Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Photoaffinity labeling with [3H]cytochalasin B detects two D-glucose-sensitive proteins in the chicken embryo fibroblast (CEF) plasma membrane, which accumulate under conditions of glucose starvation and are probably involved in the glucose transport system (Pessin, J.E., et al. (1982) Proc. Natl. Acad. Sci. U.S. 79, 2286-2290). The two labeled components, designated as peak I (Mr 45,000) and II (Mr 52,000) components, were separated by preparative gel electrophoresis in the presence of sodium dodecyl sulfate. The fractions were digested with S. aureus V8 or papain, and the radioactive products were analyzed by one-dimensional gel electrophoresis. The peptide maps showed that they have different peptide structures. Peptide maps of authentic actin, a possible contaminant of the peak I fractions, were quite different from those of the peak I component. Rous sarcoma virus-transformed CEF have two components similar as to apparent molecular size and peptide maps to those present in glucose-starved cells. The peak I and II components show minimal affinity to agarose-bound Ricinus communis agglutinin which binds the human erythrocyte glucose transporter quite well. The peak II component was more susceptible to proteolysis than the peak I one or the human erythrocyte glucose transporter. However, the peptide maps of the peak II component were similar to those of the human erythrocyte glucose transporter.
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PMID:Separation and proteolytic mapping of the two [3H]cytochalasin B photoaffinity labeled D-glucose-sensitive proteins in the chicken embryo fibroblast plasma membrane. 351 90

Protein synthesis in the rat mammary gland has been studied using acini isolated from mammary tissue by collagenase digestion. When the acini were incubated with radioactively labeled amino acids, both cellular and milk proteins were synthesized and milk proteins were secreted into the incubation medium. Antisera to the lipogenic enzyme, fatty acid synthase, and the milk proteins, alpha-lactalbumin and the caseins, raised in rabbits, were shown to be specific by analyzing immunoprecipitates on sodium dodecyl sulfate--polyacrylamide gels. The rates of synthesis and secretion of each protein by acini prepared from rats during late gestation and at specific stages of lactation reflect their previously observed concentration in the mammary gland or milk of rats at the corresponding stage of gestation or lactation. Rats were treated according to one of the following regimes between d 7 and 14 of lactation: they were fed a control (20% casein) or a low protein (10% casein) diet ad libitum, they were fed the control diet restricted to 25 g/d (40% of the voluntary intake), they were fed the control diet for 5 d and starved for 48 h or they were treated as in 3 and then refed the control diet ad libitum for 24 h. Food restriction and starvation both resulted in lowered rates of synthesis of all proteins examined compared with either the control or refed animals. Starvation also lowered the rates of secretion of the milk proteins. Consumption of the low protein diet caused a specific decrease in both the rates of synthesis and secretion of alpha-lactalbumin compared with the control rats without affecting the synthesis and secretion of the caseins.
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PMID:Protein synthesis in mammary acini isolated from lactating rats: effect of maternal diet. 358 28

The effect of an acute fast on susceptibility to acetaminophen-induced hepatotoxicity was investigated in male Golden Syrian hamsters. Overnight starvation markedly elevated hepatic levels of glutathione throughout the diurnal cycle (peak concentration: 10.6 +/- 0.06 mM vs 7.3 +/- 0.3mM in controls). However, despite this apparent increase in the glutathione protective capacity of the liver, acetaminophen-induced hepatic necrosis was modestly potentiated by fasting, as judged by liver histology and elevation of serum transaminase (SGOT) activity. Parallel pharmacokinetic studies indicated that the overall elimination rate constant for acetaminophen was decreased in fasted animals, due largely to decreases in the apparent rate constants for formation of acetaminophen glucuronide and acetaminophen mercapturate. Formation of acetaminophen sulfate was not affected by fasting. Since the major nontoxic pathway (glucuronide) and the toxic pathway (as measured by mercapturate) decreased to a similar extent, the data indicate that the anomalous lack of protection cannot be explained on the basis of altered metabolic disposition of the drug. Measurement of hepatic glutathione levels revealed that, despite the higher initial level of glutathione in the fasted animals, the nadir to which liver glutathione levels fell after acetaminophen was the same in fed and fasted animals. Comparison of the amount of acetaminophen mercapturate in the urine with the amount of glutathione which disappeared from the liver showed close agreement for fed animals, but a major discrepancy for fasted hamsters. These data indicate that a major fraction of glutathione in the liver of the fasted hamsters is not utilized for detoxification of the acetaminophen reactive metabolite and hence does not contribute to the glutathione protective capacity.
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PMID:Anomalous susceptibility of the fasted hamster to acetaminophen hepatotoxicity. 375 39

