UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effect of prostaglandin F2 alpha on parameters related to microsomal metabolism (free radical production and lipid peroxidation, glutathione content and activity of microsomal oxidases) after an induction by ethanol or acetone combined with starvation. Long-term ethanol administration led to a significant increase in lipid peroxide formation and NADPH-dependent chemiluminescence amplified by luminol and lucigenin. At the same time hydrogen peroxide production and NADPH-stimulated lipid peroxidation were enhanced although the effect did not reach the level of statistical significance. The concentration of reduced glutathione (GSH) in the liver was decreased 2-fold, whereas oxidized glutathione (GSSG) content remained unaltered. Ethanol intoxication resulted in an increase in 7-ethoxycoumarin-O-deethylase (ECOD), 7-benzyloxycoumarin-O-deethylase (BCOD) and 7-ethoxy-resorufin-O-deethylase (EROD) activities, whereas 7-pentoxyresorufin-O-deethylase (PROD) and ethylmorphin-N-demethylase (EMND) activities were unaltered. The combination of acetone treatment with starvation resulted in a significant increase in lipid and hydrogen peroxide formation, NADPH-dependent lipid peroxidation and chemiluminescence. GSH and GSSG concentration in the liver dramatically decreased 5- and 3-fold, respectively. The acetone treatment led to significant increase in EROD, ECOD, BCOD, PROD and EMND activities. The treatment of ethanol-intoxicated rats with prostaglandin F2 alpha (PGF2 alpha) exerted more pronounced prooxidant effect on liver than action of alcohol itself. At the same time, PGF2 alpha improved most of parameters changed by acetone treatment combined with starvation, decreasing lipid peroxide and radical formation and enhancing GSH and GSSG contents.
Pol J Pharmacol
PMID:Effect of prostaglandin F2 alpha on free radical generation, glutathione content and microsomal oxidase activities in rat liver microsomes induced either by ethanol or acetone. 956 47

Otherwise isogenic Escherichia coli CP78 (relA+) and CP79 (relA-) strains are commonly used in studies on the stringent control, the bacterial response to amino acid starvation. We found that these strains are lysogenic for a phage which is spontaneously induced with a low frequency, producing virions able to infect other E. coli strains. Genetic studies, restriction analysis of the phage DNA genome, and electron microscopy revealed that this phage is very similar to, but not identical with, bacteriophage lambda. We called the newly isolated phage lambdaW, and found that most of CP78/CP79 ancestor strains are lysogenic for this phage.
Acta Biochim Pol 1998
PMID:Biochemical and genetic analysis of lambdaW, the newly isolated lambdoid phage. 970 18

The authors present the review of literature concerning schizophrenia, schizophrenia type and delusional disorders in patients with a lifetime diagnosis of anorexia nervosa (AN). The authors describe also 3 patients (2 cases of paranoid schizophrenia and 1 case of catatonic syndrome). The clinical features in all patients are discussed. In 1 patient the catatonic symptoms occurred within the context of AN, (perhaps due to metabolic disturbances) and in 2 other cases the psychotic features occurred after recovery from AN. The authors discuss the occurrence of psychotic features in AN, and the possible function of starvation and metabolic disturbances in their aetiology.
Psychiatr Pol
PMID:[Schizophrenia, schizophrenia-like disorders and delusional disorders in patients with anorexia nervosa: literature review and report of 3 cases]. 973 79

