Effect of ornithine alpha-ketoglutarate on glutamine pools in burn injury: evidence of component interaction.

BACKGROUND: Ornithine alpha-ketoglutarate (OKG) has proved to be efficient in restoring glutamine (Gln) pools which are strongly depleted in hypercatabolic patients. Since its two components, alpha-ketoglutarate (alphaKG) and ornithine (Orn), give rise to glutamate (Glu), they are both considered as Gln precursors. The aim of this study was to assess the relative contributions of Orn and alphaKG to Gln generation in a rat model of burn injury. METHODS: Forty-eight young Wistar rats were scalded to give a 20% burn surface area. They were fasted for 24 h and then refed by enteral nutrition for 48 h by gavages with Osmolite (Abbott-Ross, 210 kcal/kg day(-1), 1.18 N/kg day(-1)) supplemented with either 5 g OKG/kg day(-1) (B-OKG), Orn (isomolar to OKG; B-Orn), alphaKG (isomolar to OKG; B-KG) or glycine (as an isonitrogenous control; B-Gly). Rats in the B-KG group also received glycine to make all the groups isonitrogenous. Amino acid concentrations were determined in plasma, muscles, jejunal mucosa and liver. RESULTS: The alpha-KG-enriched diet had no effect on plasma Glu content or plasma and muscle Gln content compared with the burn-injured controls. The Orn-enriched diet significantly increased (p<0.01) muscle Glu and Gln contents but not plasma Gln content. In OKG-treated animals, plasma Gln as well as muscle Glu and Gln were significantly higher than in the control (p<0.01), alpha-KG-treated (p< 0.01) and Orn-treated (p<0.05 for muscle Gln and p<0.01 for plasma Gln) animals. CONCLUSION: OKG was more efficient than Orn or alphaKG alone in restoring Gln pools in plasma and muscle, which is evidence of metabolic interaction between the two components of this molecule.

Bacterial dissemination and metabolic changes in rats induced by endotoxemia following intestinal E. coli overgrowth are reduced by ornithine alpha-ketoglutarate administration.

The efficacy of ornithine alpha-ketoglutarate (OKG) in preventing bacterial translocation and dissemination, metabolic disorders and changes in mucosal enzyme activities was assessed in a model of bacterial translocation in rats. Antibiotic decontamination was performed 4 d before intragastric inoculation with an Escherichia coli strain (10(10) bacteria/kg body). Two days later, the rats were given either a lipopolysaccharide (LPS) 0127:B8 or a saline injection and were deprived of food for 24 h. Enteral nutrition, [Osmolite, 880 kJ/(kg. d)] supplemented with either OKG (LPS + OKG) or glycine (Saline + Gly or LPS + Gly), was then given for 2 d. Urinary total nitrogen losses and 3-methylhistidine excretion were determined daily. On killing at d 3, bacterial translocation to the mesenteric lymph nodes (MLN) and dissemination to the spleen and liver were evaluated, jejunal mucosa enzyme activities were assayed and tissue free amino acids in muscles were measured. Endotoxin induced translocation from the gut lumen to the MLN in all groups, whereas dissemination occurred only in LPS-treated rats. OKG significantly reduced dissemination of the bacteria in the spleen. 3-Methylhistidine excretion was greater in the LPS + Gly group (+25%, P: < 0.05) than in either the LPS + OKG or Saline + Gly group. The group fed the OKG-enriched diet had higher muscular glutamine, ornithine and arginine concentrations than did the Gly-supplemented groups (P: < 0.05). Intestinal sucrase and aminopeptidase activities were higher in the LPS + OKG group than in the LPS + Gly group (-30%, P: < 0.05). OKG supplementation limits bacterial dissemination and metabolic changes after injury in rats and thus may be useful in the prevention of gut-derived sepsis in critically ill patients.

Effects of parenteral lipid emulsions with different fatty acid composition on immune cell functions in vitro.

