accelerated proteolysis of tropoelastin and elastin occurs in the arteries of chicks rendered nutritionally copper-deficient. The process results in part from decreased elastin crosslinking. Repletion of copper-deficient chicks with copper causes a deposition of elastin that is proteinase resistant. Resistance to proteolysis is conferred within 48 h of dietary copper repletion. Deposition of aorta elastin to near normal values occurs after 3–4 days in copper-repleted chicks. Moreover, elastolysis was enhanced when the content of dehydrolysinonorleucine in elastin was abnormally low. The chemical modification of lysyl residue in elastin by citroconylation, however, did not influence the rate of elastolysis. We have shown previously that tropoelastin messenger RNA activity and synthesis are not influenced by dietary copper deprivation (1986, Biochem. J. 236, 17–23). Rather, as demonstrated herein, the decrease in elastin content in arteries of copper-deficient birds appears to be more the result of enhanced degradation. Restoration of normal crosslinking restores deposition and imparts resistance to elastolysis. Moreover, serum appears to be a good source of elastolytic proteinases when the elastin substrate is partially or abnormally crosslinked.

Susceptibility of Baboon Aorta Elastin to Proteolysis

Elastin was purified from baboon aorta using Achromobacter collagenase and its susceptibility to proteolysis by various enzymes was studied. Human leukocyte elastase (HLE) hydrolysed baboon aortic elastin 8 times faster than human cathepsin G. Bovine chymotrypsin had virtually no activity against this substrate. The kinetic constants V and [S50] of aortic elastin hydrolysis by HLE (0.15 microM) were 0.00286 mg x ml-1 x min-1 and 0.158 mg x ml-1, respectively. One mg of this elastin could be saturated with 5.6 micrograms of HLE. As with elastins isolated from other sources, the hydrolysis of baboon aortic elastin by HLE was highly sensitive to ionic strength, and a biphasic effect was obtained with increasing NaCl concentrations. A nearly 2-fold stimulation of elastolysis was observed at a 0.15M NaCl concentration. Further increase in ionic strength led to a continuous decrease of the rate of elastolysis which paralleled the decrease of adsorption of elastase to baboon aortic elastin. Cathepsin G, but not bovine alpha-chymotrypsin, was able to stimulate the rate of hydrolysis of baboon aortic elastin by HLE. A 1.7 fold stimulation was observed for a 1:1 molar ratio of the two proteinases and rose to 2.1 for a HLE/Cat. G ratio equal to 8.

Genetic variation on chromosome 16 is associated with abdominal aortic aneurysm

1. There is a familial tendency to abdominal aortic aneurysms. We have followed up a previous report of a weak association between the haptoglobin 2-1 phenotype and aortic aneurysm and investigated polymorphisms of the haptoglobin gene and neighbouring cholesterol ester transfer protein gene on the long arm of chromosome 16 in patients with atherosclerotic abdominal aortic aneurysm, patients with stenosing aortic atherosclerosis and healthy control subjects. The protein polymorphism of haptoglobin results from variant alpha-chains, alpha 1 and alpha 2, the phenotype nomenclature describing the two alpha-chains. We have also investigated whether the different haptoglobin phenotypes influence the degradation of aortic connective tissue. 2. The frequency of the haptoglobin alpha 1 allele was increased in patients with aneurysms compared with healthy control subjects (0.51 versus 0.35, P less than 0.05). Patients homozygous for the alpha 2 allele had the highest mean age at aneurysm resection. The frequency of a rare polymorphism at the cholesterol ester transfer protein locus was also increased in aneurysm patients (0.15 versus 0.05 in control subjects, P less than 0.01). These two genetic markers appear to act independently. Haptoglobins containing an alpha 1-chain accelerated two- to four-fold the degradation by elastases of aortic elastin in vitro. 3. Genetic variation in the haptoglobin and cholesterol ester transfer protein genes appears to influence dilatation of the abdominal aorta. Variation at the haptoglobin locus could have a direct effect on the degradation of elastin in atherosclerotic aorta, whereas variation at the cholesterol ester transfer protein locus could affect lipid metabolism and promote atherosclerosis.(ABSTRACT TRUNCATED AT 250 WORDS)

