Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercholesterolemia is commonly associated with primary biliary cirrhosis. In the general population, elevated serum cholesterol is associated with an increased risk of atherosclerosis. The relative risk has been poorly defined in primary biliary cirrhosis patients with hyperlipidemia. In addition, the hyperlipidemic state seen with primary biliary cirrhosis has not been well studied. We prospectively observed 312 patients with primary biliary cirrhosis for a median of 7.4 yr. During this period, 128 patients died. The incidence of atherosclerotic death in patients with primary biliary cirrhosis was not statistically different when compared with an age-matched and sex-matched U.S. control population. A similar group of 50 consecutive PBC patients had detailed serum lipid profiles. Findings included progressive increases in total cholesterol and low-density lipoprotein cholesterol with an increasing histological stage or severity of disease. High-density lipoprotein cholesterol was elevated in all stages, with the highest levels in histological stage 2 and 3 disease. Triglycerides were normal or slightly elevated in all stages. Apoprotein A-I was elevated in all but histological stage 4 disease. Our study suggests the hyperlipidemia associated with primary biliary cirrhosis does not place these patients at risk for atherosclerotic death. In light of the limitations imposed by our relatively small sample size, however, additional patients should be studied. Furthermore, an examination of the pathophysiological mechanisms leading to hypercholesterolemia should be the topic of further study.
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PMID:Hypercholesterolemia and atherosclerosis in primary biliary cirrhosis: what is the risk? 156 27

Hepatic diseases differ from most other causes of secondary dyslipidaemia in that the circulating lipoproteins are not only present in abnormal amounts but they frequently also have abnormal composition, electrophoretic mobility and appearance. Pre-beta and alpha bands can be absent on electrophoresis in all types of liver disease although material in the VLDL and HDL ranges can be isolated in the ultracentrifuge. Cholestatic liver disease has been the most extensively studied and the hyperlipidaemia can be extreme with marked elevations of free cholesterol and phospholipids. This results largely from the presence of LP-X, an abnormal LDL, with a vesicular structure that appears in rouleaux formation under the electron microscope. It is virtually specific for cholestasis and familial LCAT deficiency. The LDL, however, is heterogeneous and may also contain a large triglyceride-rich particle (LP-Y) as well as more normal-looking particles, which are none the less depleted in cholesteryl esters and rich in triglycerides. Indeed, when patients with cholestasis are hypertriglyceridaemic the excess triglyceride is to be found predominantly in these two LDL fractions rather than in VLDL. HDL in cholestasis may contain disc-like particles, similar to those newly secreted by the liver and intestine, as well as more normal-looking spherical particles. In extrahepatic obstruction concentrations of HDL and its major apolipoproteins, apoAI and apoAII, are frequently reduced, although a subfraction rich in apoE is often found. In all but the latest stages of chronic intrahepatic cholestasis due to primary biliary cirrhosis, however, HDL, especially HDL2, concentrations are increased, probably due to the presence of a circulating inhibitor of HL. Many of these lipoprotein changes found in cholestasis resemble those of familial LCAT deficiency, although the hyperlipidaemia is not usually so severe in the latter condition. Indeed, in patients with cholestasis but well-preserved LCAT activity many of the characteristic lipoprotein changes, such as LP-X, LP-Y and discoidal HDL, may not be seen. In acute hepatocellular disease, such as alcoholic or viral hepatitis, it is not unusual for the patient to go through a cholestatic phase and many of the same lipoprotein changes may be seen. In cirrhosis without cholestasis the patients are not usually significantly hyperlipidaemic and in advanced cases cholesterol and apoB levels may be reduced. Although LCAT activity and the proportion of plasma cholesterol esterified may also be markedly reduced, LP-X is not usually seen, possibly because the flux of free cholesterol and phospholipid (lecithin), the LCAT substrates, is relatively low. Discoidal HDLs are often present.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Dyslipoproteinaemia of liver disease. 208 7

Hyperlipidemia is a common complication of PBC. Ten patients with serologically and histologically defined PBC were randomized to receive either oral cyclosporin A (CyA) or placebo for one year. Fasting blood samples were obtained from subjects at the beginning, and following one year of treatment, for plasma lipids, apolipoproteins AI (apo AI) and B (apo B), and lecithin-cholesterol acyltransferase (LCAT) activity. On entry to the study there were no significant differences between groups for serum concentrations of total cholesterol (TC), low density lipoprotein cholesterol (LDL-C), high density lipoprotein cholesterol (HDL-C), free cholesterol (FC), total phospholipids (TPL), apo AI, apo B and LCAT activity. Compared to normal laboratory values, baseline TC was elevated in 5/10, LDL-C in 5/10, TPL in 6/10, while LCAT activity was decreased in 8/10 patients. The percent change after one year for CyA group vs the placebo group are as follows: total cholesterol, -22 vs -8%; LDL cholesterol -33 vs -25%; free cholesterol, -39 vs -14%; total phospholipids, -46 vs -23%; and LCAT activity, +/- 236 vs +/- 43%. The decrease in TC, LDL-C, FC, TPL with increase in LCAT activity suggests that CyA administration is associated with improvement in the lipid abnormalities of PBC.
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PMID:Effect of cyclosporin A on serum lipids in primary biliary cirrhosis patients. 261 91

