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:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma lipoproteins and postheparin plasma were investigated in a patient with familial LCAT deficiency with normal renal function and without proteinuria. As revealed by gelfiltration the large molecular weight LDL2 was not present, and myelin structures were not found in LDL1 or LDL2 when she was on her ordinary diet. After 60--65% fat diet for one week the large molecular LDL2 was found, but only in low concentration. We have no explanation for the difference in the lipoprotein abnormalities of this patient and others with this disease. There is no major difference in the fat content in the ordinary diet of the Norwegian patients with familial LCAT deficiency, nor has our patient any clinical signs of malabsorption. Furthermore, there was no difference in lipoprotein lipase or hepatic lipase activity in postheparin plasma between our patient and others with the same disease. However, whereas hepatic lipase activity was within the reference values, lipoprotein lipase activity was rather low in all patients investigated. We suggest that impaired VLDL catabolism in plasma, because of LCAT deficiency and low lipoprotein lipase activity, may partly explain the low HDL concentration consistently found in patients with familial LCAT deficiency.
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PMID:Familial lecithin:cholesterol acyltransferase deficiency. Further studies on plasma lipoproteins and plasma postheparin lipase activity of a patient with normal renal function. 21 75

Familial lecithin-cholesterol acyltransferase deficiency is a hereditary disorder of lipid metabolism. Lipid material is deposited in the kidneys, the glomerular capillary basement membrane is irregularly thickened, detachment and even loss of endothelial cells are seen in the glomeruli. Proteinuria was present in 8 out of 9 cases studied, usually it has not been detected before the age of 15-20. After 15-30 years with symptomless proteinuria, terminal renal failure has developed in 6 of the patients. Possible pathogenetic mechanisms of the renal damage is discussed; a large-molecular-weight low-density lipoprotein is suggested to be an important factor.
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PMID:Renal failure in familial lecithin-cholesterol acyltransferase deficiency. 40 80

One case of lecithin cholesterol acyltransferase (LCAT) deficiency is discovered by renal biopsy. Through the study of a French family, native to Brittany, one sister is found to be carrier of the trait. This finding suggests that the gene defect hitherto reported from Scandinavia is not restricted to this region. The patient shows typical signs of the disease, corneal opacities, anemia with a hemolytic component and lack of plasma LCAT activity. She has proteinuria, HTA, hematuria, no renal insufficiency. Signs previously unreported were noted: sensorineural hearing loss and platelet environment disorder. Histological abnormalities of two types are found: foam cells and subendothelial deposits, of which the tinctorial characteristics indicate a lipid composition. The lack of glomerular fluorescent staining observed is not in favor of an immune complex nephropathy. The study of this case suggests the determining role of lipid abnormalities in the genesis of anemia and of the vascular depositions in the induction of renal failure encountered in several cases of LCAT deficiency.
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PMID:Hereditary lecithin cholesterol acyltransferase deficiency. Report of a new family with two afflicted sisters. 63 18

Lecithin: cholesterol acyltransferase (LCAT) is an enzyme that catalyzes the esterifying reaction of cholesterol in plasma high density lipoprotein (HDL). Deficiency of LCAT is a rare hereditary disease characterized by several clinical symptoms such as proteinuria, corneal opacity, and anemia due to a shortened life span of erythrocytes. In this communication, we report a case of 40 year-old female patient of LCAT deficiency. She visited a hospital for work-up of proteinuria, corneal opacity and anemia. Activity of her serum LCAT was found to be extremely low, and characteristic changes in plasma lipids due to deficiency of LCAT was observed: those were marked decreases in HDL-cholesterol, degree of esterification in serum cholesterol, and apoprotein A-I, A-II, B and C-II levels. The diagnosis of LCAT deficiency was finally made. We studied about histopathological changes in the patient's kidney, and erythrocyte membrane lipid composition and fluidity. Histopathological findings in renal biopsy were follows: a) Light microscopy showed spherical deposits stained with periodic acid-Schiff in mesangial matrix and adjacent capillary loops, and hyaline deposits in arterioles, b) Electron microscopy showed vacuoles in mesangial matrix and along the glomerular basement membranes. In erythrocyte membrane lipids, increase of cholesterol to phospholipid molar ratio was evident, being accompanied by changes in phospholipid fractions: increase of phosphatidylcholine, and decreases of phosphatidylethanolamine, sphingomyelin and lysophosphatidylcholine. In phospholipid acyl chains, increase of C18:2 and decreased of C18:1 were evident in the patient. Erythrocyte membrane fluidity was found to be decreased in the patient in a measurement by pyrene, probably being related to the changes in membrane lipid composition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[A case of familial lecithin: cholesterol acyltransferase deficiency]. 163 33