We examined the synthesis of proteins in rat myocardium after starvation. Rates of total protein synthesis in myofibrillar and nonmyofibrillar fractions of myocardium of starved animals were reduced similarly (to 70-80% of the rates in hearts of fed animals, p less than 0.002), but rates of synthesis of some individual proteins were affected discoordinately. Radiolabeled proteins from atrial and ventricular explants, separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, revealed that starvation for 2 days reduced the rate of cardiac actin synthesis to 26-38% of control levels, while the rate of myosin heavy chain synthesis in the same hearts was only moderately reduced (74-80% of control levels). This starvation-induced reduction in actin synthesis could be accounted for at least in part by disproportionately decreased levels of actin mRNA in starved hearts, as revealed by Northern blot hybridization and by in vitro translation analysis. The dramatic decrease in cardiac actin synthesis was rapidly reversible, and actin synthesis returned to normal after a single day of refeeding. The selective reduction of actin synthesis after starvation was specific for the heart: rates of myosin heavy chain and actin synthesis in skeletal muscles (soleus and extensor digitorum longus) were coordinately reduced in response to starvation. To our knowledge, this is the first example of such dramatic discoordinate regulation of myofibrillar protein synthesis in response to a physiological stimulus.
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PMID:Disproportionate reduction of actin synthesis in hearts of starved rats. 375 54

We proposed that Dictyostelium discoideum contains two linked pools of mature alpha-mannosidase (Wood, L., R. N. Pannell, and A. Kaplan, 1983, J. Biol. Chem., 258:9426-9430). To obtain physical evidence for these pools, cells were pulse-labeled with [35S]methionine, homogenized, and subjected to Percoll gradient centrifugation. After immune precipitation of alpha-mannosidase, its polypeptides were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and detected by fluorography. After a 30-min pulse with [35S]methionine, the precursor and small amounts of cleaved enzyme were detected in a low density fraction (1.04 g/ml). Subsequently, cleaved enzyme was transferred to higher density fractions (1.05 and 1.07 g/ml) that were enriched in lysosomal enzymes. The half time for formation of the 1.07 g/ml pool was approximately 45 min, whereas formation of the 1.05 g/ml pool was not detected until 1.5 h after the pulse. The transfer of mature forms out of the 1.04 g/ml pool was inhibited by monensin (3.5 microM). Thus, alpha-mannosidase precursor appears to be cleaved in a prelysosomal organelle. The data also indicate that starving cells secrete precursor directly from this organelle to the extracellular space, whereas cleaved forms are first transferred into lysosomes before they are secreted. Furthermore, 2 h after starvation, the secretion of mature forms ceases even though both transit of mature forms between the two pools and secretion of precursor continues. From this we inferred that the cessation of secretion of mature forms is due to a halt in fusion of lysosomes with the plasma membrane and that precursor follows a different route to the plasma membrane.
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PMID:Transit of alpha-mannosidase during its maturation in Dictyostelium discoideum. 406 50

