Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024523 (malabsorption)
 7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the past 5 years, many different mutations in the apolipoprotein (apo) B gene have been described that affect plasma cholesterol levels. More than 20 different mutations in the apoB gene have been shown to cause familial hypobetalipoproteinaemia, a condition characterized by abnormally low plasma concentrations of apoB and LDL cholesterol. Almost all of the mutations are nonsense or frameshift mutations that interfere with the translation of a full-length apoB100 molecule. Many, but not all, of these apoB gene mutations result in the synthesis of a truncated species of apoB that can be detected within the plasma lipoproteins. Familial hypobetalipoproteinaemia heterozygotes are almost always asymptomatic and have LDL cholesterol levels about one-quarter to one-third of those of unaffected family members. Several homozygotes and compound heterozygotes for familial hypobetalipoproteinaemia have been described. In these individuals, the LDL cholesterol levels are extremely low, usually less than 5 or 10 mg dl-1, and the clinical phenotype is variable, ranging from completely asymptomatic to severe problems related to intestinal fat malabsorption. One missense mutation in the apoB gene (an Arg----Gln substitution at apoB amino acid 3500) is associated with very poor binding of apoB100 to the cellular LDL receptor. This syndrome has been designated familial defective apolipoprotein B (FDB). The amino-acid substitution at residue 3500 delays the clearance of LDL from the plasma and results in hypercholesterolaemia. In some Western populations, the frequency of FDB heterozygotes appears to be as high as 1 in 500 individuals.
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PMID:Apolipoprotein B gene mutations affecting cholesterol levels. 161 87

In a family in which the father was the mother's uncle, 3 of the 7 children were affected by a syndrome of malabsorption with various clinical symptoms. Diarrhea appeared in 2 of the children at birth, and in the third child at six months. The diarrhea led to failure-to-thrive, muscular wasting and abdominal swelling. However, the children improved spontaneously over the years. During childhood all 3 had manifest steatorrhea. Serum cholesterol was between 39 and 100 mg/dl, while triglycerides were normal to high. Reevaluation during the past year revealed areflexia, deficiency of vitamins A and E and of apoproteins A and B, and prolonged PT time in 2 of the children. Electron and light microscopy of small intestinal biopsies revealed vacuoles in the enterocytes. Electrophysiological tests revealed major disturbances in sensory conduction and brain-stem function. These cases differ from those described in the literature. Although in hypobetalipoproteinemia, 1 of the parents would be expected to be heterozygous and have low serum levels of APO B, in this family the parents had normal levels. Their children had low levels of serum APO A, while in patients with hypobetalipoproteinemia the levels are normal. There is a report of a case of deficiencies of both apolipoproteins, but the patient was asymptomatic, had chylomicronemia after a prolonged fast, and lower cholesterol levels than our patients. 8 other cases of apolipoprotein deficiency have been reported with biochemical characteristics similar to those of our patients, but with retention of chylomicrons in the small intestine.
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PMID:[Familial hypobetalipoproteinemia with steatorrhea and malabsorption]. 180 Feb 74

We examined the relationship between cholesterol synthesis and high affinity low density lipoprotein (LDL) catabolism in freshly isolated mononuclear leukocytes and plasma sterols and apolipoprotein concentrations in three homozygous and one heterozygous subject with sitosterolemia with xanthomatosis and in 12 control subjects. Observations in untreated subjects were compared during therapy with lovastatin or interruption of the enterohepatic circulation of bile acids. Plasma cholesterol, plant sterol, and apolipoprotein B concentrations declined more than 50% in the two homozygous sitosterolemic subjects after ileal bypass surgery. In contrast, plasma cholesterol, plant sterol, and apolipoprotein B concentrations remained constant in a homozygous sitosterolemic subject and declined only 7% in a heterozygous sitosterolemic subject during 20 weeks of lovastatin (40 mg/day) treatment compared to a 28% decrease in similarly treated control subjects. Lovastatin treatment decreased cholesterol synthesis more than 60% but did not increase high affinity catabolism of LDL further in the sitosterolemic cells, compared to a more than 20% rise in control mononuclear leukocytes. Conversely, bile acid malabsorption increased cholesterol synthesis 59%, total hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase activity 13%, and receptor-mediated LDL degradation 41% in control cells, but did not stimulate cholesterol synthesis or microsomal HMG-CoA reductase activity in sitosterolemic mononuclear leukocytes although receptor-mediated LDL catabolism rose an additional 26%. These results demonstrate a greater than expected decrease in plasma sterols and apolipoprotein B concentrations in sitosterolemic subjects after stimulation of bile acid synthesis because of the inability to up-regulate cholesterol production. We suggest that bile acid-sequestering drugs or ileal exclusion surgery may be more effective treatments to mobilize accumulated sterol deposits and prevent atherosclerosis in this disease.
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PMID:Unexpected failure of bile acid malabsorption to stimulate cholesterol synthesis in sitosterolemia with xanthomatosis. Comparison with lovastatin. 231 63