BACKGROUND: Numerous studies suggest that immune function may be compromised by lipid emulsions rich in polyunsaturated fatty acids (PUFAs). In our study, we compared the effect of a new olive oil-based lipid emulsion (ClinOleic) containing a moderate level of PUFAs, with emulsions based on soybean oil (Intralipid or Ivelip), on immune functions of human cell in vitro. METHODS: Peripheral white blood cells were collected from healthy volunteers. Lymphocyte proliferation was evaluated by [3H]-thymidine incorporation after stimulation with either phytohemagglutinin (PHA) or antibodies against T-cell specific antigens. Lymphocytes subsets and T-cell activation markers (CD25 and HLA-DR) were measured by flow cytometry. The release of cytokines (interleukin [IL]-2, IL-1beta, and tumor necrosis factor-alpha [TNF-alpha]) was measured by enzyme-linked immunosorbent assay (ELISA), after lymphocytes or monocytes/macrophages stimulation with PHA or lipopolysaccharide (LPS). RESULTS: A significant dose-dependent inhibition of thymidine incorporation was observed with Intralipid and Ivelip (incorporation down to 39.9% of control, p < .001) whereas ClinOleic showed no inhibitory effect. Activation antigen expression on both CD4+ and CD8+ T-cells tended to decrease with Intralipid (CD25: -53.4% on CD4+ and -57.4% on CD8+; HLA-DR: -61.5% on CD4+ and -58.5% on CD8+) but not with ClinOleic (from -2.9% for CD25 on CD4+ to 16.7% for HLA-DR on CD4+). Intralipid decreased significantly IL-2 production (-39.0%, p < .05) whereas ClinOleic had little effect (-13.0%, NS). Intralipid and ClinOleic tended to inhibit to a similar extent the release of pro-inflammatory cytokines (TNF-alpha: -21.5% and -34.8%, IL-1beta: -45.1% and -40.3%; respectively). CONCLUSIONS: Our results suggest that an olive oil-based lipid emulsion could modulate immune response selectively, maintaining protective immunity and reducing inflammatory response. Olive oil may offer an immunologically neutral alternative to soybean oil for use in parenteral lipid emulsions.

In vivo effects of olive oil-based lipid emulsion on lymphocyte activation in rats.

Numerous studies suggest that immune function may be compromised by lipid emulsions rich in polyunsaturated fatty acids, especially linoleic acid. In our study, we compared the effect of a new olive oil-based lipid emulsion (ClinOleic(R)) containing 18% linoleic acid, and an emulsion based on soybean oil (Ivelip(R); 52% linoleic acid) on lymphocyte functions. Weaning Wistar rats (n= 24) were fed for 4 weeks on an oral diet that contained 12% of total energy as lipids from soybean oil. Then they received, during 6 days, a total parenteral nutrition (260 kcal/kg/d) in which 12% of total energy was brought by one of the two lipid emulsions. The fatty acid profile of spleen lymphocyte phospholipids reflected lipid intakes, with a higher content of oleic acid in ClinOleic(R) group and linoleic acid in Ivelip(R) group. A greater proportion of cells expressed the interleukin-2 receptor a-chain (CD25) after administration of ClinOleic(R) when compared to Ivelip(R) (55.43 +/- 3.47 vs 45.48 +/- 3.26%, P<< 0.05). Moreover, the CD25 expression was positively correlated with oleic acid content of spleen lymphocyte phospholipids (r= 0.500, P<< 0.018). These results show that ClinOleic(R) is able to induce, in vivo, a greater proportion of cells expressing CD25, and suggest that oleic acid could have a role in the observed effects.

Amino acid nutrition and immune function in tumour-bearing rats: a comparison of glutamine-, arginine- and ornithine 2-oxoglutarate-supplemented diets.

