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Pivot Concepts:
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Target Concepts:
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Query: UMLS:C0019214 (
hepatosplenomegaly
)
4,408
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A strain of rats with symptoms of inherited galactosemia (cataracts,
hepatosplenomegaly
,
aminoaciduria
etc) was produced by selection and inbreeding of Wistar rats highly susceptible to the galactosemic effect of galactose. The salient biochemical feature of these rats, like human galactosemics, is manifested as a decrease in the activity of galactose-I-phosphate uridyltransferase (Gal-I-PUT) in liver tissue and erythrocytes. However, the cross experiments have shown that the decrease in Gal-I-PUT activity was not required for expression of main galactosemia symptoms. Genetic analysis of cataract formation demonstrated that this trait was controlled by a single dominant gene. High transport rate of 14C-galactose into erythrocytes was a characteristic of galactosemic rats. Genetic analysis demonstrated that this trait was under the control of a single dominant gene, similar to the cataract formation. The intracellular accumulation of galactose ensured by its high transport, simultaneously with a decrease in Gal-I-PUT activity, were assumed to be the main reasons of galactosemic symptoms. The glucose transporter isolated from erythrocytes of the galactosemic rats, when integrated into the liposome membrane transferred more actively galactose into the liposomes than that of the control galactose resistant rats.
...
PMID:[Elevated galactose transport into cells as the cause of development of hereditary galactosemia in rats]. 344 43
A W/SSM rat strain with symptoms of inherited galactosemia (cataracts,
hepatosplenomegaly
,
aminoaciduria
) was previously developed by selection and inbreeding of Wistar rats highly susceptible to the galactosemic effect of galactose. Decreased activity of galactose-I-phosphate uridyl transferase (Gal-I-PUT) in liver and erythrocytes is the salient biochemical feature of the strain. The crossing experiments have shown that the decrease in Gal-I-PUT activity was not required for the expression of main galactosemia symptoms. The experiments excluded low galactokinase activity and high susceptibility of glucose-6-phosphate dehydrogenase and phosphoglucomutase to galactose-I-phosphate as probable reasons of galactosemia. It was shown that increased transport of 14C-galactose to the erythrocytes was characteristic of galactosemic rat strain. The intracellular accumulation of galactose concerned with its increased transport was assumed as a major reason for the development of galactosemia symptoms in W/SSM rats. Genetic analysis has shown that lens lesions in galactosemic rats were controlled by one dominant gene. It is suggested that this gene is responsible for the enhances transport of galactose into the rat cells and its accumulation in toxic concentrations. The main galactosemic symptoms including cataracts result obviously rom the pleiotropic effect of this gene; the decreased activity of Gal-I-PUT may be a consequence of its epistatic effect.
...
PMID:[Hereditary galactosemia in rats: biochemical mechanisms of the disease]. 621 94
The W/SSM rat strain with symptoms of inherited galactosemia (cataracts,
hepatosplenomegaly
,
aminoaciduria
etc.) was previously developed by selection and inbreeding of Wistar rats highly susceptible to the galactosemic effect of galactose. The decreased activity of galactose-1-phosphate uridyl transferase (Gal-1-PUT) in liver and erythrocytes is the salient biochemical feature of the strain. The crossing experiments have shown that the decrease in Gal-1-PUT activity is not a prerequisite for the expression of main galactosemia symptoms. The experiments excluded the low galactokinase activity and high susceptibility of glucoso-6-phosphate dehydrogenase and phosphoglucomutase to galactose-1-phosphate as probable causes of galactosemia. It was shown that the increased transport of 14C-galactose to erythrocytes is characteristic of the galactosemic rat strain. The intracellular accumulation of galactose concerned with its increased transport was assumed to be a major reason of the development of galactosemia symptoms in W/SSM rats. Genetic analysis has shown that lens lesions in galactosemic rats are controlled by one dominant gene. It is suggested that this gene is responsible for the enhanced transport of galactose into the rat cells and its accumulation in toxic concentrations. The main galactosemic symptoms, including cataracts, result obviously from the pleiotropic effect of this gene, while the decreased activity of Gal-1-PUT may be a consequence of its epistatic effect.
...
PMID:[Biochemical mechanisms of the development of hereditary galactosemia in W/SSM strain rats]. 720 Apr 38
Lysinuric protein intolerance (LPI) is an inherited
aminoaciduria
caused by defective cationic amino acid transport at the basolateral membrane of epithelial cells in intestine and kidney. LPI is caused by mutations in the SLC7A7 gene, which encodes the y(+)LAT-1 protein, the catalytic light chain subunit of a complex belonging to the heterodimeric amino acid transporter family. LPI was initially described in Finland, but has worldwide distribution. Typically, symptoms begin after weaning with refusal of feeding, vomiting, and consequent failure to thrive.
Hepatosplenomegaly
, hematological anomalies, neurological involvement, including hyperammonemic coma are recurrent clinical features. Two major complications, pulmonary alveolar proteinosis and renal disease are increasingly observed in LPI patients. There is extreme variability in the clinical presentation even within individual families, frequently leading to misdiagnosis or delayed diagnosis. This condition is diagnosed by urine amino acids, showing markedly elevated excretion of lysine and other dibasic amino acids despite low plasma levels of lysine, ornithine, and arginine. The biochemical diagnosis can be uncertain, requiring confirmation by DNA testing. So far, approximately 50 different mutations have been identified in the SLC7A7 gene in a group of 142 patients from 110 independent families. No genotype-phenotype correlation could be established. Therapy requires a low protein diet, low-dose citrulline supplementation, nitrogen-scavenging compounds to prevent hyperammonemia, lysine, and carnitine supplements. Supportive therapy is available for most complications with bronchoalveolar lavage being necessary for alveolar proteinosis.
...
PMID:Lysinuric protein intolerance: reviewing concepts on a multisystem disease. 2130 87