Total parenteral nutrition (TPN) has been available for only 30 years. However, history in this field goes back more than 350 years with the first landmark being the description of general blood circulation by William Harvey in 1628. His discovery is the anatomical basis for intravenous infusions. Many investigations were performed during the following centuries showing that solutions containing electrolytes and glucose could be given intravenously in man. The accumulated knowledge of protein metabolism formed the basis for studies on intravenous nutrition with protein hydrolysates, peptides and amino acids. The observation in the late 30-s by Robert Elman that amino acids in the form of protein hydrolysate could be safely administered intravenously in man was the first major step toward TPN. During the following years, major efforts were made to find methods to prepare infusion solutions with a high energy content and low osmotic pressure. The most realistic alternative seemed to be fat in the form of an emulsion. Many studies of a large number of various fat emulsions were made however, all of these emulsions caused severe adverse reactions in man. The first safe fat emulsion, intralipid, was made available in the early 60s. This was the second major step toward TPN. It was then no problem to include vitamins, electrolytes and trace elements in the fat emulsions and the solutions of amino acids and glucose. A few years later it was shown that a central venous catheter could be used to administer the infusion fluid intravenously. Many clinical investigations and reports have shown that the newly developed intravenous nutritional regimens are adequate alternatives to the ordinary diet. In this way it has been possible to maintain or obtain a good nutritional condition in most situations when oral or tube feeding can not be used. TPN has been shown to be of very great clinical importance to prevent and treat starvation often related to high morbidity and mortality.
Pol Merkur Lekarski 1998 Apr
PMID:[Total parenteral nutrition. History. Present time. Future]. 977 Sep 91

Methyl methanesulfonate (MMS) is an SN2 type alkylating agent which predominantly methylates nitrogen atoms in purines. Among the methylated bases 3meA and 3meG are highly mutagenic and toxic. The excision of these lesions leads to the formation of apurinic (AP) sites and subsequently to AT-->TA or GC-->TA transversions. The in vivo method based on phenotypic analysis of Arg+ revertants of Escherichia coli K12 and sensitivity to T4 nonsense mutants has been used to estimate the specificity of MMS induced mutations. In the E. coli arg-his-thr- (AB1157) strain MMS induces argE3(oc)-->Arg+ revertants of which 70-80% arise by supL suppressor formation as a result of AT-->TA transversions. The remaining 20-30% arise by supB and supE(oc) suppressor formation as a result of GC-->AT transitions. The level of AT-->TA transversions decreases during starvation. This is a consequence of action of the repair mechanism called mutation frequency decline. This system which is a transcription coupled variant of nucleotide excision repair was discovered in UV induced mutations. We describe the mutation frequency decline phenomenon for MMS mutagenesis. MMS is a very efficient inducer of the SOS response and a umuDC dependent mutagen. In MMS treated E. coli cells mutated in umuDC genes the class of AT-->TA transversions dramatically diminishes. A plasmid bearing UmuD(D')C proteins can supplement chromosomal deletion of umuDC operon: a plasmid harbouring umuD'C is more efficient in comparison to that harbouring umuDC. Moreover, plasmids isolated from MMS treated and transiently starved E. coli AB1157 cells harbouring umuD(D')C genes have shown the repair of AP sites by a system which involves the UmuD'C or at least UmuD' protein.
Acta Biochim Pol 1998
PMID:The role of mutation frequency decline and SOS repair systems in methyl methanesulfonate mutagenesis. 982 81

Rpb4 and Rpb7 are two yeast RNA polymerase II (Pol II) subunits whose mechanistic roles have recently started to be deciphered. Although previous data suggest that Rpb7 can stably interact with Pol II only as a heterodimer with Rpb4, RPB7 is essential for viability, whereas RPB4 is essential only during some stress conditions. To resolve this discrepancy and to gain a better understanding of the mode of action of Rpb4, we took advantage of the inability of cells lacking RPB4 (rpb4Delta, containing Pol IIDelta4) to grow above 30 degrees C and screened for genes whose overexpression could suppress this defect. We thus discovered that overexpression of RPB7 could suppress the inability of rpb4Delta cells to grow at 34 degrees C (a relatively mild temperature stress) but not at higher temperatures. Overexpression of RPB7 could also partially suppress the cold sensitivity of rpb4Delta strains and fully suppress their inability to survive a long starvation period (stationary phase). Notably, however, overexpression of RPB4 could not override the requirement for RPB7. Consistent with the growth phenotype, overexpression of RPB7 could suppress the transcriptional defect characteristic of rpb4Delta cells during the mild, but not during a more severe, heat shock. We also demonstrated, through two reciprocal coimmunoprecipitation experiments, a stable interaction of the overproduced Rpb7 with Pol IIDelta4. Nevertheless, fewer Rpb7 molecules interacted with Pol IIDelta4 than with wild-type Pol II. Thus, a major role of Rpb4 is to augment the interaction of Rpb7 with Pol II. We suggest that Pol IIDelta4 contains a small amount of Rpb7 that is sufficient to support transcription only under nonstress conditions. When RPB7 is overexpressed, more Rpb7 assembles with Pol IIDelta4, enough to permit appropriate transcription also under some stress conditions.
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PMID:Rpb7 can interact with RNA polymerase II and support transcription during some stresses independently of Rpb4. 1008 33