We describe a child, the issue of phenotypically normal parents, who had fat malabsorption, both intestinal and hepatic steatosis, and serum cholesterol and triglyceride concentrations of 38 and 63 mg/dl, respectively. Lipoprotein electrophoresis, Ouchterlony double diffusion, and electron microscopy demonstrated that normal low density lipoproteins (LDL: 1.006 less than rho less than 1.063 g/ml) were absent. Lipoprotein particles in the rho less than 1.006-g/ml fraction were triglyceride rich, very large (93.2 +/- 35.1 nm), and contained the B-48 but not the B-100 apoprotein; both species of apolipoprotein (apo) B were found in the parents' lipoproteins. These chylomicrons and chylomicron remnants were present even in the patient's fasting plasma, which suggested prolonged dietary fat absorption. Plasma levels of high density lipoprotein lipids and proteins were low, and the phosphatidylcholine/sphingomyelin ratio was reduced as in typical abetalipoproteinemia. The monosialylated form of apo C-III was not identified on polyacrylamide gel electrophoresis, which suggested that this protein was elaborated only with very low density lipoproteins (VLDL). A radioimmunoassay for apo B employing a polyclonal antisera to plasma LDL gave apparent plasma apo B levels of 0.6, 66, and 57 mg/dl in the patient and his father and mother, respectively. The displacement curve generated by the parents' VLDL and LDL did not did not differ from control lipoproteins. The patient's chylomicron-chylomicron remnant fraction displaced normal LDL over the entire radioimmunoassay range, but the efficiency of displacement was strikingly less than with B-100 containing lipoproteins. If the patient's B-48 protein is not qualitatively abnormal, these results confirm very limited immunochemical cross-reactivity between at least one major epitope on B-100 and the epitopes expressed on B-48. The apo B defect in this patient appears to be recessive. It abolishes B-100 production and may additionally limit the formation of B-48.
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PMID:Apolipoprotein B-100 deficiency. Intestinal steatosis despite apolipoprotein B-48 synthesis. 403 Oct 57

To test the association of cholesterol malabsorption with cholesterol and lipoprotein metabolism, we determined low-density lipoprotein (LDL) apolipoprotein (apo) B kinetics simultaneously with measurements of cholesterol absorption and synthesis in six patients with celiac disease (CD) before and during the gluten-free diet (GFD). The basal condition was characterized by low cholesterol absorption, enhanced cholesterol synthesis, and high removal and transport rate of LDL apo B. The GFD markedly improved cholesterol absorption and decreased intestinal influx of cholesterol, fecal neutral steroids, and cholesterol synthesis. Of plasma total and lipoprotein cholesterol levels, only plasma high-density lipoprotein (HDL) was enhanced by the GFD proportionately to cholesterol absorption. The plasma LDL apo B level remained unchanged because of simultaneous decreases in the fractional catabolic rate (FCR) and transport rate of LDL apo B. In fact, the more cholesterol absorption was improved by the GFD, the more the FCR and transport rate for LDL apo B were decreased, and their reductions were closely related to the decrease in cholesterol synthesis. The present results show that cholesterol absorption, cholesterol synthesis, hepatic B/E receptor activity, and LDL apo B transport rate are closely associated with each other and that their levels can change markedly with no detectable change in serum levels of LDL cholesterol or apo B.
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PMID:Metabolism of cholesterol and apolipoprotein B in celiac disease. 823 31

