Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042875 (vitamin E deficiency)
 916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied intestinal absorption of vitamin E in 26 adults with primary biliary cirrhosis (PBC) and 6 control subjects. Seven (27%) PBC patients were vitamin E-deficient based on the ratio of serum vitamin E to serum total lipid concentrations. An oral vitamin E tolerance test was performed in all patients and control subjects using a loading dose of 2000 IU alpha-tocopheryl acetate with measurement of serial serum vitamin E concentrations over 24 h. Vitamin E absorption was expressed as the maximal rise in serum vitamin E above baseline, the area under the oral tolerance test curve, and these two values divided by the fasting total serum lipid concentration. Absorption of vitamin E was significantly impaired in all PBC patients vs. control subjects (p less than 0.01), in vitamin E-deficient vs. vitamin E-sufficient PBC patients (p less than 0.05 to p less than 0.01), and in PBC patients with serum vitamin E levels below 10 micrograms/ml vs. those with serum vitamin E levels above 10 micrograms/ml (p less than 0.01). Vitamin E absorption was inversely related to stage of PBC, serum cholylglycine, total bilirubin, cholesterol, alkaline phosphatase, aspartate aminotransferase, and prothrombin time. Patients with serum vitamin E below 10 micrograms/ml, serum total bilirubin above 3 mg/dl, serum cholylglycine above 600 micrograms/dl, or serum alkaline phosphatase above 1000 IU/L had severe malabsorption of vitamin E and would be at high risk for the development of vitamin E deficiency. Therefore, vitamin E supplementation should be considered not only in patients in whom overt vitamin E deficiency is present, but also in PBC patients meeting these criteria.
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PMID:Intestinal malabsorption of vitamin E in primary biliary cirrhosis. 291 Jul 63

Six polypeptides resolved by two-dimensional electrophoresis of homogenates from human skeletal muscle have been identified as tropomyosin by electrophoretic and immunochemical methods. The 6 proteins are consistently present in approximately the same abundance in normal biceps, deltoid, gastrocnemius, and quadriceps muscle. Analysis of samples from individuals with Becker's dystrophy, Duchenne dystrophy, limb girdle dystrophy, polymyositis, myopathy related to vitamin E deficiency, type II fiber deficiency, and from an infant with indistinct fiber type differentiation, however, showed quantitative variations in the tropomyosin pattern. Muscle with histochemically demonstrated type II fiber deficiency lacked two of the normal tropomyosin proteins and the type II myosin light chains. Muscles lacking type I myosin light chains were deficient in a different pair of tropomyosin proteins. The results suggest that normal human skeletal muscle contains one major type of tropomyosin protein (beta-tropomyosin) common to both fast and slow fibers, together with two other major proteins (alpha-tropomyosin and alpha'-tropomyosin), one of which is specific to fast fibers and the other to slow fibers. Preliminary data from the reaction of muscle homogenates with alkaline phosphatase indicate that 3 of the 6 tropomyosin polypeptides resolved by two-dimensional electrophoresis are phosphorylated forms of the alpha-, alpha'-, and beta-tropomyosins.
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PMID:Heterogeneity of human skeletal muscle tropomyosin. 389