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)

Total parenteral nutrition has evolved as a distinct therapeutic reality within the past decade. Starvation or malnutrition need no longer be accepted as a necessary component of prolonged illness. Though current TPN techniques can be both safe and effective, the prevention of potential complications must always have a high priority. Changes in technique are to be anticipated as further knowledge and improved materials allow the pursuit of more basic clinical problems. The recent experience with the use of high caloric TPN solutions for prolonged gastrointestinal failure in 73 patients at the Loyola University Medical Center has been summarized. The need for the involvement of an experienced TPN team in the care of these patients cannot be overemphasized if the numerous and diverse potential complications of the TPN system are to be minimized.
Surg Clin North Am 1977 Dec
PMID:Total parenteral nutrition. 41 2

During diethylnitrosamine (DEN) administration, a distinctive difference was observed between rats and guinea-pigs in the sequence of ultrastructural changes in the hepatic endoplasmic reticulum (ER). In DEN-induced hepatic tumour cells in the guinea-pig there was extensive proliferation of the rough ER, while the smooth ER was quite sparse; in the premalignant liver the opposite was noted. This is in contrast to the rat, in which administration of either DEN or 3'-methyl-4-dimethylaminoazobenzene (3'-Me-DAB) brings about, in both premalignant and malignant hepatic tissue, proliferation of the smooth ER and sparsity of the rough ER. Yet, as in the rat, the number of ribosomes on the outer surface of the guinea-pig liver rough ER is greatly reduced and this is paralleled by a 49% decrease of the RNA/protein ratio as early as 4 weeks of nitrosamine administration. The decrease of RNA/protein ratio and ultrastructurally observed loss of ribosomes from the ER, following nitrosamine administration, correlate with a decrease of photometric response of microsomal suspensions to the sulphydryl probe, p-chloromercuribenzoate. While azo-dye-reductase activity is higher in untreated rats than in untreated guinea-pigs, feeding 3'-Me-DAB for 6 weeks brings about a 76% decrease in the rat, but no significant decrease in the guinea-pig, which is refractory to azo-dye carcinogenesis. Thus, the ability of the liver to inactivate the dye is greatly decreased in the rat, but not in the guinea-pig, as administration progresses toward the threshold dose for tumorigenesis. On the other hand, constitutive levels of nitrosamine dealkylase are identical in the 2 species and remain essentially unchanged following administration of DEN for 10 weeks. Inasmuch as nitrosamine dealkylation represents activating metabolism, this provides a rationale for the comparable susceptibility of the rat and guinea-pig to DEN carcinogenesis. Of the 2 enzymes in the 2 species, it is only azo-dye reductase in the guinea-pig which appears to be unregulated by glucose repression, since starvation brings about no change in this activity. Starvation-induced increase of azo-dye reductase in the rat is not influenced by administration of 3'-Me-DAB and only slightly by DEN. The starvation-induced increase of nitrosamine dealkylation is abolished, however, in both species by administration of DEN but only slightly decreased by 3'-Me-DAB.
Br J Cancer 1977 Dec
PMID:Ultrastructural and metabolic determinants of resistance to azo-dye susceptibility to nitrosamine carcinogenesis of the guinea-pig. 41 61

Long-term hyperinsulinemia and improved glucose tolerance were produced postoperatively by intravenous feeding with glucose or sorbitol. Raised immuno-reactive insulin (IRI) values persisted eight hours after carbohydrate infusions although the basal plasma glucose concentrations had returned to control values. Plasma glucose curves were normal at this time but were associated with an increased IRI response. These findings suggest that insulin secretion is modified by glucose not only in the short term but also by a separate effect acting over many hours. The combination of starvation and low dose glucose infusion to simulate the hyperglycemia of operation also produced high IRI values but these were associated with a rapid fall in the plasma glucose curve. Starvation alone reduced basal values of plasma glucose and IRI, and the IRI response to glucose infusion was also reduced, despite the plasma glucose curve being at a higher level. It is suggested that the high values of IRI reported in the postoperative period are mediated by a long-term effect of the small but sustained rise in basal plasma glucose. This specific role of glucose in the long-term potentiation of insulin secretion make it the carbohydrate of choice for the intravenous feeding in postoperative patients.
Ann Surg 1977 Dec
PMID:Plasma insulin and surgery. II. Later changes and the effect of intravenous carbohydrates. 41 64