Interactive effects of dietary silicon, copper, and zinc in the rat

A factorial rat experiment using two dietary concentrations each of copper, zinc, and silicon was conducted to identify areas in which interrelationships involving silicon may exist. The concentrations used were (mg/kg of diet): copper, 1 and 5; zinc, 2 and 12; and silicon, 5 and 270. An antagonism between silicon and zinc, whereby increases in dietary levels of either one resulted in a reduction in blood plasma concentrations of the other, was demonstrated. The depressing effect of silicon on plasma concentrations of zinc and on alkaline phosphatase occurred only in zinc-deficient rats. However, silicon had no effect on growth. Effects on aortic composition, interpreted as beneficial, accompanied increases in the silicon content of copper-deficient diets. Silicon-dependent increases in the chloroform-methanol extractable fraction of aorta closely approximated a similar response to copper. High dietary silicon increased aortic elastin in copper-deficient rats when dietary zinc was adequate. The aortic effects of silicon, while mimicking the gross effects of copper, occurred in the absence of any silicon-related changes in blood copper concentrations. Interrelationships of silicon with other elements, particularly copper and zinc, may warrant consideration in future nutritional and metabolic studies.

Insolubilization of low density lipoprotein induces cholesterol accumulation in cultured subendothelial cells of human aorta

Primary cultures of typical and modified smooth muscle cells isolated from the intima of human aorta were used to study the mechanism whereby low density, lipoprotein (LDL) induces accumulation of intracellular cholesterol. Incubation of intimal cells with native LDL obtained from human plasma did not lead to deposition of total cholesterol. LDL added to the cultures simultaneously with hyaluronic acid, heparin, chondroitin sulfate, fibronectin, and mouse monoclonal antibody against LDL also failed to alter the cellular cholesterol. On the other hand, 24-h incubation of the cells with LDL in the presence of dextran sulfate, gelatin, particles of aortic elastin, particles of collagenase-resistant aortic matrix, goat polyclonal antibodies against LDL or latex beads caused a significant (1.5–7-fold) increase in total cholesterol. The compounds which stimulated cholesterol deposition are able to form precipitating complexes with LDL. On the contrary, the agents which failed to induce cholesterol accumulation were unable to insolubilize LDL. A direct correlation ( r = 0.927) was found between the cholesterol content of the insoluble complex and the increment of cholesterol in the cultured cells. To find out whether LDL plays a specific role in the deposition of intracellular cholesterol, very low density lipoproteins and high density lipoproteins were used. These lipoproteins stimulated the accumulation of intracellular cholesterol in the presence of agents capable of forming insoluble associates with them. Our data suggest that insolubilization of lipoproteins is a key event in the LDL-mediated accumulation of intracellular cholesterol induced by various agents.

Dissociation of elastin and elastase-like activity of aorta from stroke in stroke-prone SHR.

Dissociation of elastin and elastase-like activity of aorta from stroke in stroke-prone SHR.

Alterations of elastin and elastase-like activities in aortae of diabetic rats

The elastin content of the aortic muscle and the elastase-like activity of the extracts of aortic muscle were studied in spontaneously diabetic BB rats and in rats made diabetic by a single bolus i.v. injection of alloxan. In both modes of diabetes, the total alkaline-insoluble aortic elastin content was significantly reduced in diabetic rats compared to that in the corresponding control rats. This reduction in aortic elastin was also accompanied by a consistent increase in the elastase-like activities of the aortic extracts prepared from the same tissues. Such a reciprocal relationship between aortic elastin content and elastase-like activity has previously been reported in rats with malignant hypertension. Since the rats used in this study were not hypertensive, the altered elastin metabolism observed in this work is likely to be a manifestation of diabetic disease and may in part account for the vascular changes associated with diabetes mellitus.

Histochemistry of Aortic Elastin in Patients With Nonspecific Abdominal Aortic Aneurysmal Disease

Histochemical studies of nine aneurysmal aortas revealed a conspicuous deficiency of iron hematoxylin-reactive elastin in four specimens, in comparison with eight atherosclerotic control specimens. A fibrillar matrix that morphologically resembled elastin was demonstrated in these same specimens under ultraviolet light. The phenomenon of substantial preservation of features of medial architecture suggests that, if the pathogenetic mechanism is enzymatic destruction, the process is highly selective. Comparisons with differences in human fetal vs newborn aortas and in Blotchy mouse vs normal mouse aortas suggest superficial similarities. These latter observations suggest that a hypothesis of maturation arrest might be considered as an alternative to enzymatic destruction. Definitive experiments to test the relative importance of maturation arrest vs enzymatic destruction in the pathogenesis of aneurysmal disease will require further studies.

