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)

Renal disease is a frequent and serious complication of type I glycogen storage disease. A type I glycogen storage disease patient with focal segmental glomerulosclerosis and progressive renal insufficiency underwent a renal allograft transplantation. Despite the same cornstarch therapy, the post-transplantation course was complicated by worsening of the metabolic control manifested by exacerbated lactic acidaemia and hyperlipidaemia. This lactic acidaemia was remarkable for its association with hyperglycaemia. Hyperglycaemia accompanied by lactic acidaemia is strikingly unusual in type I glycogen storage disease, since this is a disease characterized by hypoglycaemia and an inverse relationship between blood glucose concentration and lactate levels. Both fasting insulin and C-peptide levels in the patient were greater than similar age-matched type I glycogen storage disease controls, indicating hyperinsulinaemia. The most likely mechanism responsible for the combined hyperglycaemia and lactic acidaemia was insulin resistance due to glucocorticoid treatment, instituted for immunosuppression. The hyperglycaemia associated with the lactic acidaemia was transient and resolved with steroid tapering. The exacerbated hyperlipidaemia, however, persisted after renal transplantation. Type I glycogen storage disease patients may be prone to glucocorticoid-induced insulin resistance, since the cellular metabolism in these patients may already be compromised with ineffective insulin action and/or reduced insulin output.
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PMID:Hyperglycaemia associated with lactic acidaemia in a renal allograft recipient with type I glycogen storage disease. 186 63

Type I glycogen storage disease (GSD-I) is due to the deficiency of glucose-6-phosphatase activity in the liver, kidney and intestine. Although kidney enlargement occurs in GSD-I, renal disease has not been considered a major problem until recently. In older patients (more than 20 years of age) whose GSD-I disease has been ineffectively treated, virtually all have disturbed renal function, manifested by persistent proteinuria; many also have hypertension, renal stones, altered creatinine clearance or a progressive renal insufficiency. Glomerular hyperfiltration is seen in the early stage of the renal dysfunction and can occur before proteinuria. In younger GSD-I patients, the hyperfiltration is usually the only renal abnormality found; and, in some patients, microalbuminuria develops before clinical proteinuria. The predominant underlying renal pathology is focal segmental glomerulosclerosis. Renal stones and/or nephrocalcinosis are also common findings. Amyloidosis and Fanconi-like syndrome can occur, but rarely. The risk factors for developing the glomerulosclerosis in GSD-I include hyperfiltration, hypertension, hyperlipidemia and hyperuricemia. Dietary therapy with cornstarch and/or nasogastric infusion of glucose, aimed at maintaining normoglycemia, corrects metabolic abnormalities and improves the proximal renal tubular function. Long-term trial will be needed to assess whether the dietary therapy may prevent the evolution or the progression of the renal disease.
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PMID:Type I glycogen storage disease: kidney involvement, pathogenesis and its treatment. 202 44

Hyperlipidaemia is a feature of glycogen storage disease type I (GSD-I) (Levy et al.). High levels of LDL cholesterol (200 +/- 25 mg dl-1) and apo B (387 +/- 44 mg dl-1) were found in association with hypercholesterolaemia in GSD-I. Related causative factors might be attributed to overproduction and/or delayed removal of LDL. In this study, a possible alteration in the clearance of LDL was examined. Using cultured fibroblasts for LDL receptor activity, the following observations were made: 1. GSD-I fibroblasts revealed only a slight decrease in LDL binding (65 +/- 7) when compared with controls (74 +/- 4 ng mg-1 protein), however, LDL internalization (382 +/- 24 vs. 570 +/- 52 ng mg-1 protein) and proteolytic degradation (2082 +/- 280 vs. 2916 +/- 12.5 ng mg-1 protein) were significantly affected (P less than 0.01). 2. Binding, internalization and proteolytic degradation of LDL from GSD-I were compared with that of controls, and were found to be significantly lower (P less than 0.01). 3. Substitution of control lipoprotein-deficient serum (LPDS) by GSD-I LPDS further diminished the above processes (P less than 0.05). Our results demonstrate that increased plasma cholesterol in GSD-I is due to a decreased catabolism of LDL. The data suggest that the problem may well be multifactorial, due to diminished receptor expression, abnormal LDL composition and impaired LDL receptor interaction due to a circulating inhibitory factor.
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PMID:Mechanisms of hypercholesterolaemia in glycogen storage disease type I: defective metabolism of low density lipoprotein in cultured skin fibroblasts. 211 85