Dietary supplementation with glutamine (Gln), arginine (Arg) or ornithine 2-oxoglutarate (alpha-ketoglutarate; OKG) has attracted recent attention for the potential to improve anti-cancer immune function. However, since these compounds have not been compared systematically in an internally controlled study, their relative efficacy is difficult to estimate. Buffalo rats were fed on nutritionally complete semi-purified diets supplemented with Gln, Arg or OKG for 14 days after implantation of the Morris hepatoma 7777 (n>/=7 per diet). The control diet was made isonitrogenous and isoenergetic by addition of a mixture of non-essential amino acids. After 14 days, peritoneal macrophages and splenocytes were isolated to determine cell phenotypes, macrophage cytostatic activity and natural killer (NK) cell cytotoxicity, as well as nitric oxide (NO) and cytokine production. Diet had no effect on tumour weight (1.6+/-0.2 g; n=59). However, rats fed OKG had increased macrophage cytostatic activity and NK cell cytotoxicity (P<0.05). Although enhanced killing ability by NK cells was associated with higher splenocyte NO production (P<0.04), increased cytotoxicity was not inhibited by a specific inhibitor of inducible NO synthase. The proportion of interleukin-2-receptor-positive T cells after stimulation increased in rats fed OKG (P<0.05); however, cytokine production was not affected by diet. None of OKG, Gln or Arg altered tumour growth compared with a control mixture of non-essential amino acids. These results suggest no net advantage for anti-cancer immunity, but do not preclude benefits in immune responses to disease recurrence or metastasis, therapy or secondary infection.

Bacterial dissemination, rather than translocation, mediates hypermetabolic response in endotoxemic rats.

OBJECTIVE: To study the pathogenesis of the host response during bacterial translocation, a rat model was designed for prolonged follow-up after injury. DESIGN: A prospective, controlled animal study. SETTING: Animal laboratory. SUBJECTS: Young male Wistar rats. INTERVENTIONS: Antibiotic decontamination of rats was performed 4 days before intragastric inoculation with a selected Escherichia coli strain (10(10) bacteria/kg of body weight). Two days later, the rats received a lipopolysaccharide injection or not (control group) and were observed for 3 days. They were then killed. A reference group (pair-fed healthy animals) was studied in parallel. MEASUREMENTS AND MAIN RESULTS: During observations, urinary total nitrogen loss and 3-methylhistidine excretion were determined daily. When the rats were killed, mesenteric lymph nodes (MLNs), spleen, and liver were aseptically removed and cultured. Colonies identified as translocated E. coli were counted in each organ. Intracellular amino acid free pools were measured in extensor digitorum longus and anterior tibialis. Endotoxin induces bacterial translocation of bacteria from gut lumen to MLNs (100% vs. 59% in the lipopolysaccharide-untreated control group; p < .05) and dissemination to spleen and liver (65% and 45% of positive cultures after endotoxemia, respectively, vs. 6% and 12% in the control groups). No translocation occurred in the reference group. Evidence for the hypermetabolic response was seen in lipopolysaccharide-treated and infected rats, but protein catabolism was more closely related to the occurrence of bacterial dissemination to spleen and liver than to translocation alone (e.g., the cumulative 3-methylhistidine excretion during the observation period was 4.07+/-0.18 micromol in uninfected rats, 4.48+/-0.29 in rats with positive MLN cultures alone and 6.17+/-0.30 in MLN, spleen, or liver infected rats; 1 vs. 2, NS; 3 vs. 1, and 3 vs. 2, p < .05). CONCLUSIONS: Gut barrier failure is associated with a deep excessive catabolic response in the host. The mechanism by which the metabolic state affects the resistance to infection apparently involves amino acid metabolism.

Modulation of immune response with ornithine A-ketoglutarate in burn injury: an arginine or glutamine dependency?