In contrast to deficiencies of vitamins A, D and K, little is known of the prevalence, clinical manifestations and mechanisms of vitamin E deficiency in adult patients with cholestasis. We measured serum vitamin E levels in 45 patients with primary biliary cirrhosis, 20 with primary sclerosing cholangitis, 9 with cryptogenic cirrhosis and 12 with alcoholic cirrhosis. To correct for the hyperlipidemia often found in patients with primary biliary cirrhosis and primary sclerosing cholangitis, total serum lipids were measured and vitamin E levels were expressed as the vitamin E/total serum lipid ratio. Serum vitamin A and D levels and prothrombin time were also determined. Six of 45 patients with primary biliary cirrhosis (13%) but none of the patients with sclerosing cholangitis, cryptogenic cirrhosis or alcoholic cirrhosis and subnormal vitamin E/total serum lipids ratios. Vitamin E deficiency was found in two of eight patients with asymptomatic primary biliary cirrhosis. There was no correlation between standard liver biochemical tests, fasting serum cholylglycine and vitamin E levels. Patients with primary biliary cirrhosis and primary sclerosing cholangitis had significantly lower vitamin E/total serum lipids ratios than patients with either cryptogenic or alcoholic cirrhosis. Twenty-three percent of patients with primary biliary cirrhosis were vitamin D deficient and 14% had low vitamin A levels. Two of the six patients with vitamin E deficiency were also deficient in vitamin D, only one was vitamin A deficient and none had prolonged prothrombin time. We also investigated the gastrointestinal absorption of vitamin E in nine patients with primary biliary cirrhosis and normal vitamin E levels as well as in six normal controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vitamin E deficiency in primary biliary cirrhosis: gastrointestinal malabsorption, frequency and relationship to other lipid-soluble vitamins. 292 55

Primary biliary cirrhosis (PBC) is a chronic nonsuppurative, destructive cholangitis, whose etiology is unknown. Morbidity arises early from pruritus and later from hypercholesterolemia with xanthoma formation. Therapy is supportive and directed at the complications of cholestasis. Plasmapheresis has been reported to benefit patients with hyperlipidemia and PBC; thus a pilot study of plasmapheresis utilizing the Haemonetics Model 30 with replacement by albumin and saline was conducted. Five patients (four female and one male) with a mean age of 43 (range 29-58) and a mean duration of illness of 9.5 years (range 6-21) with marked jaundice, xanthomas, xanthelasma, hepatomegaly, fatigability, anorexia, and pruritus, as well as mild nausea were studied. Peripheral neuropathy was present in two patients. Two patients had splenomegaly. Two patients had an associated Sjogren syndrome. All patients had high serum bilirubin, alkaline phosphatase, and cholesterol levels and mild elevations in aspartate amino transferase and alanine amino transferase activities. Immune complexes measured in four patients were present. Antimitochondrial antibody titers were significant in all patients. Patients underwent a mean of 63 plasmapheresis procedures over a mean of 112 weeks removing a mean of 94.7 liters of plasma. No serious toxicity was seen. All patients showed a reduction in pruritus, xanthomas, xanthelasmas, and serum cholesterol values. The two patients who had evidence of Sjogren syndrome noted subjective improvement. All patients who had fatigue, anorexia and nausea also noted moderate improvement. There was no change in hepatomegaly or splenomegaly in patients demonstrating such organomegaly. Liver function did not change significantly. Overall, four patients had improvement in their condition and one patient achieved stability.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The clinical effectiveness and safety of chronic plasmapheresis in patients with primary biliary cirrhosis. 403 Jul 9