The metabolic disturbances in glucose-6-phosphatase deficiency (von Gierke's disease) are the consequence of hypoglycemia, occurring mostly during the night. Continuous provision of glucose is the aim of every recently introduced treatment procedure. We studied the influence of continuous ambulatory peritoneal dialysis (CAPD) on the metabolic disturbances in a 42-year-old female patient with von Gierke's disease and end-stage renal disease. During six months of CAPD, there were no dialysis-related complications. The metabolic acidosis didn't worsen: arterial bicarbonate and lactate were not changed. Mean glycemia was 118.6 +/- 14.4 mg%. Total lipemia, cholesterol and triglycerides were not different from those before CAPD, despite the fact that all hypolipidaemic drugs were stopped. Three different exchange procedures were compared during the night: no dialysis, one exchange with a 2 L solution without buffer containing glucose 15 g/L and containing glucose 42.5 g/L. The results show that the 4.25% glucose solution prevents hypoglycaemia, and diminishes the increase in lactate and pyruvate concentration. Intraperitoneal glucose normalizes the plasma free fatty acid concentration. A very important result is the disappearance of hypo-insulinism. We conclude that, from a clinical point of view, CAPD is a well-tolerated treatment in von Gierke's disease. The limited results provide some evidence that the use of a 4.25% glucose solution as an overnight exchange, instead of the usual 1.5% solution, can prevent at least partly the glycogenolysis and consequently the metabolic disturbances of von Gierke's disease.
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PMID:Continuous ambulatory peritoneal dialysis (CAPD) in a patient with glucose-6-phosphatase deficiency. 248 95

Patients with deficient activity of hepatic glucose-6-phosphatase (glycogen storage disease type I [GSD-I]) have fasting-induced hypoglycemia, lactic acidemia, hyperuricemia, hyperlipidemia, and a markedly increased capacity for ethanol elimination. The mechanism(s) responsible for the rapid ethanol elimination is not known but has been thought to be directly related to the enzyme defect. We postulated however, that the increased elimination of ethanol was an adaptive phenomenon that would revert toward normal with correction of other blood abnormalities by long-term maintenance of normal blood glucose concentration. Six patients were observed before treatment (group A), and four of the six were observed again 3 to 6 months after dietary treatment had normalized all blood abnormalities (group B). Patients received 16 ml/m2 absolute ethanol as a 5% solution in 0.9% sodium chloride over a 20-minute period. The rate of ethanol elimination was significantly greater (P less than 0.03) in group A than in group B (55.1 +/- 11.1 vs. 37.5 +/- 8.6 mg/dl/hr). Changes in lactate level after ethanol were also significant between the two groups (P less than 0.005). Group A showed a decrease from 9.4 +/- 0.5 to 6.4 +/- 0.4 mEq/L, whereas group B showed an increase in lactate level from 2.7 +/- 0.2 to 4.4 +/- 0.64 mEq/L. Ethanol induced no significant change in blood glucose concentration in group A, whereas there was a significant increase (P less than 0.03) in group B from 93 +/- 6 to 123 +/- 9 mg/dl.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rapid ethanol elimination in patients with type I glycogen storage disease is an adaptive change resulting from recurrent hypoglycemia. 345 5

Nocturnal intragastric feeding has been shown to be an effective means to improve clinical and biochemical features in glycogen storage disease type I (GSD-I). In this study, we investigated the fatty acid patterns in a whole plasma and in circulating lipoproteins in patients on this therapy. The results demonstrated massive concentration of total fatty acids coupled with higher levels of triglycerides, free cholesterol, cholesterol ester and phospholipids. This hyperlipidemia involved all fatty acids without distinction of carbon or bond numbers. However, the increase was more pronounced for saturated than polyunsaturated fatty acids, as was demonstrated by the ratios of both oleic acid to linoleic acid (1.91 +/- 0.40 vs 0.80 +/- 0.09 in controls) and of omega 3 + omega 6 to omega 9 fatty acid families (0.92 +/- 0.11 vs 1.66 +/- 0.08 in controls). The fatty acid patterns in very low (VLDL), low (LDL) and high (HDL) density lipoprotein showed substantial differences in composition, reflecting an association between an abnormal lipoprotein pattern and essential fatty acid deficiency. Furthermore, GSD-I patients exhibited a significant increase in VLDL (17 +/- 2 vs 47 +/- 7 mg/dl) and LDL cholesterol (124 +/- 7 vs 206 +/- 24 mg/dl), coupled with a decrease in HDL cholesterol (49 +/- 4 vs 28 +/- 3 mg/dl). These data documenting high LDL cholesterol and low HDL cholesterol associated with an increased concentration and proportion of saturated fatty acids suggest that GSD-I patients on nocturnal intragastric feeding are at high risk for atherosclerosis and its complications.
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PMID:Plasma and lipoprotein fatty acid composition in glycogen storage disease type I. 347 22

