Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The progression of atheroarteriosclerosis was shown to be age dependent. This designation covers two separate entities: arteriosclerosis, the progressive and diffuse hardening of the walls of arteries with loss of elasticity, and atheromatous plaque formation, which can start early in life according to nutrition and genetic factors (LDL-receptor expression). Lipoprotein-receptor interactions play a crucial role in lipidic plaque formation. There is, however, no indication that the diffuse hardening of the vascular wall would also be influenced by these mechanisms. We described recently a high-affinity receptor for elastin peptides, present on smooth muscle cells, fibroblasts, and also on monocytes and PMNs. When activated, this receptor will increase intracellular calcium. Circulating elastin peptides were determined by a sensitive Elisa method and found to be between 0.1 and 20 micrograms/ml, in the range of activation of the elastin receptor. They increase in obliterative arteriopathies and type IIb hyperlipidemia. Elastolysis accompanies aging and vascular pathology; the sensitivity of this receptor changes with age, intracellular Ca++ increases, but the receptor appears to be uncoupled from its normal transmission mechanism. These results may well explain the increasing diffuse calcification of the vessel wall. The previously demonstrated potentiation of cholesterol deposition in elastic fibers by calcium is in agreement with simultaneous deposition of calcium and lipids. The recent demonstration of the efficient competition of fibronectin for LDL in proteoglycan-LDL complexes suggests that this reaction may be involved in foam cell formation by the opsonization of LDL for phagocytosis. Fibronectin was shown to accumulate in atherosclerotic plaques. Altogether these recent results confirm the importance of cell-matrix interactions in atherogenesis and lead to a better understanding of the age dependence of these disease processes.
 ...
PMID:Cell-matrix interactions in the genesis of arteriosclerosis and atheroma. Effect of aging. 133 48

Arteries respond to long-term changes in flow rate by alterations in caliber that tend to restore wall shear stress to normal baseline levels. Changes in radius, pressure, or geometric configuration elicit changes in structure and composition of the media in keeping with the altered level and distribution of tensile stresses. Similar stabilizing adaptations occur in the presence of conditions that induce the formation of atherosclerotic plaques, but the ultimate effectiveness of these reactions is variable. Several recent experiments provide information on the possible effects of hyperlipidemia on the smooth muscle cell (SMC) response to normal or increased levels of mechanical stress: (a) Normolipemic serum increases collagen synthesis by SMCs grown on purified elastin membranes compared to synthesis in serum-free medium, but synthesis is not further enhanced by cyclic stretching of the cells. Collagen production increase is less marked in hyperlipemic serum, but cyclic stretching raises synthesis to a degree comparable to that noted for serum-free medium. (b) The increase in artery diameter in response to increased flow rate and the elaboration of media components in relation to the increase in diameter are not hampered by hyperlipidemia. (c) The compensatory enlargement of arteries in response to plaque formation is not prevented by hyperlipidemia even in the presence of hypertension. (d) The healing of a transmural necrotizing injury of the media is, however, retarded and incomplete in the presence of hyperlipidemia. These findings indicate that hyperlipidemia per se does not necessarily interfere with the SMC response to mechanical stimuli. The usual adaptive reactions remain intact.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Limited effects of hyperlipidemia on the arterial smooth muscle response to mechanical stress. 247 33

In this paper, we studied the effect of elastase on aminonucleoside (AN) nephrosis which is considered a model of focal glomerular sclerosis (FGS). Elastase is an enzyme which disintegrates elastin, discovered by Balo, and used in the treatment of arteriosclerosis and hyperlipidemia. It has also been known to improve metabolism of acid mucopolysaccharides, so, this study focused on metabolic improvement. Three groups of male Sprague-Dawley rats were studied and observed at regular intervals; 30, 60, 90 days. The ANE group (AN + elastase) was administered one shot of AN (10 mg/100 g B.W.) during the test interval, while elastase (5 mg/kg B.W.) was injected 5 days/week for the entire test interval. The AN group was administered one shot of AN only. The third group was a control (C). The following results were observed: (1) Focal segmental hyalinosis and sclerosis (FSHS); ANE group was weaker than AN group. (2) Other significant qualifying glomerular changes (vacuolar change and hyaline droplets of the epithelial cells, adhesion, and foam cells); ANE group was weaker than AN group. (3) Anion loss in GBM was shown by a lack of colloidal iron staining under light microscopy, and by a lack of PEI particles under electron microscopy; there was significantly less anion loss with ANE group, than with AN group. The findings suggest that elastase has an affect on the metabolism of acid mucopolysaccharide and collagen in sclerotic lesion, and may restrain the progress of amino-nucleoside nephrosis.
 ...
PMID:[The effect of the elastase on aminonucleoside nephrosis]. 253 42