The fifth- and ninety-fifth-percentile concentrations of low-density lipoprotein (LDL) cholesterol in most Western populations are approximately 90 and 200 mg/dl, respectively. Persons with LDL cholesterol levels equal to or less than the fifth percentile are defined as having hypobetalipoproteinemia. Epidemiologic studies show that such individuals have lower-than-average risk for atherosclerotic cardiovascular disease but higher risk for a variety of cancers, pulmonary, and gastrointestinal diseases than persons with higher levels of cholesterol. The reasons for this are not known, nor are the causes of most cases of hypobetalipoproteinemia. However, in some well-studied kindreds the hypobetalipoproteinemia phenotype is inherited as an autosomal dominant trait. Heterozygotes in such kindreds are usually healthy and have no difficulty absorbing dietary fat. In most kindreds, the molecular variants responsible for the hypobetalipoproteinemia are unknown, but a subset of kindreds have strong genetic linkages between the low-cholesterol phenotype and truncation-producing mutations of the apolipoprotein (apo) B-100 gene. The truncations of apoB are named according to a centile nomenclature. The full-length 4536-amino acid protein is called apoB-100, and the 25 truncations identified to date have been named apoB-2 to apoB-89. The mutations introduce premature termination codons resulting from frameshift-producing base additions or deletions. The mutations produce slowed rates of secretion of the truncated apoBs relative to the apoB-100s present in the heterozygotes. In addition, the apoB-100 molecules of the heterozygotes are also secreted at rates slower than those observed in closely matched normolipidemic controls. These physiologic results account for the hypobetalipoproteinemia of these subjects. The response of the plasma lipoproteins of heterozygotes to the manipulation of various dietary components remains to be determined. Additional low-cholesterol syndromes are autosomal recessive forms of hypobetalipoproteinemia, chylomicron retention disease, and abetalipoproteinemia. The molecular causes of the first two are unknown. Abetalipoproteinemia is an autosomal recessive condition resulting from mutations of the microsomal triglyceride transfer protein. All three conditions are characterized by vanishingly small concentrations of LDL, dietary fat malabsorption, and failure to thrive in infancy.
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PMID:The hypobetalipoproteinemias. 852 19

A mouse model of chylomicron deficiency was recently developed; these mice express a human apolipoprotein (apo) B transgene in the liver but do not synthesize any apoB in the intestine. Despite severe intestinal fat malabsorption, the mice maintain normal concentrations of plasma lipids and liver-derived apoB 100-containing lipoproteins. We investigated the metabolic mechanisms by which plasma lipid levels are kept normal. De novo lipogenesis (DNL) and cholesterogenesis were measured by mass isotopomer distribution analysis (MIDA). Plasma non-esterified fatty acid (NEFA) fluxes and hepatic re-esterification of labelled plasma NEFA were also measured. Hepatic and plasma triacylglycerol (TG) concentrations and plasma NEFA fluxes were not different between chylomicron-deficient mice and controls. The contribution from DNL to the hepatic TG pool was only modestly higher in chylomicron-deficient mice [12+/-2.1% (n=7) compared with 3.7+/-1.0% (n=9); means+/-S.E.M.], whereas cholesterogenesis was markedly elevated. The fractional contribution from plasma NEFA to hepatic TG was greatly elevated in the chylomicron-deficient animals (62% compared with 23%). Accordingly, 73% of hepatic TG was neither from DNL nor from plasma NEFA in controls, presumably reflecting prior contribution from chylomicron remnants, compared with only 26% in the chylomicron-deficient group. The long-term contribution from DNL to adipose fat stores reached approximately the same steady-state values (approximately 30%) in the two groups. Body fat accumulation was much lower in chylomicron-deficient animals; thus, whole-body absolute DNL was significantly lower. We conclude that plasma and hepatic TG pools and hepatic secretion of apoB-containing particles are maintained at normal levels in chylomicron-deficient mice, not by de novo fatty acid synthesis, but by more avid re-esterification of plasma NEFA, replacing the normally predominant contribution from chylomicrons, and that some dietary fat can be absorbed by apoB-independent mechanisms.
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PMID:Metabolic adaptations to dietary fat malabsorption in chylomicron-deficient mice. 1051 Mar 16