大動脈エラスチンおよびエラスチン結合脂質

In order to understand the relationship between elastin and atherosclerosis the investigation was undertaken using aorta by measuring amounts of aortic elastin, amino acid analysis of extracted elastin, and elastin binding lipids. Hog aortic elastin was extracted using for several kinds of methods (collagenase, cyanogen bromide (BrCN), NaOH and formic acid methods), and it was considered that the most purified elastin could be obtained by the BrCN method according to the amino acid analysis. The contents of elastin binding lipids showed different levels in each method. In BrCN method the ratio of cholesterol ester and phospholipids were the highest, while the total amounts of lipid levels were the lowest among the four methods. In the analysis of human aorta with atherosclerosis, contents of elastin in the BrCN method increased, and it was considered that the degenerated collagen or pseudoelastin were contaminated in the elastin fraction according to the amino acid analysis. Elastin binding lipid, especially cholesterol ester and phospholipid fraction, increased in the atherosclerotic aorta. These results suggest that the quantitative and qualitative changes of aortic elastin and elastin binding lipids were strongly related to the atherosclerotic development.

Elastin and elastase-like enzyme change in aorta of rat with malignant hypertension

In order to study the role of elastin in arteries with respect to hypertension and hypertensive arterial disease, aortic elastin content and elastase-like enzyme activity were examined and compared in stroke-prone spontaneously hypertensive rats (SHRSP), which show malignant hypertension, and Wistar-Kyoto normotensive rats (WKY). The elastin content was lower, whereas the elastase-like activity was higher at 20 weeks of age in SHRSP than in WKY, so that the aortic elastin/enzyme ratio of SHRSP was lower than that in WKY. These differences were not found at 6 weeks of age (prehypertensive stage). For SHRSP anti-hypertensive treatment resulted in lowering the elastase-like activity and in increasing the elastin content in comparison to untreated animals. The subcellular distribution of the elastase-like activity closely correlated with that of 5′-nucleotidase activity, a plasma membrane marker enzyme. The results indicate involvement of a smooth muscle plasmalemmal elastase-like enzyme in vascular connective tissue metabolism in health and possibly also its participation in hypertensive arterial diseases.

Age-related changes in anti-elastin antibodies in serum from normal and atherosclerotic subjects

A modified version of the enzyme-linked immunosorbent assay (ELISA), utilising human insoluble aortic elastin, was used for determination of anti-elastin antibodies in serum from normal and atherosclerotic subjects. The age-related changes in their level among healthy persons were investigated. Anti-elastin antibodies were found in all the tested human sera, showing the highest level at the age of 18–20 and the lowest at the age over 60 and especially among atherosclerotic patients. The possible role of the immune system in the turnover of elastin is discussed.

Tropoelastin production and tropoelastin messenger RNA activity. Relationship to copper and elastin cross-linking in chick aorta

The elastin content of the chick thoracic aorta increases 2--3-fold during the first 3 weeks post-hatching. The deposition of elastin requires the covalent cross-linking of tropoelastin by means of lysine-derived cross-links. This process is sensitive to dietary copper intake, since copper serves as cofactor for lysyl oxidase, the enzyme that catalyses the oxidative deamination of the lysine residues involved in cross-link formation. Disruption of cross-linking alters tissue concentrations of both elastin and tropoelastin and results in a net decrease in aortic elastin content. Autoregulation of tropoelastin synthesis by changes in the pool sizes of elastin or tropoelastin has been suggested as a possible mechanism for the diminished aortic elastin content. Consequently, dietary copper deficiency was induced to study the effect of impaired elastin cross-link formation on tropoelastin synthesis. Elastin in aortae from copper-deficient chicks was only two-thirds to one-half the amount measured in copper-supplemented chicks, whereas copper-deficient concentrations of tropoelastin in aorta were at least 5-fold higher than normal. In spite of these changes, however, increased amounts of tropoelastin, copper deficiency and decreased amounts of elastin did not influence the amounts of functional elastin mRNA in aorta. Likewise, the production of tropoelastin in aorta explants was the same whether the explants were taken from copper-sufficient or -deficient birds. The lower accumulation of elastin in aorta from copper-deficient chicks appeared to be due to extracellular proteolysis, rather than to a decrease in the rate of synthesis. Electrophoresis of aorta extracts, followed by immunological detection of tropoelastin-derived products, indicated degradation products in aortae from copper-deficient birds. In extracts of aortae from copper-sufficient chicks, tropoelastin was not degraded and appeared to be incorporated into elastin without further proteolytic processing.

Inhibition of human pancreatic elastase II activity on human aortic elastin by human α2-macroglobulin

Human alpha 2-macroglobulin-human pancreatic elastase II binding were investigated using a homologous substrate, human aortic elastin, in order to test the enzymatic activity. We demonstrated that two moles of alpha 2-M are required to inhibit one mole of HPEII when the enzyme is added to a mixture of elastin and alpha 2-M. In addition, when the elastase-alpha 2-M complex is prepared under some circumstances, it exhibits an elastinolytic activity.