The transport of radioactive sodium in high sodium cat red blood cells has been studied under various experimental conditions. It was found that iodoacetate (IAA) and iodoacetamide (IAM) inhibit Na influx by 50% whereas NaF has no effect. Reversible dyes, such as methylene blue (Mb), also inhibit this influx by 60%. Both IAA and Mb effects show a lag period of about 40 min. Cell starvation abolishes the volume-dependent Na influx which is generally observed in these cells. IAA reduces significantly the volume-dependent Na influx but does not inhibit it completely. 5 mM magnesium chloride produces a twofold increase in Na influx. On the other hand, MgCl(2) has no effect on Na transport in human red cells or on potassium or sulfate transport in cat red cells. The effect of MgCl(2) is quite rapid and does not interfere with the volume-dependent Na influx. This effect is abolished in starved cells. Reincubation of previously stored cells in buffered solutions containing glucose and MgCl(2) causes more than one order of magnitude increase in Na influx. These several observations are discussed in terms of the possibility of a link between Na transport and Na-Mg-activated ATPase.
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PMID:Further studies of sodium transport in feline red cells. 473 97

Choline-O-sulfate uptake by Penicillium notatum showed the following characteristics. (i) Transport was mediated by a permease which is highly specific for choline-O-sulfate. No significant inhibition of transport was caused by choline, choline-O-phosphate, acetylcholine, ethanolamine-O-phosphate, ethanolamine-O-sulfate, methanesulfonyl choline, 2-aminoethane thiosulfate, or the monomethyl or dimethyl analogues of choline-O-sulfate. Similarly, no significant inhibition was caused by any common sulfur amino acid or inorganic sulfur compound. Mutants lacking the inorganic sulfate permease possessed the choline-O-sulfate permease at wild-type levels. (ii) Choline-O-sulfate transport obeyed saturation kinetics (K(m) = 10(-4) to 3 x 10(-4)m; V(max) = 1 to 6 mumoles per g per min). The kinetics of transport between 10(-9) and 10(-1)m external choline-O-sulfate showed that only one saturable mechanism is present. (iii) Transport was sensitive to 2,4-dinitrophenol, azide, N-ethylmaleimide, p-chloromercuribenzoate, and cyanide. Ouabain, phloridzin, and eserine had no effect. (iv) Transport was pH-dependent with an optimum at pH 6. Variations in the ionic strength of the incubation medium had no effect. (v) Transport was temperature-dependent with a Q(10) of greater than 2 between 3 and 40 C. Transport decreased rapidly above 40 C. (vi) Ethylenediaminetetraacetate (sodium salts, pH 6) had no effect, nor was there any stimulation by metal or nonmetal ions. Cu(++), Ag(+), and Hg(++) were inhibitory. (vii) The initial rate at which the ester is transported was independent of intracellular hydrolysis. After long periods of incubation (> 10 min), a significant proportion of the transported choline-O-sulfate was hydrolyzed intracellulary. In the presence of 5 x 10(-3)m external choline-O-sulfate, the mycelia accumulated choline-O-sulfate to an apparent intracellular concentration of 0.075 m by 3 hr. Transport was unidirectional. No efflux or exchange of (35)S-choline-O-sulfate was observed when preloaded mycelia were suspended in buffer alone or in buffer containing a large excess of unlabeled choline-O-sulfate. (viii) The specific transport activity of the mycelium depended on the sulfur source used for growth. (ix) Sulfur starvation of sulfur-sufficient mycelium resulted in an increase in the specific transport activity of the mycelium. This increase was prevented by cycloheximide, occurred only when a metabolizable carbon source was present, and resulted from an increase in the V(max) of the permease, rather than from a decrease in K(m). The increase could be partially reversed by refeeding the mycelia with unlabeled choline-O-sulfate, sulfide, sulfite, l-homocysteine, l-cysteine, or compounds easily converted to cysteine. The results strongly suggested that the choline-O-sulfate permease is regulated primarily by repression-derepression, but that intracellular choline-O-sulfate and cysteine can act as feedback inhibitors.
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PMID:Specificity and control of choline-O-sulfate transport in filamentous fungi. 572 99