The metabolism of apolipoprotein (apo) A-IV in diabetes mellitus (DM) is poorly understood. Several factors, such as dietary fat intake, fat malabsorption, acute inflammation, and hormonal dysregulation can disturb the plasma apo A-IV concentration. We have compared the plasma apo A-IV concentrations in patients with type 1 DM and DM secondary to chronic pancreatitis to determine the effects of combinations of these factors. We examined 4 groups of male patients with chronic pancreatitis without diabetes (ND-CP) (n = 12), diabetes secondary to chronic pancreatitis and insulin-treated (CP-DM) (n = 32), type 1 diabetes (n = 25), and controls (n = 20). Plasma apo A-IV was significantly lower in the chronic pancreatitis patients (ND-CP and CP-DM) than in the other patients. Inflammatory proteins (fibrinogen, ceruloplasmin, and haptoglobin) were significantly elevated in the 2 chronic pancreatitis groups. The apo A-IV concentration was positively correlated with hemoglobin A(1c) (HbA(1c)) percentage in each group of diabetic patients (CP-DM, r =.35; P =.046; type 1 DM, r =.53; P =.010), in both groups of diabetic patients (r =.472; P <.0001) and negatively correlated with ceruloplasmin concentration in each group of diabetic patients (CP-DM, r = -.48; P =.0052; type 1 DM, r = -.66; P =.003), in both groups of diabetic patients (r = -.561; P <.0001), and in the whole population (r = -.463; P <.0001). Apo A-IV was also negatively correlated with haptoglobin in type 1 DM patients (r = -.434; P =.0435), in the both groups of diabetic patients (r = -.349; P =.0154), and in the whole population (r = -.351; P =.0019). Multiple linear regression analysis revealed that only HbA(1c) and ceruloplasmin were independent explanatory variables. Plasma apo A-IV is positively correlated with HbA(1c) suggesting that hyperglycemia per se selectively affects apo A-IV metabolism. The correlation between the concentrations of inflammatory protein and apo A-IV suggest a link between chronic inflammation and apo A-IV synthesis or catabolism. As apo A-IV is involved in reverse cholesterol transport, its low level in CP-DM may contribute to the accelerated development of atherosclerosis in these patients.
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PMID:Effect of the inflammation, chronic hyperglycemia, or malabsorption on the apolipoprotein A-IV concentration in type 1 diabetes mellitus and in diabetes secondary to chronic pancreatitis. 1155 32

We report the clinical phenotype in three kindreds with familial heterozygous hypobetalipoproteinemia (FHBL) carrying novel truncated apolipoprotein Bs (apoBs) of different sizes (apoB-8.15, apoB-33.4 and apoB-75.7). In D.A. kindred, we found three carriers of a C-deletion in exon 10 leading to the synthesis of apoB-8.15 not detectable in plasma. They showed steatorrhea and fatty liver. In N.L. kindred, the proband is heterozygous for a nonsense mutation in exon 26, leading to the formation of apoB-33.4. He had premature cerebrovascular disease and fatty liver; two apoB-33.4 carriers in this kindred showed only fatty liver. In B.E. kindred, the proband is heterozygous for a T-deletion in exon 26, which converts tyrosine at codon 3435 into a stop codon, resulting in apoB-75.7. The proband, a heavy alcohol drinker, had steatohepatitis, whereas his teetotaller daughter, an apoB-75.7 carrier, had no detectable fatty liver. This study suggests that: i) fatty liver invariably develops in FHBL carriers of short and medium-size truncated apoBs (< apoB-48), but its occurrence needs additional environmental factors in carriers of longer apoB forms; ii) intestinal lipid malabsorption develops only in carriers of short truncated apoBs, which are not secreted into the plasma; and iii) cerebrovascular disease due to premature atherosclerosis may occur even in FHBL subjects.
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PMID:Phenotypic expression of familial hypobetalipoproteinemia in three kindreds with mutations of apolipoprotein B gene. 1159 Feb 10

We report a 43-year-old Japanese man with hypobetalipoproteinemia likely due to apolipoprotein (apo) B-76, a new truncation of apo B, and with homozygosity for the apo E2 isoform. He had no history suggestive of fat malabsorption and no sign of neurological disorder. His fasting baseline serum low-density lipoprotein (LDL) cholesterol and apo B levels were approximately half of normal. His plasma apo E level was elevated and its phenotype showed the E2/E2 homozygote. SDS-polyacrylamide gel electrophoresis of delipidated LDL fraction revealed a new truncated apo B, designated as apo B-76 according to the centile system of nomenclature. The postprandial lipid metabolism of the patient showed an almost normal response after fat loading.
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PMID:Clinical characterization of a case with familial hypobetalipoproteinemia caused by apo B-76, a new truncation of apolipoprotein B, combined with apo E2/E2 phenotype. 1168 25


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