UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histamine has been shown to be involved in atherosclerosis and coronary heart disease. Little information is available regarding the effects of histamine on lipoprotein metabolism. In the current study, we investigated the effects of histamine on the expression of hepatic low density lipoprotein (LDL) receptors and on plasma lipoproteins in the rat. Injection of compound 48/80 (C48/80, a histamine releaser) or histamine reduced hepatic LDL receptor expression, but not LDL receptor messenger RNA levels. Oral administration of polymyxin B (an antiendotoxin antibiotic and a histamine releaser) before the injection of C48/80 or histamine did not attenuate their effects. Polymyxin B itself had effects similar to those of C48/80 and histamine on LDL receptors. These results suggest that the effects of histamine are not mediated by the induction of gut-derived endotoxemia. Histamine H2 agonists (dimaprit and impromidine), but not H1 agonists (2-methylhistamine and 2-thiazolylethylamine), also reduced hepatic LDL receptor expression. The suppressive effect of C48/80 on hepatic LDL receptor expression was not attenuated by either the H1 antagonist (chlorpheniramine) or the H2 antagonist (cimetidine). Administration of C48/80 also reduced plasma high density lipoprotein (HDL) cholesterol. The H1 antagonist (chlorpheniramine), but not the H2 antagonist (cimetidine), almost completely reversed the effect of C48/80 on plasma HDL cholesterol. In conclusion, histamine suppresses hepatic LDL receptor expression via a non-H1 receptor-mediated pathway, and histamine reduces plasma HDL cholesterol via an H1 receptor-mediated pathway.
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PMID:Novel effects of histamine on lipoprotein metabolism: suppression of hepatic low density lipoprotein receptor expression and reduction of plasma high density lipoprotein cholesterol in the rat. 911 80

The potential risk of drug-drug interactions is often overlooked during drug therapy selection. Multiple risk factors for drug-drug interactions exist in both the acute and chronic phases of acute coronary syndrome (ACS), including concomitant medications and underlying diseases. Some statins have been used for secondary prevention of coronary heart disease (CHD) in these patients and are not all equivalent in their susceptibility to drug-drug interactions. The lipophilic drugs lovastatin, simvastatin, atorvastatin, cerivastatin and fluvastatin are metabolized via the cytochrome P450 (CYP450) system in the liver and the gut, making them subject to potential interactions with concomitantly administered drugs that are competing for metabolism via this system. Clinically important interactions with simvastatin or lovastatin and drugs that inhibit the 3A4 isoenzyme (part of the CYP450 system) may result in myopathy and rhabdomyolysis, which can be fatal. However, pravastatin is water-soluble, it does not undergo metabolism via CYP450 to any significant extent (<1%), is excreted essentially unchanged and has not been shown to participate in any clinically relevant drug-drug interactions with CYP450 agents. When selecting drug therapy, knowledge of a drug's route of metabolism is important to predict and prevent life-threatening drug-drug interactions.
Atherosclerosis 1999 Sep 09
PMID:'Fire and forget?' - pharmacological considerations in coronary care. 1057 59

A case of long-standing subclinical cholesteryl ester storage disease (CESD) manifesting as hyperlipoproteinaemia type IIb without any hepatomegaly is described. The patient underwent surgical vascular interventions because of accelerated atherosclerosis, which dominated his middle age. CESD was an incidental finding when a liver biopsy specimen was taken because liver malignancy was suspected; the patient's condition proved to be due to a cholangiocarcinoma, which led to his death at the of age 52. The autopsy showed moderate-intensity storage in the set of cells characterized by constitutional high-level receptor-mediated LDL endocytosis (hepatocytes, adrenal cortical cells) and also revealed storage in the Leydig cells. The severity with which histiocytes were affected varied regionally, ranging from minimal detectable storage or none at all (gut, lymph nodes, spleen) to extreme lysosomal expansion by cholesteryl ester liquid crystals (bone marrow) or by ceroid (lung, testicular stroma), or by both (liver). The density of the histiocytic population did not correlate with the degree to which parenchymal cells were affected except in the testicular stroma, where it was prominent. The patient was a mixed heterozygote for the G934A and DeltaC(673-5) mutations.
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PMID:Testis - a novel storage site in human cholesteryl ester storage disease. Autopsy report of an adult case with a long-standing subclinical course complicated by accelerated atherosclerosis and liver carcinoma. 1066 66