LCAT activity and mass were assayed simultaneously in 23 members of a new family case, revealing two homozygotes with a markedly low HDL--cholesterol level and ester cholesterol ratio. The LCAT mass in these patients was only 0.8 and 0.9 micrograms/ml, respectively (normal range 4.4-8.1) and their LCAT activity was 4 and 6 nM/ml/h 37 degrees C (normal range 60-120). Apolipoprotein (Apo) A-I and II levels were significantly low; however, apolipoprotein E tended to be high. In two-dimensional electrophoresis, apo A-I isoform visualized the increase of immature apo A-I; that is, A-I2. One subject showed the clinical characteristics of classic LCAT deficiency; however, the other, who was a vegetarian, showed corneal opacities and red cell deformity, but not proteinuria. This suggests that a low fat diet which decreases the level of atherogenic large LDL, may lead to a more favourable prognosis with a reduced risk for renal insufficiency. There were two different types of LCAT abnormality in this family series. Among the 10 examined paternal kindred of the proband who was one of two homozygotes, seven had a low LCAT mass but normal LCAT activity with the exception of one kindred who had a low mass and low activity. In contrast, among his seven maternal kindred examined, two had a low LCAT activity but normal mass.
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PMID:A new case of familial lecithin: cholesterol acyltransferase (LCAT) deficiency--paradoxical findings regarding LCAT mass and activity in 23 members of a family. 263 46

Familial lecithin:cholesterol acyltransferase (LCAT) deficiency is a well-defined inborn error of metabolism, where the enzymatic deficiency (LCAT) has been clarified and also the chromosomal defect (chromosome 16q22) is localized. The disease is to-day known all around the world and 50 patients from 26 families are known to-day. Corneal opacities have been found in all patients and appear early in life. The opacities have a characteristic appearance which makes it rather easy to get the correct diagnosis of this disease. Near the limbus, a pronounced opacity of annular shape resembling a marked arcus lipoides senilis occurs. The opacities are composed of numerous minute grayish dots and are localized to the parenchyma and evenly distributed in all layers of the stroma. In polarized light, crystals that may be cholesterol have been seen in both cornea and the fundus. Excess unesterified cholesterol and phospholipid has been found in cornea. The disease is also characterized by slight anemia and proteinuria and sometimes lipemic plasma, but patients without anemia and proteinuria have also been described. All lipoproteins are abnormal in familial LCAT deficiency. The individual lipoprotein fractions are all heterogeneous and characterized by a higher amount of free cholesterol than normal. Rapidly developing renal insufficiency in adult age often appears in this type of familial renal disease. Kidney transplantation may be necessary. LCAT has now been characterized as a glycoprotein with 416 aminoacids + hydrophobic leader sequence of 24 aminoacids and an apparent Mr of 63 kD. Plans exist to proceed with genomic cloning of the LCAT gene from normal DNA and from various patients.
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PMID:Familial lecithin: cholesterol acyltransferase (LCAT) deficiency. An updated review Spring 1988. 306 99

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

Familial lecithin: cholesterol acyltransferase (LCAT) deficiency is an inborn error of lipid metabolism clinically characterized by anemia, proteinuria, and corneal opacification. The authors review the literature dealing with 34 biochemically proven and 2 probable cases of LCAT deficiency, and describe the first case from a German-speaking country. Ocular findings were bilateral diffuse nebulous corneal opacification composed of innumerable minute grayish dots throughout the stroma. At the periphery of the cornea these dots increased, forming a ringlike band with indistinct margins. A small lipid deposit was also seen in the retina of the right eye. Vision was 20/20, but glare disability was significantly increased. Corneal opacification was also noticed in all cases of the literature. Anemia was detected at the time of diagnosis in 92% and proteinuria in 76% of the reviewed cases. Corneal opacification is the one absolutely obligatory clinical feature; moreover it is uniform and pathognomonic: a true indicating sign of LCAT deficiency.
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PMID:[Corneal opacity as the leading symptom of hereditary lecithin-cholesterol acyltransferase (LCAT) deficiency. Case report and a review of the literature]. 358 37

Lecithin-cholesterol acyltransferase (LCAT) deficiency was first described in a Norwegian family as an inborn error of metabolism. Altogether, 35 patients in 18 families have been identified. The authors report the first German patient, who presented with the characteristic clinical features of corneal opacity, proteinuria, and mild anemia. Renal biopsy revealed foam cells and an increased mesangial matrix in the glomeruli. Confirmation of the clinical diagnosis of LCAT deficiency was obtained by plasma enzyme and lipid analyses. Functional LCAT activity was not detected in incubated plasma by chemical or radiochemical methods, although rocket immunoelectrophoresis indicated that the patient had about one-third of normal LCAT mass. In keeping with other reports of LCAT deficiency, apoE-rich discoidal particles were seen in the patient's high-density lipoprotein fraction by electron microscopic examination.
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PMID:Hereditary lecithin-cholesterol acyltransferase deficiency. Case report of a German patient. 366 2

Bilateral corneal opacities are the first clinical sign of a familial lecithin-cholesterol acyltransferase (LCAT) deficiency and can be found in early childhood. Familial LCAT deficiency includes the following typical clinical findings: corneal opacification, proteinuria, anemia, turbid or milky plasma, very low plasma HDL, very low plasma cholesterol esters and lysolecithin, hyperlipidemia, and very low or absent LCAT enzymatic activity. Several patients have had fundus findings including angioid streaks and papilledema. This disease is autosomal recessive and has been reported in a total of 19 patients previously. Progression of the disease has resulted in premature atherosclerosis, renal failure and transplantation, decreasing visual acuity and corneal transplantation.
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PMID:Corneal opacification and lecithin-cholesterol acyltransferase (LCAT) deficiency: a case report. 647 90


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