Enterally administered ornithine alpha-ketoglutarate (OKG) is an efficient complement of nutritional support in trauma situations, especially after burn injury. A typical feature observed in this intense catabolic state is insufficient production of glutamine (Gln) and arginine (Arg), two amino acids (AAs) involved in the immune response. As OKG in vivo metabolism generates these two AAs, we investigated, in burned rats, the action of OKG with regard to modulation of immunity. Male Wistar rats were randomly allocated to four groups. On day 0, 12 rats were burned with boiling water (20% body surface area). After a 24-h fast, they were enterally refed for 48 h using Osmolite, as a low-calorie low-nitrogen regimen, supplemented with either 5 g OKG x kg(-1) x d(-1) (n = 6) or an equivalent amount of nitrogen in the form of glycine (n = 6). Non-burned pair-fed controls treated with glycine (n = 6) and healthy rats fed ad libitum (n = 6) were also studied. Nitrogen balance was assessed from daily measurement of total nitrogen excretion. On day 3, thymus, Anterior tibialis muscle and proximal jejunum weights were recorded. Muscle and intestinal AA concentrations were also quantified. OKG counteracted (P<0.01) the thymic involution that occurs with burn injury, and increased the concentrations of Gln and Arg in both the muscle (P<0.01 and P<0.05, respectively) and the jejunum (P<0.01 for Gln). When all groups were taken together, a positive correlation was found between thymus weight, and Gln and Arg muscle concentrations (r = 0.71, P<0.001 and r = 0.58, P<0.01, respectively). Furthermore, as expected, OKG improved nitrogen balance. As it is known that total number of thymocytes parallels thymic weight, and as Gln and Arg are essential nutrients for activated immune cells, our results suggest that Gln and Arg derived from OKG are responsible for the immunomodulating properties of this molecule in burn injury.

Portal hyperglutamatemia after dietary supplementation with monosodium glutamate in pigs.

The aim of the present work was to examine in pigs the effect of a dietary supplementation with the flavor enhancer monosodium glutamate (MSG) on intestinal amino acid metabolism. For this purpose, pigs weighing 60 +/- 2 kg received a standard meal twice a day for 1 week, supplemented with either 10 g MSG per meal or, as control experiments, an isonitrogenous amount of glycine together with an equal amount of sodium in the form of NaCl, the animals being their own control in all experiments. At the end of this period, pigs received a MSG or glycine-NaCl-supplemented meal and samples of portal and arterial blood were collected for amino acid analysis in plasma. The results demonstrate after MSG supplementation rapid significant increases in glutamate concentration in the portal and arterial blood plasma after a test meal which resulted in a positive portoarterial difference. In comparison, after glycine-NaCl supplementation, glutamate concentrations were almost identical in portal and arterial plasma. Furthermore, significant increased aspartate concentration in the portal blood plasma was observed after MSG supplementation when compared with control experiments. When enterocytes were isolated at the end of the supplementation period from the jejunum and examined for their metabolic capacities towards L-glutamate and L-glutamine, it was found that metabolism did not differ according to the supplement used, with glutamate and glutamine being oxidized and transaminated at a similar level. It is concluded that the portal hyperglutamatemia observed shortly after the ingestion of a MSG- supplemented meal is likely due to the saturation of the intestinal capacity to metabolize glutamate with no measurable adaptation of the metabolic pathways controlling glutamate metabolism in enterocytes.

Ornithine alpha-ketoglutarate counteracts the decrease of liver cytochrome P-450 content in burned rats.

The effect of ornithine alpha-ketoglutarate (OKG) on cytochrome P-450 enzyme activities was studied in a well-defined model of injury (burn followed by fasting then subsequent hypocaloric diet) administered to young rats for 3 d. Hepatic microsomes were prepared by ultracentrifugation and levels of cytochromes P-450 were determined spectrophotometrically. The activities of ethoxy-resorufin-O-deethylase (EROD), benzyloxy-resorufin-O-dealkylase (BROD), and erythromycin demethylase were measured as markers of P-450 1A, 2A, and 3A isotypes respectively. The level of total hepatic microsomal proteins (8 mg/mL) remained constant. The level of cytochrome P-450 (1.14+/-0.08 nmol/mg microsomal proteins) was decreased by a hypocaloric diet (23%, P = 0.003) and burn further enhanced this phenomenon (15%, P = 0.03). Both healthy and burned rats receiving OKG showed the same level of cytochrome P-450 as the rats fed ad libitum. OKG supplementation counteracted the enhancement (40%) of EROD activity induced by hypocaloric diet but did not influence BROD and erythromycin demethylase activities. OKG sustained cytochrome P-450 levels in rats fed a hypocaloric diet, even after burning. These findings indicate that OKG may favor drug metabolism in this injured population.

Is the L-arginine-nitric oxide pathway involved in endotoxemia-induced muscular hypercatabolism in rats?