Extensive research efforts during the last three decades resulted in a large body of experimental evidence that suggests an important role of the disbalance between generation and elimination of the oxygen and xenobiotic derived free radicals in physiological and pathological processes. Reactive oxygen species (ROS) are generated in many metabolic pathways, and are entering the organisms from exogenous sources, dominantly via airways and gut. ROS induced injuries, e.g. thermal, chemical, radiation, ischaemia/reperfusion, inflammation, hyperoxia, etc., result in diseases like atherosclerosis, ulcerative colitis, autoimmune diseases, asthma, etc. The current paper is designed to provide an overview of the effects ROS may exert in various tissues. Because of the effective defense systems, the tolerance of viable human cells to ROS is relatively high. The oxidant stress induced dysfunction of various systems, such as the gut, airways, nervous, cardiovascular system, etc., involve both direct and indirect mechanisms. Understanding of these molecular mechanisms is essential for a rational antioxidant therapy.
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PMID:Reactive oxygen species as mediators of tissue protection and injury. 1070 13

Obesity is one of the pathologies with ever-increasing prevalence in modern societies. Its occurrence is strongly associated with increased risk of developing diabetes mellitus, atherosclerosis, hypertension, stroke, heart and respiratory failure, breast, prostate and gut cancer, gall stones, arthropathy. Obesity is common in Polish population. Obesity treatment is difficult and frustrating. It consists of several parts like diet, increased physical activity, lifestyle changes, drug therapy and surgery. However, obesity treatment is very often a failure, mostly because of discouraging long-term results and the necessity of intensive patient's involvement in the therapy. For many patients and doctors weight-decreasing agents look promising. The groups of anti-obesity drugs are presented in the article, with special reference to serotoninergic agents and intestinal lipase inhibitors. The prospects for new anti-obesity agents are discussed. Nevertheless, despite intensive research on obesity, we are still waiting for the development of an effective and safe drugs helping lose weight.
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PMID:[The role of pharmacotherapy for treatment of obesity in adults]. 1120 19

Immune system alterations during ageing are complex and pleiotropic, suggestive of remodelling or altered regulation, rather than simple immune deficiency. The most dramatic changes with age occur within the T cell compartment, the arm of the immune system that protects against pathogens and tumours, consistent with the increased incidence and severity of infection and cancer in the elderly. Indeed, autopsy studies confirm infection as the major cause of death in the very old. Increased serum levels of inflammatory mediators are another hallmark of ageing, suggestive of either regulatory defects or an ongoing attack on sub-clinical neoplastic disease or infection. Qualitative changes in antibody production, including those secreted by the gut mucosal immune compartment, affect responses to foreign antigens as well as to prophylactic vaccines. Innate immunity, the first line of defence that precedes the antigen-specific T and B cell responses, also undergoes changes with age. Some of the immune effects associated with ageing are secondary to overall organismic changes, such as alterations in the viscosity of cell membranes and proteolytic cellular machinery. Evidence suggesting that immune system changes may be involved in some major age-related pathologies, such as atherosclerosis and Alzheimer's disease, will be discussed.
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PMID:Ageing and the immune system. 1128 23

Short-chain fatty acids (SCFAs) are potent modulators of the growth, function, and differentiation of intestinal epithelia. In addition, high-fiber diets may protect against the development of atherosclerosis because of their cholesterol-lowering effects due, in large part, to SCFA production, liver sterol metabolism, and bile acid excretion. Although the small gut plays a major role in dietary fat transport and contributes substantially to plasma cholesterol and lipoprotein homeostasis, the impact of SCFAs on intestinal lipid handling remains unknown. In the present study, the modulation of lipid synthesis, apolipoprotein biogenesis, and lipoprotein secretion by butyrate was investigated in Caco-2 cells plated on permeable polycarbonate filters, which permit separate access to the upper and lower compartments of the monolayers. Highly differentiated and polarized cells (20 days of culture) were incubated for 20 h with 20 mM butyrate in the apical medium. In the presence of [14C]oleic acid, butyrate led to a significant reduction of secreted, labeled triglycerides (27%; P < 0.01) and phospholipids (25%; P < 0.05). Similarly, butyrate significantly decreased the incorporation of [14C]acetate into exported cholesteryl ester (49%; P < 0.005). As expected from these results, with [14C]oleic acid as a precursor, butyrate significantly (P < 0.05) diminished the delivery of radiolabeled chylomicrons and very low-density lipoproteins. In parallel, [35S]methionine pulse labeling of Caco-2 cells revealed the concomitant inhibitory effect of butyrate on the synthesis of apolipoproteins B-48 (28%; P < 0.05) and A-I (32%; P < 0.01). Collectively, our data indicate that butyrate may influence lipid metabolism in Caco-2 cells, thus suggesting a potential regulation of intestinal fat absorption and circulating lipoprotein concentrations.
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PMID:Modulation of lipid synthesis, apolipoprotein biogenesis, and lipoprotein assembly by butyrate. 1212 81

