Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033687 (proteinuria)
 24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present a six-year follow-up of a boy with a novel type of hypolipoproteinemia, with clinical and biochemical features distinct from classical hypoalphalipoproteinemias. There were abnormally low concentrations of total and high-density lipoprotein (HDL) cholesterol, apolipoprotein (apo) B, apo A-I, and apo A-II, and the phospholipids were decreased. The most striking abnormality was an extra fraction containing mainly phospholipids and apo A-I in the HDL3 subfraction. This fraction is reminiscent of concentric 20- to 50-nm-diameter lamellar phospholipid liposomes. Plasma lecithin:cholesterol acyltransferase activity was strongly decreased. We noted a persisting polyclonal hypergammaglobulinemia, hematological abnormalities (hemolytic anemia and thrombocytopenia), and a progressive splenomegaly. After the five-year follow-up, the patient had recurrent severe infections; moderate hematuria and proteinuria developed gradually. Treatment with corticosteroids and immunoglobulins improved thrombocytopenia and hypolipoproteinemia. These clinical and biochemical findings differ from those in the known primary and secondary hypo-alpha-lipoproteinemia syndromes. Although investigation of the relatives suggests a familial predisposition for hypo-alpha-lipoproteinemia, the subject's condition can be regarded as acquired.
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PMID:Acquired hypolipoproteinemia. 158 35

The abnormalities of lipid metabolism in nephrotic syndrome consist in an increase in total and low-density lipoprotein (LDL) cholesterol, apolipoproteins B (ApoB), C-II and C-III, associated in patients with heavier or marked hypoalbuminemia with an increase in triglycerides and very low-density lipoprotein (VLDL) cholesterol, while the high-density lipoproteins (HDL) are distributed abnormally (increased HDL3 fraction and decreased HDL2 fraction) and the Apo A-I to Apo B ratio is reduced. Both increased hepatic lipoprotein synthesis and reduced removal capacity contribute to this hyperlipidemia. Proteinuria may lead to the lipoprotein abnormalities through stimulation of VLDL synthesis by the liver induced by hypoalbuminemia, although it has been more recently suggested that urinary protein loss is associated with the urinary loss of some important cofactor for the regulation of lipid synthesis or catabolism. Treatment of lipid abnormalities in patients with long-lasting heavy proteinuria is mandatory, because they may cause or contribute to accelerated atherosclerosis, but also because they appear to accelerate progression of renal disease by favouring mesangial sclerosis. Four groups of lipid-lowering drugs have been tested: 1) bile acid-binding resins; 2) fibric acid; 3) probucol; 4) inhibitors of HMG CoA reductase. The drugs of the last group appear to be effective and safe in short-term experiments, but long-term studies are necessary to confirm their validity. A dietary approach, consisting in a strictly vegetarian soy diet, very rich in poly- and monounsaturates fatty acids, has been recently tested by the author, with very promising results.
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PMID:Lipid changes in the nephrotic syndrome: new insights into pathomechanisms and treatment. 175 84

The serum lipoprotein concentrations, including high-density lipoprotein (HDL) subfractions and apolipoproteins Al and B were measured in 21 patients (14 male and seven female) with nephrotic range proteinuria (greater than 3g/24hr), well maintained renal function (creatinine clearance greater than 35 mliter/min/1.73m2) and biopsy-proven primary glomerular disease. In these, and in a further five patients (creatinine clearance greater than 15 mliter/min/1.73m2), urinary apolipoprotein Al output was determined. Total HDL cholesterol was similar in patients and controls, but in male patients, HDL2 was low (0.54 +/- 0.10 mmole/liter, mean +/- SEM) compared to controls (0.75 +/- 0.04 mmole/liter, P less than HDL3 was high (0.81 +/- 0.07 in patients and 0.63 +/- 0.02 mmole/liter in controls, P less than 0.01). In women, there was a similar tendency for HDL2 to be lower in patients (0.68 +/- 0.18 mmole/liter) than in controls (0.85 +/- 0.10 mmole/liter). Multiple regression analysis revealed that major determinants of the urinary apolipoprotein Al output were the urinary protein output and selectivity index (multiple r = 0.85). Furthermore, some patients lost apolipoprotein Al into their urine at rates indicating increased production of apolipoprotein Al in the nephrotic syndrome. The serum HDL subfraction concentrations in the nephrotic syndrome could be explained by a combination of increased HDL production and increased urinary loss of low molecular wt HDL.
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PMID:Serum and urinary high density lipoproteins in glomerular disease with proteinuria. 309 2