We investigated the role of the nitric oxide (NO) synthase (NOS) pathway in muscular metabolism during endotoxemia in four groups of male Wistar rats. Two groups were injected with the lipopolysaccharide (LPS) of Escherichia coli (3 mg/kg), with one group treated using N(G)-nitro-L-arginine methylester ([L-NAME] 85 mg/kg/d) and the other not. The two control groups included one treated with L-NAME and the other not. After 24 hours of fasting, the rats were fed by controlled enteral nutrition and killed on day 3. The results showed that (1) NOS inhibition was detrimental during endotoxemia, increasing lethality from 20% to 80.5%, and (2) NOS inhibition did not modify the hypercatabolic state consecutive to endotoxemia, particularly at the muscular level (nitrogen balance, total-body and muscular weight loss, and muscular protein and glutamine concentrations). However, myofibrillar catabolism was delayed in the LPS-NAME group. In conclusion, NO production is of major importance for survival after an endotoxemic challenge, but contributes weakly to the metabolic response of muscle to injury.

Enteral ornithine alpha-ketoglutarate enhances intestinal adaptation to massive resection in rats.

Ornithine alpha-ketoglutarate (OKG) has been advocated in the treatment of critically ill patients for its anabolic effect on protein metabolism. Since OKG is a precursor of glutamine, arginine, and polyamines, key substrates of intestinal metabolism and function, we investigated the influence of OKG on intestinal adaptation and trophicity and on glutamine status after small bowel resection. After massive (80%) small bowel resection, rats were enterally fed for 7 days with a standard diet supplemented with either OKG (2 g/kg/d) or an isonitrogenous amount of glycine. OKG induced an adaptative hyperplasia of the villi, demonstrated in the jejunum by an increase in the villus height to crypt depth ratio (OKG v control, 4.3+/-0.4 v 3.3+/-0.5, P < .01) along with an increase (P < .05) in ornithine decarboxylase (ODC) activity (+80%) and ornithine content (+102%). Plasma glutamine (+25%) and muscle glutamine (anterior tibialis [AT], +43%; extensor digitorum longus [EDL], +54%) and protein (AT, +32%) were significantly higher (P < .05) after OKG administration, supporting its role in the restoration of glutamine pools. In summary, enterally administered OKG, which enhances intestinal adaptation after massive resection and improves muscle glutamine and protein content, could contribute significantly to nutritional management after small bowel resection.

Standardization of the lactulose-mannitol test in rats: application to burn injury.

Intestinal permeability can be assessed by measuring urinary mannitol and lactulose excretion after oral administration. This test may be useful as a tool in experimental studies to explore the effects of specific diets intended to promote the repair of the integrity of the gut barrier. In this study we standardized the lactulose-mannitol test in rats and applied it to a burned-rat model. The conditions were: oral administration of an isotonic mixture of 50 mg of mannitol and 66 mg of lactulose, followed by aseptic collection of urine over 4 h. The increase in the lactulose/mannitol ratio in burned rats was due to higher lactulose excretion. These results corroborate those obtained in burn patients and show that our model is suitable for further experiments on nutritional manipulation.

Ornithine alpha-ketoglutarate modulates tissue protein metabolism in burn-injured rats.

Enterally administered ornithine alpha-ketoglutarate (OKG) displays whole body anabolic and anticatabolic properties in trauma situations, especially after burn injury. The aim of this study was to get information about the anabolic effect of OKG at tissue level. Thirty-six male Wistar rats (95 +/- 7 g) were allocated to four groups. Eighteen rats were burned by water (20% body surface area). After a 24-h fast (day 0-day 1), rats were enterally refed for 48 h (day 1-day 3) by use of Osmolite as a low-calorie, low-nitrogen regimen supplemented with either 5 g OKG.kg-1.day-1 (B-OKG) or an equivalent amount of nitrogen in the form of glycine (B-Gly). Nonburned pair-fed controls treated with glycine (C-Gly) and healthy rats fed ad libitum were also studied. On day 3, protein synthesis rates (large dose method), free glutamine concentrations, and total protein content were assessed in tissues. Myofibrillar degradation was assessed by measuring urinary 3-methylhistidine excretion daily from day 0 to day 3. With regard to tissue protein synthesis rates, we demonstrate for the first time that OKG displays anabolic properties in the jejunum [fractional synthesis rate (FSR) in %/day, ad libitum = 101.9 +/- 4.0; C-Gly = 84.7 +/- 3.1, P < 0.01 vs. ad libitum; B-Gly = 84.5 +/- 1.6, P < 0.01 vs. ad libitum; B-OKG = 97.5 +/- 3.2, P < 0.05 vs. C-Gly and B-Gly] as well as in the liver (FSR in %/day, ad libitum = 75.9 +/- 3.7; C-Gly = 53.2 +/- 3.8, P < 0.01 vs. ad libitum; B-Gly = 70.2 +/- 2.0, P < 0.01 vs. C-Gly; B-OKG = 98.7 +/- 4.6, P < 0.01 vs. ad libitum, C-Gly and B-Gly), the latter having previously been observed in vitro. Furthermore, we confirm that OKG inhibits myofibrillar degradation, counteracts the trauma-induced fall of muscle glutamine pool, and induces an increase in glutamine concentration in the jejunum.

