UMLS:C0851184 - FACTA Search

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Query: UMLS:C0851184 (thinning)
11,252 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Atherosclerosis and aneurysm of the abdominal aorta are associated with thinning of the medial connective tissue. We have investigated the presence of the connective-tissue-degrading metalloproteinases in homogenates prepared from atherosclerotic, aneurysmal and control aortic media. 2. Gelatinase activity was much increased in homogenates from atherosclerotic and aneurysmal aorta [10.9 +/- 1.8 and 13.3 +/- 3.3 micrograms of gelatin hydrolysed h-1 (mg of protein)-1 respectively]. This gelatinase activity was highest at the luminal aspect of the aortic media, where the activity increased three- to five-fold after the destruction of alpha 2-macroglobulin. Zymograms demonstrated the principal gelatinase in atherosclerotic aorta to have a molecular mass of about 92 kDa, whereas in aneurysmal aorta there was a spectrum of gelatinase activity from 92 to 55 kDa. 3. Collagenase and stromelysin (proteoglycanase) could be detected by immunoblotting in homogenates of aneurysmal aorta, but rarely in atherosclerotic aorta and never in control aorta. Collagenase and stromelysin activities were low, but increased two- to three-fold after the destruction of tissue inhibitor of metalloproteinases. Collagenase and stromelysin activities were highest at the adventitial aspect of aneurysmal media. 4. The secretion of gelatinase by inflammatory cells at the intima of diseased aorta could have a pathological role in establishing atherosclerotic plaques and medial thinning. Secretion of collagenase, gelatinase and stromelysin from the adventitia could accelerate connective tissue degradation in the media of aneurysmal aorta.
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PMID:Metalloproteinases in degenerative aortic disease. 165 68

Keratoconus, a bilateral corneal disease, is characterized by modifications in corneal shape and thinning of the stroma. From a biochemical point of view, a decrease in collagen content, probably due to the high collagenase activity, has been reported. Gamma Interferon (gamma-IFN), Tumor Necrosis Factor (TNF), and Interleukin 1 (IL1) are peptide regulatory factors involved in immunological responses, but they also play a role in the synthesis of collagen and prostaglandin E2 by fibroblasts. In these experiments, we have determined the number of membrane binding sites for gamma-IFN, TNF, and IL1, and the dissociation constant (Kd) for each radiolabelled ligand. All experiments were carried out on cultured corneal stromal cells. Data from normal human corneas and from keratoconus were compared. No differences were found concerning gamma-IFN and TNF binding sites between normal corneas and keratoconus, while fibroblasts from keratoconus proved to bear four fold more IL1 binding sites than normal fibroblasts, with similar Kd.
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PMID:Binding sites for human interleukin 1 alpha, gamma interferon and tumor necrosis factor on cultured fibroblasts of normal cornea and keratoconus. 191 96

Growth plate cartilage from normal and vitamin D-phosphate deficient (-VDP) rats was cultured to study the production of collagenase and tissue inhibitor of metalloproteinases (TIMP) in vitro. All tissues secreted latent collagenase into the medium at a constant rate during the 5 days in culture. Microdissected-VDP growth plates, containing predominatly hypertrophic cells, released up to 8-fold more collagenase into the medium than either intact-VDP or normal growth plates. TIMP was also secreted during the culture, but its rate of production was not as dependent on tissue type as collagenase. The tissue level of collagenase and TIMP before culture was compared with that found in conditioned medium and remnant tissue after culture. During the 5 day culture period microdissected-VDP growth plates, containing predominatly hypertrophic cells, produced 3-times more collagenase/microgram DNA over the starting level than either intact-VDP or normal growth plates. TIMP was never found in tissues after they had been cultured, but was present in all tissues before culture except those containing predominatly hypertrophic cells. The amount of TIMP required to block collagenase was calculated. Growth plates in culture produced enough TIMP to block all collagenase found in the medium and remnant tissue, while extracts of uncultured intact -VDP growth plates, and those divided to contain hypertrophic cells, had an excess of collagenase over TIMP. The results suggest that hypertrophic cells produce far more collagenase than other cells in the growth plate, but all cell types have about the same capacity to synthesize TIMP. As a result, increased collagenase synthesis by hypertrophic cells may surpass increases in TIMP synthesis and lead to collagen removal. This would allow for thinning of the longitudinal septa and expansion of the hypertrophic cells.
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PMID:Production of collagenase and tissue inhibitor of metalloproteinases (TIMP) by rat growth plates in culture. 196 14

Excorporal bovine eye has been resuscitated and sustained with an aim of its development as an alternative to whole animal in evaluating acute retinal toxicity of xenobiotics. As indicated by the stable ERG response, such preparation is functionally reactive to photic stimuli over a span of 6-12 h. Moreover, after experienced a 20 min hypoxia the reperfused eyes recovered fully. This functionally responsive preparation was used to evaluate the influence of a highly purified bacterial collagenase (Nucleolysin) on the integrity of vitreoretinal junction. Nucleolysin at concentrations between 120-600 U/ml was injected into the posterior chamber for 15 min. Retinal surfaces were irrigated and eyes were perfusion fixed with glutaraldehyde. Ultrastructural analysis indicated that thinning of the internal limiting membrane occurred when enzyme exceeded 480 U. At 600 U concentration, the principle subcellular change involved the end-foot region of the Muller cells. These studies suggest that the isolated, perfused bovine eye is a suitable model for evaluating acute retinal toxicity of xenobiotics.
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PMID:Isolated, perfused bovine eye a model for acute retinal toxicity screening. 256 68

