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
Query: UMLS:C0020639 (
hypoproteinemia
)
1,134
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The erythrocyte enzymes of
glutamic acid
metabolism (glutaminase I, glutaminase II, glutamic acid decarboxylase, glutamine synthetase, and transaminases) and related amino acids (glutamine,
glutamic acid
, aspartic acid, alanine, and gamma-aminobutyric acid) were estimated in 69 children with protein-energy malnutrition, 13 with nephrosis, and 10 with Indian childhood cirrhosis. Twenty-one apparently healthy children served as controls. There was a significant increase in the activities of erythrocytic glutaminase I, glutaminase II, glutamic acid decarboxylase, and glutamine synthetase in all the three hypoproteinemic states, while the activities of the transaminases showed a decrease in all the conditions. The concentrations of all the amino acids were significantly increased in both the varieties of protein-energy malnutrition (edematous and nonedematous). In nephrosis and Indian childhood cirrhosis, aspartic acid, alanine, and gamma-aminobutyric acid showed a significant rise. The concentration of
glutamic acid
was also significantly increased in nephrosis. The observations of the present study suggest an increase in intracellular production of
glutamic acid
in
hypoproteinemia
.
...
PMID:Erythrocytic enzymes and amino acids related to glutamic acid metabolism in childhood hypoproteinemic states. 611 73
When blood plasma proteins are depleted by bleeding with return of the washed red blood cells (plasmapheresis) it is possible to bring dogs to a steady state of
hypoproteinemia
and a uniform plasma protein production on a basal low protein diet. These dogs are clinically normal. Introduction of variables into their standardized life gives insight into the production of plasma protein. Casein retested as the basal protein in the ration may show high yield of plasma protein, equal to 33 per cent of the protein fed. This equals the potency of liver protein (17 to 33 per cent) and approaches the utilization of plasma protein by mouth (40 per cent). Zein has no effect upon plasma protein regeneration but when it is supplemented with cystine, tryptophane, lysine, and glycine, there is a doubling of the liver basal plasma protein production and a retention of the fed protein nitrogen. Threonine does not modify the above reaction. Liver protein supplemented with cystine, leucine,
glutamic acid
, and glycine in the basal diet yields double the amount of new formed plasma protein compared with liver alone. This combination is then as potent as plasma protein itself when given by mouth-40 per cent utilization. Tyrosine or lysine, arginine, and isoleucine do not modify the above responses. Methionine is not as effective as cystine in supplementing gelatin and tyrosine to produce plasma protein. Cystine, leucine, and
glutamic acid
appear to be of primary importance in the building of new plasma protein in these experiments. Plasma protein formation is dependent upon materials coming from the body reserve and from the diet. Given an exhaustion of the reserve store there is very little plasma protein produced during a protein fast (3 to 6 gm. per week). A turpentine abscess does not modify this fasting plasma protein reaction. Homologous plasma given by vein will promptly correct experimental
hypoproteinemia
due to bleeding. It will maintain nitrogen equilibrium and replenish protein stores. Even during
hypoproteinemia
plasma protein may promptly pass out of the circulation to supply body needs for protein. Perhaps the most significant concept which derives from all these experiments is the fluidity of the body protein (including plasma protein)-a ready give and take between the protein depots-a "dynamic equilibrium" of body protein.
...
PMID:BLOOD PLASMA PROTEIN PRODUCTION AND UTILIZATION : THE INFLUENCE OF AMINO ACIDS AND OF STERILE ABSCESSES. 1987 Sep 63
When blood plasma proteins are depleted by bleeding with return of red cells suspended in saline (plasmapheresis) it is possible to bring dogs to a steady state of
hypoproteinemia
and a constant level of plasma protein production if the diet nitrogen intake is controlled and limited. Such dogs are outwardly normal but have a lowered resistance to infection and intoxication and probably to vitamin deficiency. When the diet nitrogen is provided by certain mixtures of the ten growth essential amino acids plus glycine, given intravenously at a rapid rate, plasma protein production is good. The same mixture absorbed subcutaneously at a slower rate may be slightly better utilized. Fed orally the same mixture is better utilized and associated with a lower urinary nitrogen excretion. An ample amino acid mixture for the daily intake of a 10 kilo dog may contain in grams dl-threonine 1.4, dl-valine 3, dl-leucine 3, dl-isoleucine 2, l(+)-lysine.HCl.H(2)O 2.2, dl-tryptophane 0.3, dl-phenylalanine 2, dl-methionine 1.2, l(+)-histidine.HCl.H(2)O 1, l(+)-arginine.HCl 1, and glycine 2. Half this quantity is inadequate and not improved by addition of a mixture of alanine, serine, norleucine, proline, hydroxyproline, and tyrosine totalling 1.4 gm. Aspartic acid appears to induce vomiting when added to a mixture of amino acids. The same response has been reported for
glutamic acid
(8). Omission from the intake of leucine or of leucine and isoleucine results in negative nitrogen balance and rapid weight loss but plasma protein production may be temporarily maintained. It is possible that leucine may be captured from red blood cell destruction. Tryptophane deficiency causes an abrupt decline in plasma protein production. No decline occurred during 2 weeks of histidine deficiency but the urinary nitrogen increased to negative balance. Plasma protein production may be impaired during conditions of dietary deficiency not related to the protein or amino acid intake. Skin lesions and liver function impairment are described. Unidentified factors present in liver and yeast appear to be involved.
...
PMID:PLASMA PROTEIN PRODUCTION INFLUENCED BY AMINO ACID MIXTURES AND LACK OF ESSENTIAL AMINO ACIDS : A DEFICIENCY STATE RELATED TO UNKNOWN FACTORS. 1987 90
