Metabolic pathways implicated in the kinetic impairment of muscle glutamine homeostasis in adult and old glucocorticoid-treated rats.

An impairment of muscle glutamine metabolism in response to dexamethasone (DEX) occurs with aging. To better characterize this alteration, we have investigated muscle glutamine release with regard to muscle glutamine production (net protein breakdown, de novo glutamine synthesis) in adult and old glucocorticoid-treated rats. Male Sprague-Dawley rats (3 or 24 mo old) were divided into seven groups: three groups received 1.5 mg/kg of DEX once a day by intraperitoneal injection for 3, 5, or 7 days; three groups were pair fed to the three treated groups, respectively; and one control group of healthy rats was fed ad libitum. Muscle glutamine synthetase activity increased earlier in old rats (day 3) than in adult rats (day 7), whereas an increase in muscle glutamine release occurred later in old rats (day 5) than in adult DEX-treated rats (day 3). Consequently, muscle glutamine concentration decreased later in old rats (day 5) than in adults (day 3). Finally, net muscle protein breakdown increased only in old DEX-treated rats (day 7). In conclusion, the impairment of muscle glutamine metabolism is due to a combination of an increase in glutamine production and a delayed increase in glutamine release.

Induction of a catabolic state in rats by dexamethasone: dose or time dependency?

BACKGROUND: Daily injections of dexamethasone (DEX) given to adult rats are a recognized but nonstandardized model of stress. The aim of this work was to establish a reproducible and accurate model of stress in adult rats by chronic injection of DEX in order to standardize it. For this purpose, the effect of the duration of treatment and the effect of DEX dose were tested. To help understand the mechanisms of the catabolic effect of DEX, the study was extended to the metabolism of glutamine (GLN). In experiment 1, 60 male Sprague-Dawley rats (3 months old) were divided into 8 groups of 6 rats: groups G3, G5, G7, and G9 received 1.50 mg/kg/d of DEX by intraperitoneal (i.p.) injection for 3, 5, 7, or 9 days, respectively. Groups G3PF, G5PF, G7PF, or G9PF were pair-fed to groups G3, G5, G7, or G9, respectively. Group AL (n = 12) was healthy rats fed ad libitum. RESULTS: In treated rats, nitrogen balance reached its lowest value at day 5. After 9 days treatment by DEX, the catabolic state was reduced. An increase in GLN-synthetase activity and a decrease in muscle GLN content were related to DEX per se not to DEX-induced anorexia. In experiment 2, 25 rats were divided into 5 groups of 5 animals. Groups G0.75, G1.50, and G2.50 received 0.75, 1.50, and 2.50 mg/kg/d, respectively, of DEX by i.p. injection for 5 days. Group PF was pair-fed to group G2.50 and group AL was control rats. RESULTS: DEX induced a decrease in nitrogen balance that was dose-independent. GLN-synthetase activity was increased maximally in gastrocnemius by 0.75 mg/kg. CONCLUSIONS: Five days of treatment by DEX and a dose of 0.75 mg/kg/d induced a marked catabolic state.

Kinetic impairment of nitrogen and muscle glutamine metabolisms in old glucocorticoid-treated rats.

Aged rats are more sensitive to injury, possibly through an impairment of nitrogen and glutamine (Gln) metabolisms mediated by glucocorticoids. We studied the metabolic kinetic response of adult and old rats during glucocorticoid treatment. The male Sprague-Dawley rats were 24 or 3 mo old. Both adult and old rats were divided into 7 groups. Groups labeled G3, G5, and G7 received, by intraperitoneal injection, 1.50 mg/kg of dexamethasone (Dex) for 3, 5, and 7 days, respectively. Groups labeled G3PF, G5PF, and G7PF were pair fed to the G3, G5, or G7 groups and were injected with an isovolumic solution of NaCl. One control group comprised healthy rats fed ad libitum. The response to aggression induced specifically by Dex (i.e., allowing for variations in pair-fed controls) appeared later in the aged rats (decrease in nitrogen balance from day 1 in adults but only from day 4 in old rats). The adult rats rapidly adapted to Dex treatment, whereas the catabolic state worsened until the end of treatment in the old rats. Gln homeostasis was not maintained in the aged rats; despite an early increase in muscular Gln synthetase activity, the Gln pool was depleted. These results suggest a kinetic impairment of both nitrogen and muscle Gln metabolisms in response to Dex with aging.