Autonomic and peripheral nerve function was examined in a group of patients with primary biliary cirrhosis using standard cardiovascular reflex tests and peripheral nerve conduction studies. Sixty-three percent had cardiovascular autonomic dysfunction with predominantly parasympathetic abnormalities. Symptoms of peripheral neuropathy were rarely volunteered spontaneously but occurred frequently when specifically sought; 40.7% had definite peripheral neuropathy, with symptoms and/or signs plus peripheral neurophysiological abnormalities. A close association between autonomic and peripheral nerve function was found with correlation between the heart rate variation on deep breathing and both peroneal nerve conduction velocity (r = 0.67, P < 0.001) and sural nerve conduction velocity (r = 0.52, P < 0.008). Correlations were also noted between other autonomic tests and peripheral nerve function. Both autonomic and peripheral nerve function correlated with serum bilirubin and albumin; no significant association was noted with vitamin E deficiency or hyperlipidaemia. A generalised neuropathy with peripheral and autonomic abnormalities is common in primary biliary cirrhosis and could be related to hepatic damage. Although rarely clinically disabling, the autonomic impairment associated with this neuropathy may be of prognostic significance.
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PMID:Autonomic and peripheral neuropathy in primary biliary cirrhosis. 769 49

Cholestasis may be extrahepatic or intrahepatic in origin. The block in bile secretion may be complete or incomplete to variable extent. Complete cholestasis occurs in case of primary parenchymal disease (intrahepatic cholestasis) or total obstruction of extrahepatic bile ducts (extrahepatic cholestasis). Incomplete block in bile secretion is due to incomplete obstruction of intra- or extrahepatic bile ducts (intra- or extrahepatic cholestasis or both). Histologically, it is useful to distinguish between bilirubionstasis and cholate-stasis. Complete secretory block causes as early changers: bilirubinostasis (in hepatocytes, canaliculi and Kupffer cells) in acinar zone 3, and "ductular reaction" in acinar zone 1. The latter refers to an increase in periportal ductular profiles, associated with neutrophil infiltration. With longer duration of cholestasis, further lesions ensue: feathery degeneration of hepatocytes due to retention of detergent bile acids, cholestatic liver cell rosettes representing a shift from hepatocellular to biliary differentiation, xanthomatous cells reflecting hyperlipidemia, cholate stasis in acinar zone 1 due to overload of membrane-damaging bile acids, eventually paraportal bile infarcts, and progressive ductular reaction. The latter may be due to multiplication of pre-existing ductules, to metaplasia of periportal hepatocytes, or to activation of progenitor cells. It is invariably associated with periductular fibrosis: the pacemaker for increasing matrix deposition, resulting in biliary fibrosis and eventually in true biliary cirrhosis. Incomplete cholestasis (e.g. PBC, PSC) is characterized by absence of bilirubinostasis during long periods of time, whereas the afore mentioned features of chronic cholestasis do appear. Hence follows that the most reliable markers of chronic incomplete cholestasis are cholate stasis, cholestatic rosettes and ductular reaction. Bilirubinostasis is only a late and often ominous sign.
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PMID:Histopathology of cholestasis. 860 Jun 86

Hepatocytes are rich in mitochondria, which play an important role in hepatic metabolism. In certain pathologic conditions (most often alcoholic liver disease) mitochondria became enlarged; nevertheless, even in these conditions they are hardly detectable on light microscopy. Recently an antimitochondrial antibody (mAM), which recognizes a 60-kDa protein, has been characterized. The purpose of the present study was to study immunoreactivity of this antibody in a series of liver biopsies. We studied 146 liver biopsies using an mAM. In 8 cases an ultrastructural study was also done, and in 2 cases Western blot analysis was performed. Cases were divided as follows: alcoholic liver disease (ALD, 31); steatosis (8); nonalcoholic steatohepatitis (NASH, 1); hepatitis C virus (HCV)-related hepatitis (83); hepatitis B virus (HBV)-related hepatitis (6); primary biliary cirrhosis (1); sclerosing cholangitis (1); haemosiderosis (1); sarcoidosis (1); alpha-1-antitrypsin deficiency (1); nonspecific findings (12). All the patients were investigated for alcohol or drug abuse, pharmacological treatment, hyperlipidaemia, hypercholesterolaemia and diabetes. Immunoreactivity was diffuse in cases of ALD, NASH and steatosis, and in patients with drug abuse. Electron microscopic immunogold and Western blot analysis confirmed that in the conditions examined the protein recognized by the mAM showed greater expression. Immunohistochemical staining was helpful in demonstrating a toxic or a metabolic insult even in cases in which the histological picture was blurred by viral infection.
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PMID:Identification of mitochondria in liver biopsies. A study by immunohistochemistry, immunogold and Western blot analysis. 976 31