An experimental model is described in which collagenase in different concentrations and volumes were applied epidurally or intrathecally in the rabbit lumbar spine. This made it possible to study the tissue effects in a situation similar to that of collagenase leaking from a disc or accidental epidural or intrathecal injection at chemonucleolysis. Epidurally applied collagenase, in higher concentration, caused a local thinning of the dura. This effect was reduced at lower concentrations and volumes. Intrathecally injected collagenase, even in small amounts, caused intrathecal hemorrhage and acute paraplegia in the hind limbs. Therefore, in the clinical situation, intrathecal injection of collagenase must be avoided.
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PMID:Effects of epidural and intrathecal application of collagenase in the lumbar spine: an experimental study in rabbits. 282 65

Three events lead to the ovulation of a normal oocyte: cytological and biochemical changes in the follicle wall, disintegration of the follicle apex and oocyte maturation. The remodelling of the follicle wall results from plasmin and collagenase activities. The thinning of the follicular apex, in addition to these enzymes, involves hydrolases liberated by dying ovarian epithelial cells. PGF2 alpha and histamine are also involved but it is not known precisely how they contribute to the apical dissociation. The nuclear and cytoplasmic maturation of the oocyte is highly dependent on the synthetic activities of granulosa cells which are regulated by LH and FSH. The pulsatile secretion of these gonadotrophins is not necessary for the final phase of Graafian follicle growth and rupture. Why high levels of gonadotrophins, normally reached during the preovulatory surge, completely change the structure and the biochemical activities of all follicular compartments remains unknown and in fact has never been studied. Moreover, there is very little information concerning the mechanisms involved both in the increase of blood flow during the LH surge and later in the blood stasis at the follicular apex. Steroids, whatever their levels and ratio, are of little if any concern in follicle rupture and nuclear maturation. However, their importance has been clearly demonstrated in the cytoplasmic maturation of the oocyte of some species.
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PMID:Ovulation. 313 95

A collagen network, composed largely of type I and III fibrillar collagens, is found in the extracellular space of the myocardium. This network has multiple functions which includes a preservation of tissue architecture and chamber geometry. Given its tensile strength, collagen is a major determinant of tissue stiffness. Its disproportionate accumulation, in the form of either a reactive or a reparative fibrosis, further increases stiffness. A degradation of collagen tethers, on the other hand, is an anatomic requisite for a distortion in tissue architecture and a reduction in stiffness that can lead to chamber dilatation, wall thinning, and even rupture of the myocardium. Collagen turnover in the myocardium is dynamic. When synthesis exceeds degradation, an adverse accumulation of collagen appears to distort tissue structure. This is true for either the hypertrophied and/or nonhypertrophied ventricle. Factors that contribute to the appearance of myocardial fibrosis are largely different from those that promote cardiac myocyte growth. Included amongst these fibrogenic factors are effector hormones of the reinin-angiotensin-aldosterone system (RAAS). Studies conducted both in intact animals (relative to dietary sodium intake) and in cultured adult cardiac fibroblasts have pointed toward the association between collagen accumulation and chronic elevations in circulating angiotensin II and aldosterone. A tissue hormonal system involving angiotensin II, endothelins and bradykinin, may likewise regulate fibrogenesis. In this regard, angiotensin converting enzyme is found in connective tissue of the normal heart, including the matrix of heart valves and the adventitia of the intramural coronary arteries, and fibrous tissue that forms following infarction or with chronic RAAS activation. The importance of ACE in the regulation of local angiotensin II and bradykinin levels and their contribution to collagen turnover is a fruitful area of research with important clinical implications. The myocardium also contains a proteolytic system, including collagenase. The characteristics and regulation of matrix metalloproteinases and their tissue inhibitors in various cardiovascular disease states requires further investigation.
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PMID:Collagen network of the myocardium: function, structural remodeling and regulatory mechanisms. 802 11