Patients with insulin dependent diabetes mellitus who develop proteinuria may die prematurely, whereas those who do not develop this complication have a comparatively normal life span. The excess mortality in diabetics with proteinuria is from cardiovascular as well as renal disease, but the reason is unclear. Risk factors for vascular disease were therefore assessed in 22 insulin dependent diabetics with proteinuria, but not renal failure, who were matched for sex, age, duration of diabetes, and glycated haemoglobin (HbA1) values with a similar number who had normal urinary albumin excretion rates. Macrovascular disease (ischaemic heart disease and peripheral vascular disease) was present in 10 patients with proteinuria but in only three with normal albumin excretion rates, and proliferative retinopathy was detected in 11 and four patients in the two groups. There was no significant excess of smokers in the group with proteinuria. Blood pressure was, however, higher in the patients with proteinuria--mean systolic pressure 161 (SD 18) mm Hg compared with 135 (19) mm Hg (95% confidence interval of difference between means 15 to 38 mm Hg); mean diastolic pressure 90 (SD 12) mm Hg compared with 79 (15) mm Hg (confidence interval 3 to 19 mm Hg). The concentration of serum high density lipoprotein (HDL) cholesterol isolated by precipitation was lower in the patients with proteinuria (confidence interval 0.02 to 0.41 mmol/l). Their concentration of HDL2 cholesterol isolated by ultracentrifugation was also decreased (confidence interval 0.02 to 0.40 mmol/l), whereas HDL3 cholesterol tended to be increased (confidence interval -0.01 to 0.23 mmol/l). There was also a trend for serum cholesterol concentrations to be higher in the presence of proteinuria (confidence interval -0.39 to 1.20 mmol/l). The aggregation of risk factors for atherosclerosis in insulin dependent diabetes mellitus complicated by proteinuria helps to explain the increased prevalence of ischaemic heart disease and peripheral vascular disease reported in these patients. Early renal disease in insulin dependent diabetes may have an important role in hypertension and altered lipoprotein metabolism.
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PMID:Influence of proteinuria on vascular disease, blood pressure, and lipoproteins in insulin dependent diabetes mellitus. 311 68

Familial LCAT deficiency is due to deficiency of plasma lecithin-cholesterol acyltransferase. The plasma is rich in free cholesterol and lecithin while cholesterol ester and lysolecithin levels are reduced. Analysis of the abnormal lipoproteins has helped our understanding of plasma lipid and lipoprotein metabolism in normals and in patients with liver disease. Proteinuria and anaemia are common and there is marked corneal lipid deposition. Eventually renal function deteriorates and dialysis and/or renal transplantation may be necessary. The human LCAT gene has been sequenced and been shown to be present on chromosomal segment 16q22-the region predicted on the basis of recombination studies as the site of the LCAT deficiency gene. The gene defect has been identified in some cases, but the mechanism remains unclear as the mutations were not in the region presumed to be the enzyme's active site. Only three cases of fish-eye disease have been described; all were elderly and had obvious corneal opacities. They had fasting hypertriglyceridaemia and increased VLDL. IDL and LDL were increased and were triglyceride rich. HDL, reduced by 90%, was mainly HDL3--with a high free and low ester cholesterol. LCAT activity in fish-eye plasma was normal but when measured in an exogenous substrate it was only 10-15% of normal. Fish-eye HDL is a substrate for purified LCAT, but fish-eye LCAT does not esterify free cholesterol of HDL (normal or fish-eye), although it esterifies free cholesterol of VLDL and LDL. It has been suggested that one type of LCAT activity acts on HDL (alpha-LCAT) and another on VLDL and LDL (beta-LCAT)--and that fish-eye disease is due to alpha-LCAT deficiency, and classical familial LCAT deficiency due to lack of both components.
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PMID:Familial LCAT deficiency and fish-eye disease. 314 86