Current concepts of the pathogenesis of atherosclerosis have been reviewed, emphasizing some of the similarities of the mechanisms and events involved to those in inflammation. Figure 2 is a schematic summary of these events. Hyperlipidemia, or some component of hyperlipidemic serum, as well as other risk factors, are thought to cause endothelial injury, resulting in adhesion of platelets and/or monocytes and release of PDGF (and other growth factors), which leads to smooth muscle migration and proliferation. It is clear that endothelial injury need not be denuding, and in fact may consist of altered endothelial function (dysfunction); adhesion of monocytes, increased permeability of endothelium, and disturbances in growth control can occur without morphologically obvious endothelial injury. Hyperlipidemia, hypertension, smoking, immune injury, and other risk factors may contribute to this endothelial dysfunction in different ways and sometimes in combination. Smooth muscle cells produce large amounts of collagen, elastin, and proteoglycans and these form part of the atheromatous plaque. Hyperlipidemia contributes in a number of ways (as discussed earlier), and indeed, in the severely hypercholesterolemic patient, such as one with familial hypercholesterolemia, is alone sufficient to cause atherosclerosis in the absence of other risk factors. Foam cells of atheromatous plaques are derived both from macrophages and from smooth muscle cells; from macrophages via the beta-VLDL receptor and also possibly by way of LDL modification, recognized by the acetyl-LDL receptor (such as oxidized LDL); and from smooth muscle cells by less certain mechanisms. Extracellular lipid is derived from insudation from the lumen, particularly in the presence of hypercholesterolemia, and also from degenerating foam cells. Cholesterol accumulation in the plaque should be viewed as reflecting imbalance between influx and efflux, and it is possible that high-density lipoprotein is the molecule which helps clear the cholesterol from these accumulations (134). The diagram (right) also depicts the possibility that smooth muscle proliferation may occur without endothelial injury at all. There are several postulated mechanisms for such an occurrence: loss of growth control, direct smooth muscle injury (such as by LDL), and autonomous proliferation by the mechanisms suggested by Benditt. The theoretical scheme presented is based largely on in vitro work, only partly substantiated by experimental and human studies, and does not explain the precise mechanisms by which all risk factors increase the susceptibility to atherosclerosis.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:The pathogenesis of atherosclerosis: atherogenesis and inflammation. 327 59

Exposure of smooth muscle cells cultured on plastic or glass to hyperlipidemic serum did not result in the formation of foam cells. Since elastin binds serum lipids, and vascular smooth muscle cells are normally closely associated with elastin, we investigated the effects of an elastin substrate on lipid metabolism and on the accumulation of lipid vacuoles by rabbit aortic smooth muscle cells in culture. When cells were grown in plastic petri dishes, cholesteryl ester synthesis, as measured by [14C]oleate incorporation into cholesteryl esters, was 3 times greater in rabbit hyperlipidemic serum (HLS) than in normolipemic serum (NLS) (P less than 0.001). For cells of the same subculture grown on the elastin substrate, the synthetic rate was 6-fold greater in HLS compared to NLS (P less than 0.005). The cells grown on the elastin membranes in the presence of HLS contained large numbers of Oil red O stainable lipid vacuoles and resembled foam cells, while those grown in petri dishes and exposed to HLS showed only an occasional cell containing a few vacuoles. Pre-incubation in lipoprotein-deficient serum markedly enhanced the stimulatory effect of HLS on cholesteryl ester synthesis for cells growing in plastic petric dishes but had much less stimulatory effect on the cells growing on elastin membranes. These studies indicate that close association with elastin modulates the response of smooth muscle cells to hyperlipidemia and suggest a role for elastin in the formation of foam cells of smooth muscle origin during atherogenesis.
 ...
PMID:Effect of an elastin growth substrate on cholesteryl ester synthesis and foam cell formation by cultured aortic smooth muscle cells. 368 85