Caffeine, at doses which enhance the killing action of ultraviolet light, inhibits both de novo synthesis and the utilization of exogenous purines in cultured CHO-K1, a Chinese hamster ovary cell line. The decrease in synthesis was measured as inhibition by caffeine of the accumulation of phosphoribosylformylglycineamide or of phosphoribosylaminoimidazolecarboxamide, the fourth and ninth intermediates, respectively, in the de novo biosynthetic pathway. The effect is dose dependent, with a caffeine concentration of 7.5 mM producing a 90% reduction in 15 min. Interference with utilization of exogenous purines was seen as a substantial decrease in the conversion of [14C]hypoxanthine, [14C]adenine, or [14C]guanine into their respective di- and triphosphates in the presence of caffeine. Purine deprivation either by starvation of purine-requiring mutants or by treatment of parental cells with methylmercaptopurine ribonucleoside, a known inhibitor of purine synthesis, results in a partial sensitization to killing by ultraviolet light which can be maximized by the addition of caffeine. Thus, one of the ways by which antimetabolites and caffeine act to enhance ultraviolet light killing may be by interference with the supply of purine nucleotides needed for repair.
Cancer Res 1979 Dec
PMID:Effects of caffeine on purine metabolism and ultraviolet light-induced lethality in cultured mammalian cells. 49 24

During caloric deprivation, the septic host may fail to develop ketonemia as an adaptation to starvation. Because the plasma ketone body concentration is a function of the ratio of hepatic production and peripheral usage, a pneumococcal sepsis model was used in rats to measure the complex metabolic events that could account for this failure, including the effects of infection on lipolysis and esterification in adipose tissue, fatty acid transport in plasma and the rates of hepatic ketogenesis and whole body oxidation of ketones. Some of the studies were repeated with tularemia as the model infection. From these studies, it was concluded that during pneumococcal sepsis, the failure of rats to become ketonemic during caloric deprivation was the result of reduced ketogenic capacity of the liver and a possibly decreased hepatic supply of fatty acids. The latter appeared to be a secondary consequence of a severe reduction in circulating plasma albumin, the major transport protein for fatty acids, with no effect on the degree of saturation of the albumin with free fatty acids. Also, the infection had no significant effect on the rate of lipolysis or release of fatty acids from adipose tissue. Ketone body usage (oxidation) was either unaffected or reduced during pneumococcal sepsis in rats. Thus, a reduced rate of ketone production in the infected host was primarily responsible for the failure to develop starvation ketonemia under these conditions. The liver of the infected rat host appears to shuttle the fatty acids away from beta-oxidation and ketogenesis and toward triglyceride production, with resulting hepatocellular fatty metamorphosis.
J Clin Invest 1979 Dec
PMID:Role of the liver in regulation of ketone body production during sepsis. 50 Aug 25

Abnormalities in neuroendocrine function and sympathetic nervous system activity appear to be present in primary anorexia nervosa. Hypothalamic catecholamines are involved in control of endocrine function and norepinephrine is released from sympathetic nerve endings. Because of possible abnormalities in catecholamine metabolism, plasma levels of norepinephrine and urinary excretion of homovanillic acid and 3-methoxy-4-hydroxyphenyl glycol were studied in female patients with primary anorexia nervosa before and after significant clinical improvement and compared with normal female volunteers. During the phase of the disease in which body weights were more than 20--25% below ideal, patients' blood pressures and pulse rates, plasma levels of norepinephrine, and 24-h urinary excretion of 3-methoxy-4-hydroxyphenol glycol and homovanillic acid were lower than those of a group of normal volunteers. After weight gain, these parameters increased to near-normal levels. At no time was plasma dopamine-beta-hydroxylase activity abnormal. The results suggest that abnormalities in catecholamine metabolism in primary anorexia nervosa are caused by starvation, and that neuronal functions dependent on aminergic neurotransmission may be altered as a result.
J Clin Endocrinol Metab 1979 Dec
PMID:Catecholamine metabolism in primary anorexia nervosa. 51 70