We investigated lipoprotein profiles in 24 children with normal renal function at different stages of the idiopathic nephrotic syndrome (NS). Four groups of patients were studied: (I) steriod-resistant NS with persistent proteinuria; (II) untreated steroid-sensitive NS during a relapse; (III) steroid-sensitive NS in remission induced by steroid-treatment; (IV) steroid-sensitive NS in long-term remission without therapy. Triglycerides (TG), cholesterol (CHOL), and phospholipids (PLP) were measured in plasma as well as in the lipoprotein fractions of very low (VLDL), intermediate (IDL), low (LDL) and high density (HDL). Apoproteins (Apo) AI, AII, B and C-apoproteins were measured in patients of groups I and IV. Results were compared to those obtained in 24 healthy control subjects. All patients with active NS (groups I-III) had significantly elevated CHOL levels. TG and CHOL in the VLDL, IDL, LDL, and CHOL in HDL2, but not HDL3 were inversely correlated with the serum albumin level. Patients with active NS had increased concentrations of TG and CHOL in lipoprotein fractions of lower density. Total and fractionated HDL-CHOL was not significantly different from control levels in any group. Patients in group I had significantly reduced Apo AI levels, whereas an increase of Apo AI and Apo AII in HDL3 and of most C-apoproteins in both HDL fractions was observed in patients of group IV. While changes in HDL apoprotein composition during long-term remission are of yet unknown clinical significance, our data indicate an increased risk of atherosclerosis only in those paediatric patients with persistent steroid-resistant NS.
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PMID:Lipoprotein profiles at different stages of the nephrotic syndrome. 339 Dec 17

Hyperlipidemia so commonly complicates heavy proteinuria that it has come to be regarded as an integral feature of the nephrotic syndrome (NS). Characteristically, total plasma cholesterol and triglyceride levels are elevated, as are very-low-density lipoprotein (VLDL) and low-density lipoprotein (LDL) cholesterol. Although high-density lipoprotein (HDL) concentrations may be normal, HDL subtypes are abnormally distributed, with a reduction of HDL2 and an increase in HDL3. In addition, lipoprotein (a) [Lp (a)] levels may be elevated. The mechanisms underlying these abnormalities are multifactorial, involving both increased rates of lipoprotein synthesis and defective clearance and catabolism of circulating particles. Although recent dietary and therapeutic studies have demonstrated that nephrotic hyperlipidemia can be effectively treated, the need for such intervention has not been clearly established. This pattern of lipoprotein abnormality is associated with an increased risk of cardiovascular disease in the general population, and several studies have suggested that nephrotic individuals are more likely to develop atherosclerosis. However, no prospective trials have evaluated the relationship between deranged lipid metabolism and coronary or cerebral artery disease in patients with NS. In addition, although recent experimental studies suggest that lipid abnormalities may accelerate renal injury and that lipid-lowering agents may protect renal function, there is little current evidence to suggest that such intervention is of value in preserving residual renal function in humans. Further studies are clearly required to assess the potential long-term benefits of lipid-lowering intervention in individuals with NS. In the meantime, based on data generated from other population groups, a rational approach to the clinical management of hyperlipidemia in these patients is presented.
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PMID:Lipid abnormalities in the nephrotic syndrome: causes, consequences, and treatment. 812 33