Keratoconus is a noninflammatory corneal disorder characterized by gradual stromal thinning and astigmatism. Altered degradation of corneal extracellular matrix is a suggested etiology for this disorder. In the present study we established keratocyte cultures from normal and keratoconus corneas and investigated the roles that matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMP, TIMP-2) may play. After chemical modification (reduction and alkylation) to remove the inhibitor and activation of enzyme with p-aminophenylmercuric acetate (APMA), keratoconus-conditioned media displayed a significant increase (p < 0.05) in the total potential gelatinolytic activity when compared with normal culture media treated in a similar manner. Basal levels of gelatinolytic activity in keratoconus culture media (no reduction, alkylation, or APMA treatment), determined by two different assay methods, tended to be about twice that of normal cell cultures. By zymography, both keratoconus and normal cultures showed identical enzyme patterns, which represented MMP-2 (72 kDa) in its proform and, depending on the treatment of the media, varying amounts of activated MMP-2 (65 kDa). This suggests that the increased gelatinolytic activity in keratoconus was not correlated with an increased appearance of either the 65-kDa-activated form of MMP-2 or a new MMP species. In addition, no differences in the amount of MMP-2 were detected that could account for the increased activities in keratoconus cultures. However, a relative decline in the detectable TIMP levels in keratoconus cultures resulted in an apparent three-fold increase in the ratio of MMP-2/TIMP. Northern blots showed no significant changes in mRNA levels for MMP-1, MMP-2, MMP-3, TIMP, or TIMP-2. These data suggest that a possible alteration in the interaction between MMP-2 and TIMP may play a role in the increased gelatinolytic activity seen in keratoconus tissues.
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PMID:Increased gelatinolytic activity in keratoconus keratocyte cultures. A correlation to an altered matrix metalloproteinase-2/tissue inhibitor of metalloproteinase ratio. 815 82

Although it is generally accepted that polyurethane-covered breast implants have decreased the incidence of clinical capsular contracture, there remain many unanswered questions regarding the physical and chemical degradation of the polyurethane foam covering itself. We have systematically studied the fibrous capsule and polyurethane foam recovered from human breast "explants" in an effort to characterize more precisely the biodegradation of polyurethane foam in the human body. Seventy-five freshly retrieved polyurethane-covered implants and surrounding capsule from 47 patients have been analyzed. Capsular tissue from several sampling sites around the surface of the implants was digested in a collagenase solution until foam was recovered or all tissue was digested. Additional samples were fixed in 10% formalin. Scanning electron microscopy was used to look for structural changes in the recovered intact foam and to determine the foam strut widths. Fourier transform IR spectroscopy and x-ray photoelectron spectroscopy were used to analyze the chemical composition of the polyurethane. The formalin-preserved capsule samples were examined histologically for further evidence of foam degradation. Of the 75 prostheses analyzed, 36 (48 percent) were removed because of capsular contracture and 10 (13 percent) because of infection or exposure of the prosthesis. The remaining 29 (39 percent) implants were removed for various other reasons. Visibly intact foam was recovered from 36 (48 percent) prostheses after enzymatic digestion of capsule tissue. There was a progressive decline in the ability to recover intact foam as the total implantation time increased. Scanning electron microscopy revealed fractures and fissures in the foam structure and thinning of the polyurethane struts. The mean strut width of control, unimplanted foam was 49 +/- 1.5 microns (+/- SEM). Retrieved foam from implants which developed capsular contracture and the infected implants had strut widths of 30 +/- 3.1 and 32 +/- 3.1 microns, respectively. In implants removed for other reasons, the polyurethane foam strut width was 41.2 +/- 2.3 microns. Despite an inability to recover visibly intact foam from 39 specimens, standard light microscopy of 37 of these same specimens showed residual polyurethane still present in the capsule. Various degrees of scalloping and fracturing of the foam were seen in the histologic sections. There is convincing evidence by scanning electron microscopy and histology that polyurethane is degrading. It was not possible to quantitate accurately the rate of degradation, but factors such as capsular contracture, infection, and time appear to have a role in the biodegradation of polyurethane in the human body. These relationships require further study.
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PMID:Biodegradation of the polyurethane foam covering of breast implants. 823 96

Keratoconus, a bilateral corneal disease, is characterized by modifications in corneal shape and thinning of the stroma. It affects young people. From a biochemical point of view, a decrease in collagen content, probably due to the high collagenase activity, has been reported. In these experiments, we have studied the membrane receptors for interleukin 1 alpha, and the corresponding dissociation constant (KD). We also investigated synthesis of prostaglandin E2 (PGE2) and collagen, as well as kinetics of cyclooxygenase. Data from normal human corneas and from keratoconus were compared. Fibroblasts from keratoconus proved to bear four fold more IL1 binding sites than those from normal cornea, with similar KD. Both types of cells synthesize prostaglandin E2, even if IL1 is not added to the medium, but the keratoconus cells produce ten times more than the normal cornea cells. When the cells are stimulated with IL1, synthesis of PGE2 strongly increases and the amounts produced by keratoconus cells are always higher than those of the normal cornea cells. Kinetics of the cyclooxygenase show that Vmax. is 10 times higher in keratoconus than in normal cornea cells; Km's are the same. The amounts of collagen synthesized by keratoconus cells are slightly lower than those of normal cornea cells. Addition of IL1 to the cultures enhances synthesis of collagenase by the cells and decreases collagen found in the culture media. The drop of collagen is more important in keratoconus than in normal cornea cell cultures.
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PMID:Modification of prostaglandin E2 and collagen synthesis in keratoconus fibroblasts, associated with an increase of interleukin 1 alpha receptor number. 840 71

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