In studies concerning risk factors for cardiovascular diseases, a number of reports have emphasized the influence of lipids, but the role of dietary minerals other than sodium has been less studied. However, epidemiological studies have suggested that dietary intake of magnesium and potassium may be involved in such pathogenesis. Studies of the influence of magnesium deficiency on arteriosclerosis include its effect on the initial lesion, altered metabolism of elastin, proliferation of collagen, calcification, lipid metabolism, platelet aggregation and hypertension. Magnesium and potassium metabolism are closely related and magnesium is required for maintaining the level of cellular potassium. As a consequence, magnesium and potassium deficiency frequently occur together and potassium deficiency may be an aggravating factor in pathogenesis. The development of the initial lesion in the arterial wall may be facilitated by loss of cellular magnesium and potassium. Experimental magnesium deficiency induces arterial damage, a loss of magnesium and potassium and an increase in the calcium and sodium content of the cell. Experimental models that have been used to produce cardiovascular lesions induce similar changes and losses of major intracellular cations may affect the main metabolic processes of the cell. This report summarizes the experimental evidence that magnesium deficiency may affect several different stages involved in arteriosclerosis and that potassium deficiency may exacerbate this. Magnesium deficiency results in vascular calcification. Experiments indicate that elastin is the site of the initial calcification and the metabolism of elastin is altered. This vascular lesion then brings about an increase in the collagen content of the wall. Low magnesium status could probably affect this process by slowing collagen resorption and lead to an irreversible accumulation of connective tissue. Results showing a different distribution of the various types of lipoprotein during experimental magnesium deficiency strongly suggest that lipid exchange between the vessel walls and blood can be modified. Severe magnesium deficiency in weanling rats produces a marked hypertriglyceridemia, a decrease in the percentage of cholesterol transported by HDL lipoprotein and a reduction in LCAT activity. The decreased clearance of circulatory triglycerides appears to be the major mechanism contributing to hyperlipemia. Magnesium deficiency could therefore contribute to accumulation of vascular lipid. Magnesium and potassium depletion have also been reported in diabetes and the vascular implications of this should be considered.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Role of magnesium and potassium in the pathogenesis of arteriosclerosis. 639 44

The rapid increase of life expectancy during the last half of the 20th century is changing the expression of cardiovascular disease and of its risk factors. These findings are examined by the separate consideration of atheromatous plaque formation and vascular wall stiffening, known as arteriosclerosis. in humans, these processes may progress together, but in some other species as the rat, only vascular wall stiffening is observed. A saturated fat- and cholesterol-rich diet produces the early appearance of lipidic plaques, which progress to fibrous, sometimes ulcerated, thrombotic lesions. This progression is age dependent; the establishment of lipidic plaques is not. Vascular wall stiffening, characterized by an increase of the collagen-elastin ratio and diffuse deposition of calcium and lipids is also age dependent (arteriosclerosis). Although hyperlipidemia appears to be involved both in plaque formation and wall thickness progression, the detailed mechanisms are not identical. In the oldest age group (above 80 years and in centenarians), high cholesterol values may not be a risk factor as in younger individuals. Among the cellular and molecular mechanisms involved, immune factors and modifications in receptor coupling appear to play a major role. These mechanisms are described in some detail.
 ...
PMID:Aging of the vascular-wall and atherosclerosis. 1081 5