In experimental nephrosis, a decrease in plasma albumin resulting from proteinuria causes a decreased in the plasma oncotic pressure. The existence of an osmoreceptor, which responds to the low oncotic pressure and produces a factor(s) that signals the liver to increase the secretion of plasma proteins, is postulated. The hyperlipidemia characteristic of the nephrotic syndrome results primarily from increased hepatic secretion of apolipoproteins and lipoproteins representing the entire density spectrum from VLDL, IDL, and LDL to HDL. Not all plasma proteins and apolipoproteins are affected to the same extent. Increased mRNA levels due to increased transcription have been shown for albumin and apolipoprotein A-1 (apoA-1). The increased secretion of VLDL, the major vehicle for triglyceride transport from the liver, appears to be due mainly to posttranscriptional events possibly related to increased lipogenesis. Once proteinuria begins, the demand for amino acids for albumin and apolipoprotein synthesis by the liver is increased. To meet this demand, protein catabolism in the peripheral tissues is increased. One manifestation of this process is a decrease in lipoprotein lipase which reduces VLDL catabolism, contributing to the sustained elevation of plasma VLDL. The spectacular overproduction of apoA-1 in nephrosis in the rat is accompanied by a decreased fractional catabolic rate (FCR), contributing to the maintenance of high levels of HDL. Urinary loss of HDL and its renal catabolism does not account for the decreased FCR. The reason for the decreased FCR is not known. Work with nephrotic rats overexpressing transgenic human apoA-1 has shown that human A-1 forms smaller HDL3-sized particles, rather than the larger HDL2 of the rat. This may contribute to the failure of HDL levels to increase in the human nephrotic syndrome. High plasma VLDL and LDL with normal or low HDL probably account for the increased incidence of coronary artery disease in the nephrotic syndrome.
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PMID:Lipoprotein metabolism in experimental nephrosis. 893 62

Patients with chronic renal failure (CRF) have an increased risk of cardiovascular disease (CVD). Elevated lipoprotein(a) (LP(a)) levels have been shown to be an important risk factor for CVD. This study examined Lp(a) changes during the progression of renal disease in patients following different dietary regimens. Fifty-seven patients with CRF of different etiology and degree (mean age 58 +/- 10 yrs) were divided into four groups according to their serum creatinine (sCr) levels. The first group had sCr 1.5-3; the second 3-6; the third > 6, all on a conventional low-protein diet (CLPD), and the fourth had sCr > 6 on a supplemented vegetarian diet (SVD). Lp(a), apoproteins AI, B, E, CII, CIII, CII/CIII, Apo A/Apo B ratios and the lipid pattern (total cholesterol (TC) and its fractions LDL, HDL, HDL3 and triglycerides) were investigated. Patients with diabetes, proteinuria > 1.5 g/24 h, hepatic disease or taking contraceptives or lipid lowering drugs were excluded. Results were compared with a reference group (N = 12) with sCcr < 1. Lp(a) concentrations increased with the progression of renal failure, and a significant correlation was observed with sCr. Despite the elevated sCr levels, patients on the SVD had an almost normal Lp(a) concentration. Only 15% of the reference group had Lp(a) levels > 30 mg/dl, compared to 33%, 50% and 78% of the 1st, 2nd and 3rd groups and 38% of the 4th group. No relationship was found between Lp(a), lipids or apoproteins. Our results indicate that renal function influences Lp(a) levels and suggest a SVD helps to lower them. This might be ascribed to some antioxidant factors in the SVD.
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PMID:Lp(a) levels: effects of progressive chronic renal failure and dietary manipulation. 924 24

To study the relationship of the concentration of serum lipoprotein (a) [Lp(a)] with diabetic complications in non-insulin dependent diabetes mellitus (NIDDM), 100 non-diabetics with 150 patients with NIDDM were compared. There was no difference in Lp(a) concentration (P > 0.5) between the two groups. Lp(a) concentration was not significantly correlated with the levels of total cholesterol, low-density lipoprotein cholesterol, triglyceride, high-density lipoprotein cholesterol (HDL-C), HDL2-C, HDL3-C, apolipoprotein A-I, apolipoprotein B in both groups. In NIDDM group, patients with hypertension, macro- and microangiopathy had higher levels of Lp(a) than those without these complications (P < 0.001 and P = 0.002 respectively). Lp(a) level was positively related to presence of macroangiopathy (r = 0.185, P = 0.024) and proteinuria (r = 0.316, P < 0.001) in NIDDM.
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PMID:[Lipoprotein (a) and non-insulin dependent diabetes mellitus]. 938 40


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