Measurement of glutamine synthetase activity in rat muscle by a colorimetric assay.

Glutamine synthetase catalyses the formation of L-Gln from L-Glu and NH4+. This enzyme also exerts a glutamyl-transferase activity that produces gamma-glutamyl-hydroxamate from Gln and hydroxylamine. This gamma-glutamyl-transfer reaction can be used to determine glutamine synthetase activity by colorimetric assay. This method has never been applied to rat muscle. The aim of this work was to study and optimize the glutamine synthetase assay conditions in rat muscle. Enzyme activity was linear with time of incubation (30 min at 37 degrees C) and linear with enzyme concentration in the incubation medium. The method was specific. In addition, this assay correlated well with a radiometric assay (y = 0.76x + 340, where x and y are the glutamine synthetase activities measured by radiometry and colorimetry respectively; r = 0.94; P = 0.05). Finally, no glutamine synthetase activity was found in muscles of rats treated with methionine sulfoximine, an inhibitor of glutamine synthetase, and activity dramatically rose in muscles from rats treated with dexamethasone, an activator of glutamine synthetase (in extensor digitorum longus: 2717 +/- 54 nmol/min/g protein in dexamethasone-treated rats versus 1228 +/- 114 nmol/min/g protein in control rats, P < 0.0001). In conclusion, the method presented here is accurate and reliable for measurement of glutamine synthetase activity in muscles.

Supplementation of oral nutrition with pancreatic enzymes improves the nutritional status of aged endotoxemic rats.

Malnutrition is a common problem in elderly people. The association of malnutrition and physical illness or injury leads to both localized and general complications. In particular, impairment of the adaptive response of pancreatic function to undernutrition and refeeding may adversely affect nutritional status and elicit morbidity and mortality. Aged rats (24 mo old) were treated with lipopolysaccharide (LPS) from E. Coli (3 mg/kg body weight). Six days later, survivors were randomized to receive, for 7 days, an oral chow diet enriched with either a pancreatic extract (PE) (2.4 mg/day) or an isonitrogenous supply of casein (CAS). Endotoxemia induced a catabolic state, with a body weight loss of 7.6 +/- 1.1% on day two after LPS treatment. Mean food intake from day 6 to day 13 was similar in LPS-PE and LPS-CAS groups (19.0 +/- 5.6 versus 19.7 +/- 6.9 g). The metabolic response varied according to the type of muscle studied. In fast (white) muscle, the protein content and the glutamine pool remained markedly depleted in endotoxemic rats receiving casein supplementation. In contrast, enrichment of nutrition with PE significantly limited the LPS-induced muscle wasting and increased the muscle glutamine content. As in previous observations, no significant change occurred in slow (red) muscle. These results could indicate that PE supplementation counteracts pancreatic deficiency caused by aging and worsened by stress and this, in turn, could improve the efficiency of nutrition, to support the hypermetabolism of aged injured rats.

[The interaction of Cupressus sempervirens L. proanthocyanidolic oligomers with elastase and elastins]. / Etude de l'interaction des oligomères proanthocyanidoliques de Cupressus sempervirens L. sur l'élastase et les élastines.