We experienced a case of 62-year-old woman who was admitted for the evaluation of her trembling hands. She was diagnosed as Williams syndrome (WS) by fluorescent in situ hybridization (FISH) analysis. She was short in stature, had a characteristic face and moderate mental retardation, whereas she was talkative and gregarious. She also presented impaired visuospatial cognition, cerebellar ataxia and tremor like involuntary movement of the hands. No remarkable abnormality is noted in MRI of the brain. MRA study of the brain revealed the arteriosclerotic vascular change, such as elongation of basilar artery and dilatation of bilateral carotid arteries. Heterozygous microdeletion of chromosome 7q11.23 of this patient is typical for WS, the delction including elastin (ELN) and LIMK 1 gene. Although she was complicated by diabetes mellitus and hyperlipidemia, she had no cardiovascular abnormalities like supravalvular aortic stenosis (SVAS), and survived to her age in good condition. The tremor-like involuntary movement disappeared after her discharge and its mechanism remains to be elucidated.
 ...
PMID:[Clinical features of a senior patient with Williams syndrome]. 1196 43

Diabetes now accounts for >40% of patients with ESRD. Despite significant progress in understanding diabetic nephropathy, the cellular mechanisms that lead to diabetes-induced renal damage are incompletely defined. For defining changes in protein expression that accompany diabetic nephropathy, the renal proteome of 120-d-old OVE26 transgenic mice with hypoinsulinemia, hyperglycemia, hyperlipidemia, and proteinuria were compared with those of background FVB nondiabetic mice (n = 5). Proteins derived from whole-kidney lysate were separated by two-dimensional PAGE and identified by matrix-assisted laser desorption ionization-time-of-flight (MALDI-TOF) mass spectrometry. Forty-one proteins from 300 visualized protein spots were differentially expressed in diabetic kidneys. Among these altered proteins, expression of monocyte/neutrophil elastase inhibitor was increased, whereas elastase IIIB was decreased, leading to the hypothesis that elastin expression would be increased in diabetic kidneys. Renal immunohistochemistry for elastin of 325-d-old FVB and OVE26 mice demonstrated marked accumulation of elastin in the macula densa, collecting ducts, and pelvicalyceal epithelia of diabetic kidneys. Elastin immunohistochemistry of human renal biopsies from patients with type 1 diabetes (n = 3) showed increased elastin expression in renal tubular cells and the interstitium but not glomeruli. These results suggest that coordinated changes in elastase inhibitor and elastase expression result in increased tubulointerstitial deposition of elastin in diabetic nephropathy. The identification of these coordinated changes in protein expression in diabetic nephropathy indicates the potential value of proteomic analysis in defining pathophysiology.
 ...
PMID:Alterations in the renal elastin-elastase system in type 1 diabetic nephropathy identified by proteomic analysis. 1497 67

Thanks to the increasing knowledge of the pathogenesis of atherosclerosis, much effort has been made in the last years to develop new drugs aimed at controlling risk factors correlated with the disease as well as to investigate more deeply their mechanism of action. In particular, this brief review will describe some new aspects of the mechanism of action of drugs widely used in the control of risk factors like hyperlipemia, hypertension and blood viscosity. Among drugs active on plasma lipid profile, HMG-CoA reductase inhibitor are, at present, under study for their promising activity in the modulation of the interaction between the cells of the arterial wall and circulating blood elements. Indeed, these compounds have been found to control the proliferation of smooth muscle cells and other events related to the formation of atheroma. As far as antithrombotic drugs are concerned, the efficacy of low doses of aspirin has emerged by recent clinical trials. The successful use of low doses of aspirin has been possible following the comprehension of the mechanism by which this compound inhibits TXA-dependent platelet function, thus allowing a dose-dependent dissociation of the antithrombotic activity from other undesirable effects. Also for calcium antagonist an antiatherogenic effect which deserves further investigations has been recently clarified. Indeed it has been demonstrated that calcium antagonists have a protective effect against vascular lesions because they inhibit smooth muscle cell proliferation, lipid uptake by macrophages and the production of collagen and elastin. Another class of drugs which represents a new approach in the control of some risk factors is represented by n-3 fatty acids. Besides their activity on triglycerides, these compounds exert a positive effect on hemostatic and thromboembolic event, by reducing platelet aggregation and blood viscosity. Also for those molecules which appear to exert promising antiatherosclerotic and antithrombotic action, further studies will define their exact mechanism of action.
 ...
PMID:Atherosclerosis and thrombosis. Old and new drugs. 1537 55


1 2 Next >>