Extracellular cyclic-nucleotide phosphodiesterase of Dictyostelium discoideum has previously been purified and characterized [Orlow et al. (1981) J. Biol. Chem. 256, 7620-7627]. Antisera have been raised against the purified enzyme. Following cell-free translation of RNA extracted from cells at various stages of development and immunoprecipitation with anti-phosphodiesterase serum, cAMP phosphodiesterase synthesized in vitro and labeled with L-[35S]methionine can be detected by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and fluorography. The cell-free translation product is an Mr-48 000 polypeptide and can be immunoprecipitated with antiserum raised against active Mr-50 000 cAMP phosphodiesterase or antiserum raised against heat-denatured cAMP phosphodiesterase. Purified native cAMP phosphodiesterase blocks immunoprecipitation of the cAMP-phosphodiesterase polypeptide synthesized in vitro. A detectable level of cAMP-phosphodiesterase mRNA is present in axenically grown cells. After starvation of the cells in phosphate buffer for 1 h an increase of translatable cAMP-phosphodiesterase mRNA occurs, followed by a decrease and another increase. When cells are starved in the presence of the slowly hydrolyzed cAMP analogue, adenosine 3',5'-thiophosphate, the level of translatable cAMP-phosphodiesterase mRNA increases about tenfold and does not show a temporary decline. A maximum of 0.015% of the total acid-insoluble radioactivity is incorporated into the Mr-48 000 cAMP-phosphodiesterase polypeptide.
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PMID:Developmental regulation of the cyclic-nucleotide-phosphodiesterase mRNA of Dictyostelium discoideum. Analysis by cell-free translation and immunoprecipitation. 608 52

It is known that Neurospora crassa mycelia cultured in standard concentrations (76 to 190 micrograms/ml) of sulfate accumulate a low molecular weight inhibitor of tyrosinase (monophenol, dihydroxyphenylalanine: oxygen oxidoreductase; EC 1.14.1.18.1.). This is not observed in cultures grown under sulfate-limiting conditions. The chemical nature of tyrosinase inhibition was investigated. It was shown to be due to the low molecular weight sulfhydryl fraction of the extracts, in which glutathione is predominant. The concentration of low molecular weight sulfhydryl compounds decreased sharply in mycelia submitted to various treatments which also derepressed tyrosinase, such as (i) starvation in phosphate buffer, (ii) treatment with cycloheximide, and (iii) mating. These results suggest that the concentration of sulfhydryl compounds may be of physiological significance in the control of tyrosinase activity in N. crassa.
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PMID:Role of sulfhydryl compounds in the control of tyrosinase activity in Neurospora crassa. 621 63

A fraction of readily elutable rat liver nuclear proteins (nuclear globulins), analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, contains two proteins which reflect the thyroid status of the animal. The larger (n-band) protein is abundant in normal rat nuclei but diminished in hypothyroidism by thyroidectomy or hypophysectomy and restored with T3 treatment. It is also diminished in starvation, during which time T3 treatment of concurrent hypothyroxinemia is ineffective in tis restoration. Refeeding restores the n-band protein in starved normal rats but not in starved thyroidectomized (Tx) rats. GH does not restore this protein in either Tx or hypophysectomized (Hx) rats. The dual requirements of euthyroidism and adequate nutrition imply that the n-band protein is thyroid hormone dependent but not thyroid hormone specific. The smaller of the two nuclear globulins, the t-band protein, is prominent in Tx or Hx rats and is not altered by additional hypometabolic factors (starvation) or by nonthyroid hormone related hypermetabolic stimuli (refeeding or GH treatment of Hx rats). It is reduced in normal or T3-treated Tx or Hx rats regardless of simultaneous hypometabolic states (starvation or nonthyroid hormone-related deficiencies of hypopituitarism) or hypermetabolic states (refeeding, liver regeneration, or hyperthyroidism). The t-band protein thus appears to be inversely thyroid hormone specific in its concentration. Electrophoretic and chromatographic analysis suggest that the n-band protein is a 125,000 mol wt subunit of a 290,000 mol wt holoprotein. The t-band protein is a 70,000 mol wt peptide which exists, in part, as a monomer but largely as a subunit of a protein complex with a mol wt greater than 100,000.
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PMID:Description and partial characterization of thyroid hormone-specific and thyroid hormone-dependent rat liver nuclear proteins. 624 32


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