The increasing interest in a healthy diet is stimulating innovative development of novel scientific products in the food industry. The viable lactic acid bacteria in fermented milk products, such as yoghurt, have been associated with increased lactose tolerance, a well-balanced intestinal microflora, antimicrobial activity, stimulation of the immune system and antitumoural, anticholesterolaemic and antioxidative properties in human subjects. Recently, we have studied a human Lactobacillus spp. strain that possesses antioxidative activity. The aim of the present pilot study was to develop goats' milk fermented with the human antioxidative lactobacilli strain, Lactobacillus fermentum ME-3, and to test the effect of the fermented probiotic goats' milk on oxidative stress markers (including markers for atherosclerosis) in human blood and urine and on the gut microflora. Twenty-one healthy subjects were assigned to two treatment groups: goats' milk group and fermented goats' milk group (150 g/d) for a period of 21 d. Consumption of fermented goats' milk improved anti-atherogenicity in healthy subjects: it prolonged resistance of the lipoprotein fraction to oxidation, lowered levels of peroxidized lipoproteins, oxidized LDL, 8-isoprostanes and glutathione redox ratio, and enhanced total antioxidative activity. The consumption of fermented goats' milk also altered both the prevalence and proportion of lactic acid bacteria species in the gut microflora of the subjects. We conclude that the goats' milk fermented with our special antioxidative lactobacilli strain Lactobacillus fermentum ME-3 exhibits anti-atherogenic effects.
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PMID:Antioxidative probiotic fermented goats' milk decreases oxidative stress-mediated atherogenicity in human subjects. 1290 7

Commensal microflora (normal microflora, indigenous microbiota) consists of those micro-organisms, which are present on body surfaces covered by epithelial cells and are exposed to the external environment (gastrointestinal and respiratory tract, vagina, skin, etc.). The number of bacteria colonising mucosal and skin surfaces exceeds the number of cells forming human body. Commensal bacteria co-evolved with their hosts, however, under specific conditions they are able to overcome protective host responses and exert pathologic effects. Resident bacteria form complex ecosystems, whose diversity is enormous. The most abundant microflora is present in the distal parts of the gut; the majority of the intestinal bacteria are Gram-negative anaerobes. More than 50% of intestinal bacteria cannot be cultured by conventional microbiological techniques. Molecular biological methods help in analysing the structural and functional complexity of the microflora and in identifying its components. Resident microflora contains a number of components able to activate innate and adaptive immunity. Unlimited immune activation in response to signals from commensal bacteria could pose the risk of inflammation; immune responses to mucosal microbiota therefore require a precise regulatory control. The mucosal immune system has developed specialised regulatory, anti-inflammatory mechanisms for eliminating or tolerating non-dangerous, food and airborne antigens and commensal micro-organisms (oral, mucosal tolerance). However, at the same time the mucosal immune system must provide local defense mechanisms against environmental threats (e.g. invading pathogens). This important requirement is fulfilled by several mechanisms of mucosal immunity: strongly developed innate defense mechanisms ensuring appropriate function of the mucosal barrier, existence of unique types of lymphocytes and their products, transport of polymeric immunoglobulins through epithelial cells into secretions (sIgA) and migration and homing of cells originating from the mucosal organised tissues in mucosae and exocrine glands. The important role of commensal bacteria in development of optimally functioning mucosal immune system was demonstrated in germ-free animals (using gnotobiological techniques). Involvement of commensal microflora and its components with strong immunoactivating properties (e.g. LPS, peptidoglycans, superantigens, bacterial DNA, Hsp) in etiopathogenetic mechanism of various complex, multifactorial and multigenic diseases, including inflammatory bowel diseases, periodontal disease, rheumatoid arthritis, atherosclerosis, allergy, multiorgan failure, colon cancer has been recently suggested. Animal models of human diseases reared in defined gnotobiotic conditions are helping to elucidate the aetiology of these frequent disorders. An improved understanding of commensal bacteria-host interactions employing germ-free animal models with selective colonisation strategies combined with modern molecular techniques could bring new insights into the mechanisms of mucosal immunity and also into pathogenetic mechanisms of several infectious, inflammatory, autoimmune and neoplastic diseases. Regulation of microflora composition (e.g. by probiotics and prebiotics) offers the possibility to influence the development of mucosal and systemic immunity but it can play a role also in prevention and treatment of some diseases.
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PMID:Commensal bacteria (normal microflora), mucosal immunity and chronic inflammatory and autoimmune diseases. 1515 4

Matrix metalloproteinases (MMPs) are a family of neutral proteases with the ability to degrade all components of extracellular matrix. To date, more than 24 different human MMPs have been identified. MMP activity is important in diseases such as arthritis, atherosclerosis, periodontal diseases and cancer. Recent data suggest that MMPs are involved in tissue injury and healing in the human gut.
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PMID:Matrix metalloproteinases and the gut - new roles for old enzymes. 1552 41

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