Amino acid determination in biological fluids by automated ion-exchange chromatography: performance of Hitachi L-8500A.

The Hitachi L-8500A is a newly available apparatus for amino acid (AA) analysis that allows automatic on-line mixing of the ninhydrin reagent. The within-run precision (human plasma pools at three different concentrations) showed CVs < 3.8% except for the lowest concentration of citrulline (4.4%), Tyr (4.5%), and alpha-aminobutyric acid (7.6%), and for the intermediate concentration of Asp (8.7%). Between-run precision (CV) was < 3.1% for 17 AAs and < 8.0% for 24 of 25 AAs (CV Asp = 12.0%). For retention times, within-run precision was < 0.4% and between-run precision < 1.8%. Excellent relations were found between the results from the Hitachi L-8500A and the widely used Beckman 6300 analyzer (0.929 < or = r < or = 0.999). The detection was still linear at 5 mumol/L except for Pro and hydroxyproline (20 mumol/L). The upper limit was at least 2500 mumol/L for 13 AAs and at least 1000 mumol/L for 27 of 29 AAs (anserine = 500, Val = 600 mumol/L). Values from 100 human plasma samples agreed with previously published data. We conclude that the results obtained with the Hitachi L-8500A are satisfactory when compared with those of other AA analyzers utilizing the same method. Furthermore, the Hitachi L-8500A displays several advantages including programming flexibility, microsample capacity, low noise plotting, ammonia filtering, and manual repacking of the analytical column.

Enteral administration of ornithine alpha-ketoglutarate or arginine alpha-ketoglutarate: a comparative study of their effects on glutamine pools in burn-injured rats.

OBJECTIVES: Ornithine alpha-ketoglutarate has proved to be an efficient nutritional support in trauma situations, especially after burn injury. To determine whether the action of ornithine alpha-ketoglutarate is due to its alpha-ketoglutarate moiety (as a glutamine precursor), we studied the effects of alpha-ketoglutarate administered to rats as ornithine alpha-ketoglutarate, or in combination with arginine salt (arginine alpha-ketoglutarate), as the two closely related amino acids have similar metabolic behavior. DESIGN: Prospective, randomized trial. SETTING: Animal laboratory. SUBJECTS: Forty-six male Wistar rats, weighing approximately 90 g. INTERVENTIONS: Rats were burned over 20% of their body surface area, starved for 24 hrs, with water ad libitum, and then enterally refed for 48 hrs using Osmolite (210 kcal/kg/day, 1.2 g of nitrogen/kg/day), supplemented with one of the following: a) an amount of glycine isonitrogenous to ornithine alpha-ketoglutarate (group 1); b) 5 g of monohydrated ornithine alpha-ketoglutarate/kg/day (group 2); c) an amount of arginine alpha-ketoglutarate isonitrogenous to ornithine alpha-ketoglutarate (group 3); or d) an amount of arginine alpha-ketoglutarate isomolar to ornithine alpha-ketoglutarate (group 4). MEASUREMENTS AND MAIN RESULTS: We measured amino acid concentrations in plasma, muscle, and liver, and plasma urea concentration. At refeeding, ornithine alpha-ketoglutarate increased plasma glutamine concentration (p < .05 vs. the three other groups), and counteracted the increase in plasma phenylalanine concentration. In muscle, although the three alpha-ketoglutarate combinations induced similar increases in the glutamate pool, ornithine alpha-ketoglutarate induced the highest increase in glutamine (7.0 +/- 0.3 vs. 5.4 +/- 0.3 micromol/g in group 3, 6.3 +/- 0.3 in group 4, and 4.6 +/- 0.2 in group 1, p < .01 between group 2 and groups 3 or 1). Also, only ornithine alpha-ketoglutarate increased liver glutamine concentration. Finally, isomolar arginine alpha-ketoglutarate increased plasma urea concentration (+50% vs. the three other groups, p < .01). CONCLUSIONS: Our results demonstrate, for the first time, the following: a) the action of ornithine alpha-ketoglutarate as a glutamine precursor cannot solely be ascribed to alpha-ketoglutarate since arginine alpha-ketoglutarate combinations did not exhibit this effect to the same extent; and b) the action of ornithine alpha-ketoglutarate is not due to its nitrogen content since isonitrogenous arginine alpha-ketoglutarate did not reproduce the effects of ornithine alpha-ketoglutarate.