The pattern of substrate uptake by the heart in prolonged starvation, when lipid reserves are approaching depletion, has been examined. The classical Langendorff perfused heart preparation was employed to determine substrate uptakes in male rats fed ad libitum or starved for 7 days. Levels of metabolites in "arterial" and "venous" perfusion media and in heart tissue were determined by fluoroenzymatic assays, with the exception of palmitic acid which was analyzed by gas chromatography. It was found that glucose is the principal fuel of oxidation in perfused hearts of ad libitum-fed rats, whereas palmitate (FFA) is the major fuel of oxidation in perfused hearts of starved rats, followed by lactate, glucose, beta-hydroxybutyrate, pyruvate and alanine. Such changes might be related to some of the alterations in the metabolic pathway (e.g., glycolytic inhibition) in prolonged starvation.
J Nutr 1979 Dec
PMID:Effect of prolonged starvation on substrate uptake in the isolated perfused rat heart. 51 2

The mating reaction in Tetrahymena thermophila includes a starvation period and two distinct cell interactions, co-stimulation and cell pairing, before the cells are cytoplasmically joined as conjugants. A selection procedure for harvesting mutants unable to mate at a restrictive temperature has been developed. A conjugant pair consisting of one cycloheximide-resistant cell and one wild-type cell (cycloheximide-sensitive) was itself sensitive to the drug. By adding cycloheximide and nutrient medium to a cross made at the restrictive and grow. Repetition of the selection procedure enriched for cells unable to conjugate at the restrictive temperature. The selected cells were able to grow at 38 degrees C and could conjugate at 28 degrees C. This procedure may be narrowed to select specifically for cell interaction mutants.
J Gen Microbiol 1979 Dec
PMID:Mass selection of conditional mating mutants of Tetrahymena thermophila. 52 76

The validity of a new technique was examined for estimating the protein-synthetic activity of various tissues in vivo. The basic assumption underlying the method is that the number of peptide chains growing on each active ribosome would increase as the protein-synthetic activity of each tissue increases. The principle of the procedure, which was devised originally by Wool & Kurihara [(1967) Proc. Natl. Acad. Sci. U.S.A. 58, 2401-2407] to determine in vitro the number of functional ribosomes in skeletal muscle, is as follows. Puromycin is known to bind easily to the C-terminal end of the growing peptide on ribosomes and thus stop further chain elongation. Hence, if the number of puromycin molecules attached to the nascent peptide is determined by using radioactive puromycin as a tracer, one can estimate the number of growing peptides, i.e. the activity of tissue protein synthesis. By using this technique, it is shown that both starvation and the feeding of a protein-free diet caused marked decreases in the relative rate of formation of peptidyl-puromycin, i.e. activity of protein synthesis in liver, skeletal muscle, heart, spleen, testis, lung, kidney and intestine.
Biochem J 1979 Dec 15
PMID:Measurement of the protein-synthetic activity in vivo of various tissues in rats by using [3H]Puromycin. 54 56

Free and membrane-bound ribosomal ribonucleic acid (RNA) from maternal rat liver was measured in virgin rats and in variously dated pregnant animals that were either fed or starved for one to four days. The total amounts of free and membrane-bound ribosomal RNA differed between pregnant and nonpregnant rats, but the free ribosomal RNA progressively decreased only in the nonpregnant animals. A similar conservation of membrane-bound ribosomal RNA was observed with starvation among the pregnant rats except for the very early dated pregnant rats. Radioisotope labeling experiments using 3H-labeled orotic acid demonstrated a slower increase in specific activity among fed rats, irrespective of pregnancy state. However, metabolic and physiologic changes associated with pregnancy imposed additional complicating factors to the study.
Am J Obstet Gynecol 1978 Dec 01
PMID:Changes in the free and membrane-bound ribosomes in maternal rat liver during starvation. 56 85


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