Deficiency of glucose-6-phosphatase in Type I glycogen storage disease (GSD) results in hypoglycemia and excessive accumulation of glucose-6-phosphate. As a result, lactic acid, uric acid, and lipids are formed as end-products. The formation of these metabolites are discussed with an emphasis on monitoring therapeutic progress. In addition, hyperlipidemia and associated changes in apolipoproteins are considered as indices of the clinical course.
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PMID:Secondary metabolic changes in von Gierke's disease (Type I glycogen storage disease). 675 28

A 17-year-old female with glycogen storage disease type I (GSD-I) died suddenly with hemorrhagic pancreatitis. She had a long-standing history of hyperlipidemia that did not respond to a regimen of frequent daytime and nocturnal intragastric feeding. Although pancreatitis is a well-known complication of hyperlipidemia, there are no reports to our knowledge of pancreatitis causing sudden death in patients with GSD-I. Pancreatitis must be added to the growing list of complications that can occur in long-term survivors with GSD-I, and should be considered when these patients present with abdominal pain.
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PMID:Hemorrhagic pancreatitis in a patient with glycogen storage disease type I. 692 12

The introduction of continuous nocturnal enteral glucose feeds and uncooked cornstarch has improved the prognosis for patients with the hepatic glycogen storage diseases. An increasing number of patients are surviving into adulthood in better health, but still at some medical cost. In this review we examine bone mineralization, renal function, hepatic tumours, and vascular endothelial function in GSD I and cardiac function in GSD III. All females over the age of 5 years with GSD I, III, VI and IX had morphologically polycystic ovaries. Thirteen adult GSD I patients have been studied, and been found to have poor bone mineralization and marked renal glomerular and tubular dysfunction. More than half of these patients also had focal hepatic lesions on sonography and yet vascular endothelial function was preserved in the face of hyperlipidaemia. In 12 GSD III patients, one had a focal hepatic lesion and 6 had pronounced left ventricular hypertrophy, although cardiorespiratory function was normal. These data emphasize the multisystem nature of these disorders and highlight the need for careful longterm follow-up.
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PMID:The hepatic glycogen storage diseases--problems beyond childhood. 749 4

Glycogen storage disease type 1 (GSD-1), also known as von Gierke disease, is caused by a deficiency in the activity of the enzyme glucose-6-phosphatase (G6Pase). It is an autosomal recessive disorder characterized by hypoglycemia, hepatomegaly, kidney enlargement, growth retardation, lactic acidemia, hyperlipidemia and hyperuricemia. The disease presents with both clinical and biochemical heterogeneity consistent with the existence of two major subgroups, GSD-1a and GSD-1b, which have been confirmed at the molecular genetic level. GSD-1a, the most prevalent form, is caused by mutations in the G6Pase gene that abolish or greatly reduce enzymatic activity. The gene maps to chromosome 17q21 and encodes a microsomal transmembrane protein. Animal models of GSD-1a exist and are being exploited to delineate the disease more precisely. It has been proposed that GSD-1b is caused by a defect in the microsomal glucose-6-phosphate transporter. The gene responsible for GSD-1b has been mapped to chromosome 11q23 and a cDNA encoding a microsomal transmembrane protein has been identified. The function of this putative GSD-1b protein remains to be determined. These recent developments, along with newly characterized animal models of GSD-1a, are increasing our understanding of the interrelationship between the components of the G6Pase complex and type 1 glycogen storage diseases.
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PMID:Molecular Genetics of Type 1 Glycogen Storage Diseases. 1032 3


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