Ornithine alpha-ketoglutarate counteracts thymus involution and glutamine depletion in endotoxemic rats.

This work studied the action of ornithine a-ketoglutarate (OKG) supplementation in an experimental model of endotoxemia in the rat. Male Wistar rats were injected intraperitoneally with lipopolysaccharide (LPS) from Escherichia coli (0127:B8). They were fasted for 24 h, then refed for 48 h with an enteral diet supplemented with either OKG (66 mg N x kg(-1) x d(-1)) or glycine, isonitrogenous to the OKG group. A control (sham) group was also studied. LPS treatment induced a decrease in thymus and muscle weights compared to controls, and a decrease in glutamine and arginine concentrations in the anterior tibialis muscle. Supplementation with OKG restored thymus weight and muscle arginine level and increased muscle glutamine concentration, when compared to controls. We conclude that OKG counteracts the thymic involution that occurs with endotoxemia, and restores the muscular content of glutamine and arginine, both of which are involved in the regulation of immune function.

Immunomodulatory effects of ornithine alpha-ketoglutarate in rats with burn injuries.

OBJECTIVE: To investigate the influence of enterally administered ornithine alpha-ketoglutarate (OKG) on muscular amino acid content, eicosanoid release, and polymorphonuclear leukocyte responsiveness after induction of burn injury in rats. DESIGN: Experimental trial. MATERIALS AND METHODS: Four groups of rats were considered: (1) healthy rats that received a standard diet supplemented with 5 g/kg per day of OKG; (2) rats with burn injuries that received the same nutrition as group 1; (3) healthy rats that received standard diet supplemented with glycine in an isonitrogenous amount relative to OKG; and (4) rats with burn injuries that received the same nutrition as group 3. The thymus and 1 skeletal muscle were weighed. The oxidative metabolism of pleural polymorphonuclear leukocytes was measured by means of superoxide generation (O2-) and the chemiluminescent response to opsonized zymosan. Prostaglandin E2 and 6-keto-prostaglandin F1 alpha were measured in the supernatants of pleural and peritoneal cells. RESULTS: The weights of the thymus and the muscle from healthy rats were similar. Those of rats from group 4 were significantly lower (P < .05), whereas those of rats from group 2 were not. Metabolism of OKG led to enhanced amounts of arginine and glutamine in skeletal muscle. The metabolic bursts of polymorphonuclear leukocytes from healthy rats were similar. Those of glycine-treated rats with burn injuries were significantly depressed (P < .05), whereas those of the OKG-treated group were not. Pleural and peritoneal cells from the rats with burn injuries that received OKG generated significantly more prostaglandins (P < .01) than did cells from the other groups of rats. CONCLUSION: Ornithine alpha-ketoglutarate administered to rats with burn injuries displays immunomodulatory properties that can enhance host-defense mechanisms in animals that are affected by a severe injury.