E. coli defects in response to nutritional starvation caused by DnaK and DnaJ proteins deprivation are examined. The ability of delta dnaKdnaJ mutant to survive carbon, nitrogen and phosphorus starvation is highly impaired while delta dnaJ mutant is characterized by the diminished survival of phosphorus starvation only. delta dnaKdnaJ mutant grows slowly utilizing maltose and glycerol and delta dnaJ mutant utilizes glycerol inefficiently. The growth on alternate nitrogen sources is comparable to wild-type strain.
Acta Microbiol Pol 1999
PMID:Effect of DnaK and DnaJ proteins deprivation on Escherichia coli response to starvation. 1058 73

A number of stable producer cell lines for high-titer Mo-MuLV vectors have been constructed. Development has previously centered on increasing end-point titers by producing maximal levels of Mo-MuLV Gag/Pol, envelope glycoproteins, and retroviral RNA genomes. We describe the production yields and transduction efficiency characteristics of two Mo-MuLV packaging cell lines, FLYA13 and TEFLYA. Although they both produce 4070A-pseudotyped retroviral vectors reproducibly at >1 x 10(6) LFU ml(-1), the transduction efficiency of unconcentrated and concentrated virus from FLYA13 lines is poor compared with vector preparations from TEFLYA lines. A powerful inhibitor of retroviral transduction is secreted by FLYA13 packaging cells. We show that the inhibitory factor does not affect transduction of target cells by RD114-pseudotyped vectors. This suggests that the inhibitory factor functions at the level of envelope-receptor interactions. Phosphate starvation of target cells shows a two-fold increase in Pit2 receptor mRNA and causes some improvement in FLYA13 virus transduction efficiency. Western blots show that FLYA13 viral samples contain an eight-fold higher ratio of 4070A envelope to p30gag than that of virus produced by TEFLYA producer cell lines. This study correlates overexpression of 4070A envelope glycoprotein in retroviral preparations with a reduction of transduction efficiency at high multiplicities of infection. We suggest that TEFLYA packaging cells express preferable levels of 4070A compared with FLYA13, which not only enables high-titer stocks to be generated, but also facilitates a high efficiency of transduction of target cells.
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PMID:Analysis of 4070A envelope levels in retroviral preparations and effect on target cell transduction efficiency. 1091 Jan 41

Adaptive (starvation-associated) mutations occur in non-dividing cells and allow growth under the selective conditions imposed. We developed a new method for the determination of adaptive mutations in Escherichia coli. The system involves reversion to prototrophy of the argE3OC mutation and was tested on AB1157 strains mutated in the mutT and/or mutY genes. The bacteria that mutated adaptively grow into colonies on minimal medium plates devoid of arginine (starvation conditions) when incubated longer than 4 days. Using the replica plating method we solved the problem of discrimination between growth-dependent and adaptive argE3-->Arg+ revertants. Phenotype analysis and susceptibility of the Arg+ revertants to a set of T4 phage mutants create an additional possibility to draw a distinction between these two types of Arg+ revertants.
Acta Biochim Pol 2000
PMID:Reversion of argE3 ochre strain Escherichia coli AB1157 as a tool for studying the stationary-phase (adaptive) mutations. 1105 Dec 11

Anorexia nervosa when described from a critical, historical perspective, may be successfully construed as a viable psychiatric illness. Just as fasting girls and victorian anorexics gained attention and respect in their families and communities, modern adolescent anorexics often derive reinforcement from peers and community acceptance of their self-starvation. This theoretical construction makes it possible to explain the changing nature of anorexia nervosa trough the ages and its' continued increase as well.
Psychiatr Pol
PMID:[Psychiatry throughout ages: rethinking anorexia nervosa as a viable behavior in a specific sociocultural context?]. 1176 Apr 66

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