Cupressus sempervirens L. proanthocyanidolic (O.P.C.) oligomers inhibited the esterolytic activity of pancreatic elastase with a Cl50 of 0.0075 mg/ml when a sap substrate suc(Al)3NA was used in a Tris-HCl 0.05 M buffer with a pH of 7.5. Inhibition was slightly lower when the ionic strength of the buffer was increased. Elastolytic activity was inhibited using an elastinorcein substrate with a Cl50 of 0.05 mg/ml, whatever the pH or the ionic strength of the buffer. The oligomers bound with the elastase to form a precipitant complex where a 2 mg/ml concentration of oligomers precipitated the elastase at 1 mg/ml. Insoluble elastin fixed few 150 micrograms oligomers for 1 mg of elastin but the latter was partly protected by the subsequent action of the elastase. Soluble elastin fixed a greater number of oligomers but it was the peptids of elastin enzyme hydrolysis which fixed the largest amount: around 1500 micrograms per mg. The oligomers-elastin complex seems to be more stable than that of oligomers-elastase which regains part of its esterase activity. The elastic fibers seem to be protected by the O.P.C.

Effects of orchiectomy on EDL muscle ultrastructure and energy-supplying enzymes in growing male guinea pigs.

To investigate the influence of androgens on muscle maturation during growth, guinea pigs were orchiectomized (CX) or sham operated (SO) at the end of weaning. Extensor digitorum longus (EDL) muscles were removed at weeks 4, 8, and 12 of postnatal development. According to their contractile and metabolic characteristics, four fiber types were distinguished, called I, IIa, IIbox, and IIbglyc. Muscle maturation consisted of a concomitant decrease in percentages of type IIa and IIbglyc fibers and increase in the percentage of IIbox fibers in both groups. At week 12, fiber distributions were not different between the two groups. Citrate synthase activity fell and phosphofructokinase and lactate dehydrogenase (LDH) activities rose from week 4 to week 12 and were the same in CX and SO. Muscular LDH subunits increased in SO and decreased in CX during this period. In conclusion, fiber type distribution and enzyme activities at puberty were not androgen dependent in guinea pig EDL muscle. Conversely, these hormones acted on LDH isozyme distribution through the enhancement of the most glycolytic LDH fractions.

[Flavonoids extracted from Ribes nigrum L. and Alchemilla vulgaris L.: 1. In vitro inhibitory activities on elastase, trypsin and chymotrypsin. 2. Angioprotective activities compared in vivo]. / Flavonoïdes extraits de Ribes nigrum L. et d'Alchemilla vulgaris L.: 1. Activités inhibitrices vis-à-vis de l'élastase, de la trypsine et de l'alpha-chymotrypsine in vitro. 2. Activités angioprotectrices comparées in vivo.

In vitro experiments were conducted on the inhibitory properties of extracts from Ribes nigrum L. and Alchemilla vulgaris L. (fractions A1 + A2, A1, A2) on activity of the proteolytic enzymes elastase, trypsin and alpha-chymotrypsin. Extracts from Ribes Nigrum L. and Alchemilla Vulgaris L. (Fraction A1) inhibited 50% of the activity of porcine pancreas elastase at concentrations of 0.56 mg/ml and 0.16 mg/ml, respectively, against a synthetic substrate. Inhibition was less effective on activity of trypsin and alpha-chymotrypsin. Marked in vivo angioprotective properties were shown by the compounds studied, except Fraction A2 of Alchemilla vulgaris L. which had no significant activity. The results suggest a possible role by these inhibitors in the protection of conjunctive and elastic tissues adversely affected by proteolytic enzymes. An additional advantage is their lack of toxicity.

[Variations of various enzymatic activities of the Krebs cycle (malate dehydrogenase, isocitrate dehydrogenase, succinate dehydrogenase) during experimental ischemic shock in the rat. Influence of adenosine 5' triphosphoric acid]. / Variations de quelques activités enzymatiques du cycle de Krebs (malate déshydrogénase, isocitrate déshydrogénase, succinate déshydrogénase) au cours du choc ischémique expérimental chez le rat. Influence de l'acide adénosine-5' triphosphorique

During the ischemic shock caused by the removal of tourniquets placed on the hind paws of the rat, a marked decrease in the enzyme activities of Krebs cycle yielding ATP (malate dehydrogenase, isocitrate dehydrogenase, succinate dehydrogenase) at the level of the gastrocnemius muscle and the liver, was observed together with a plasma increase of these enzymes. The intraperitoneal injection of ATP diminishes significantly the variations observed.