This special issue of the "Cardiovascular Drug Reviews" is dedicated in memory of Dr. Edward H. Ahrens, Jr., who died on Dec. 9th, 2000 at the Princeton Medical Center in New Jersey at the age of 85. Dr. Ahrens was the Director of the Lipid Metabolism Laboratory at the Rockefeller University. Dr. Alexander Scriabine conceived the idea for the issue at the special memorial symposium held at the Rockefeller University on Feb. 05, 2002 under the auspices of The New York Lipid and Vascular Biology Research Club. Dr. Ahrens was the first president of the club. He started this club with Drs. Howard Eder and DeWitt Goodman. Dr. Eder thought that it would be a fitting attribute to honor one of the founding fathers of the club by hosting a memorial symposium. I, as the President of the club for that academic year, had no hesitation in accepting the proposal. This year will be the 40th anniversary of the club and its continued success provides a glimpse of the fine legacy left behind by Dr. Ahrens. Dr. Ahrens also played a pivotal role in the establishment of the Journal of Lipid Research. This is the 43rd year of the journal and in this commemorative issue we are reproducing a review he wrote for the 25th anniversary of the journal. I was never personally acquainted with Dr. Ahrens. However, I am honored that I got this opportunity to pay tribute to a great scientist whose work has contributed immensely to the progress of lipid research. He was a person who touched many lives and still continues to do so. My involvement in the remembrance of Dr. Ahrens shows that science not only impacts your contemporaries but also generations that follow you. Scientific research is a journey where you can leave your trails behind and be remembered for your work long after your departure from this world. Dr. Ahrens contributed immensely to the understanding of cholesterol metabolism. In the early stages of his career he showed that phospholipids solubilize fat in the blood. Now we know that a monolayer of phospholipids surrounds the neutral lipid core of cholesterol esters and triglycerides in lipoproteins. This monolayer contains proteins, called apolipoproteins, which play a major role in lipoprotein catabolism. Lipoproteins are the major vehicles that transport triglycerides and cholesterol in the plasma. He also described a new form of primary biliary cirrhosis characterized by the presence of xanthomas and hyperlipidemia with normal translucent plasma. Subsequently, his group at the Rockefeller Institute developed methods for the separation of lipids using silicic acid columns, isolated highly unsaturated long chain fish oil fatty acids using gas-liquid chromatography, standardized techniques to study sterol metabolism, and introduced the concept of using beta-sitosterolemia as an internal marker for cholesterol balance studies. These studies revealed that individuals show a reproducible response to a given regimen when studied over time. In contrast, different individuals may respond differently to the same regimen. Throughout his career, Dr. Ahrens championed metabolic studies in humans and has passionately argued for the continuation of such investigations. Dr. Ahrens also left behind trails of "graduates." Several of them are currently prominent scientists in their own fields. In this issue, Drs. Davignon and Samuel share their feelings for him in the form of "Remembrance" and "Curriculum Vitae." Dr. Salen has submitted a preview of his research progress towards the understanding of sitosterolemia. Dr. Hudgins and associates have acknowledged the efforts of Dr. Ahrens in binding LDL apheresis technique to the United States of America and have previewed the use of this procedure in the treatment of hypercholesterolemic patients. The contributions of these and other graduates will keep his legacy alive for a long time to come. We are truly grateful for this opportunity to pay homage to such a distinguished scientist.
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PMID:Special issue dedicated in memory of Dr. Edward H. Ahrens, Jr. 1248 Nov 96

Increased concentrations and activity of plasma cytokines produced by monocytes, macrophages, and hepatocytes in patients with alcoholic liver diseases, correlate with the clinical course of liver diseases and are of prognostic value. Especially, high levels of circulating tumor necrosis factor (TNF)-alpha have been found to correlate with increased mortality in alcoholic hepatitis. Moreover, hepatic RANTES was increased in patients with alcoholic hepatitis. Thus, TNF-alpha-induced RANTES expression may have a critical role in cell-mediated liver injury associated with alcoholic hepatitis. Fibrates are widely used in the treatment of hyperlipidemia and lower triglyceride levels in patients with hyperlipidemia. Recently, several groups reported that bezafibrate, one of fibrates, is effective in primary biliary cirrhosis treatment. Additionally, it is reported that bezafibrate is effective in the treatment not only of primary biliary cirrhosis but also of chronic hepatitis C and tamoxifen-induced non-alcoholic steatohepatitis. We, here, presented that bezafibrate and fenofibrate repressed TNF-alpha-induced protein production and mRNA expression of RANTES in human hepatocyte-derived cells. Luciferase assay showed that bezafibrate and fenofibrate inhibited RANTES gene expression in response to TNF-alpha. Moreover, bezafibrate repressed TNF-alpha-induced DNA-binding activity of NF-kappaB. Thus, fibrates reduced TNF-alpha-induced NF-kappaB activation and RANTES expression, possibly suggesting that fibrates might be inhibitory agents of migration of inflammatory cells by RANTES to the liver in patients with alcoholic liver diseases. In line of these results, it might be possible that fibrates are therapeutic agents in alcoholic liver diseases.
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PMID:Inhibition of TNF-alpha-induced RANTES expression in human hepatocyte-derived cells by fibrates, the hypolipidemic drugs. 1258 3


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