Glutamine deprivation induces apoptosis in intestinal epithelial cells

BACKGROUND: Glutamine is the most abundant amino acid in the blood, and its deprivation leads to gut mucosal atrophy. The small intestinal mucosa is maintained by a balance between cell proliferation and cell death by apoptosis. We reported that glutamine is required for nitrogen-stimulated proliferation in intestinal epithelial cells. We do not know whether glutamine regulates apoptosis in the gut. The purpose of this study is to determine whether glutamine deprivation induces apoptosis in rat intestinal epithelial (RIE-1) cells and to compare the effect of glutamine starvation with that of methionine and cysteine (Met/Cys) starvation. METHODS: RIE-1 cells were deprived of either glutamine or Met/Cys for 24 hours. Cell numbers were determined by cell counting and tetrazolium enzymatic assay. Apoptosis was quantified by Annexin V assay and confirmed by DNA gel electrophoresis and Hoecsht nuclear staining. RESULTS: Deprivation of glutamine or Met/Cys resulted in decreased cell numbers. However, only the glutamine-deprived group showed significant induction of apoptosis with increased Annexin V staining, DNA laddering, and nuclear condensation. CONCLUSIONS: This study provides biochemical and morphologic evidence that glutamine deprivation induces apoptosis in rat intestinal epithelial cells. In contrast, Met/Cys starvation suppresses cell number without induction of apoptosis. These results suggest that glutamine serves as a specific survival factor in enterocytes.     

The role of glutamine, serum and energy factors in growth of enterocyte-like cell lines

BACKGROUND: Glutamine is routinely added to most cell cultures. Glutamine has been found to be the preferential nutrient to the rapidly replicating intestinal mucosa, but whether this is a metabolic effect or due to other properties of this amino acid is not determined. To study the importance of glutamine on the growth of two enterocyte-like cell lines, the effects of depriving the media or supplementing it with glutamine were assessed in media with different serum and energy supplements. METHODS: CaCo-2 and HT-29 cells were grown in serum-free medium, with fetal bovine or synthetic serum, and with or without glucose or galactose. The glutamine content was varied between 0 and 4 mM. All growth assays were performed in triplicate by counting in a hemocytometer. RESULTS: Both cell lines were dependent of serum factors for growth, but displayed distinct requirements on glutamine supplementation. Glutamine was an obligate supplement with dose-dependent correlation to growth (r = 0.87, p < 0.01) for CaCo-2 cells cultured in synthetic, but not in fetal bovine serum. In HT-29 cells, the correlation between glutamine and growth was significant (r = 0.68, p < 0.05) only in fetal bovine serum in the absence of galactose. CONCLUSION: This study shows that glutamine has different growth stimulating effects on two enterocyte-like cell lines studied. This could reflect different modes of action of glutamine on proliferation and differentiation in an enterocyte cell population.     

Effect of L-glutamine and n-butyrate on the restitution of rat colonic mucosa after acid induced injury

BACKGROUND: L-glutamine and n-butyrate are important nutrients for colonocytes affecting both their structure and function. The effect of these epithelial substrates on resealing of rat distal colon after acid induced injury was studied. METHODS: Isolated colonic mucosa of 32 rats was mounted in Ussing chambers and exposed to Krebs-Ringer solution for four hours. Epithelial injury was induced by short-term exposure to luminal hydrochloric acid and resealing was studied with or without added glutamine or butyrate. RESULTS: Glutamine (luminal and serosal) reduced tissue conductance, mannitol and lactulose permeability, and permeation of enteropathogenic Escherichia coli. Glutamine (serosal) diminished conductance and mannitol permeability. Both interventions stimulated bromodeoxyuridine incorporation in nuclei of colonocytes. Luminal butyrate had no measurable effect on these parameters. CONCLUSIONS: These data suggest that L-glutamine stimulates repair mechanisms of rat colonic mucosa after acid injury. This effect on the gut barrier is associated with a stimulation of crypt cell proliferation. The addition of glutamine to parenteral solutions may be beneficial for patients under intensive care whose intestinal barrier is weakened in the course of sepsis and trauma.     

An oral glutamine load enhances renal acid secretion and function

In a recent study, a small oral glutamine load acutely elevated plasma bicarbonate concentrations in healthy adults (Am J Nutr 1995;61:1058-61). The present study was designed to elucidate the renal mechanism underlying the base-generating response to L-glutamine. Accordingly, vehicle (489 mL diet soda) or vehicle plus 2 g L-glutamine (28 mg/kg body wt) was ingested and the gain in extracellular fluid volume bicarbonate was compared with renal acid elimination as either ammonium excretion or tubular acid secretion (titratable acid plus bicarbonate reabsorption). Vehicle alone, which contained 27 mmol acid, did not increase extracellular fluid volume bicarbonate over the 90-min period. In contrast, L-glutamine increased plasma bicarbonate concentration (from 25.4+/-2 to 27.9+/-1 mmol/L, P < 0.05) and extracellular fluid volume bicarbonate by an estimated 39+/-10 mmol. When added to that required to neutralize the ingested acid, the combined total for new bicarbonate generated gave an estimated 66+/-10 mmol. Surprisingly, ammonium excretion accounted for < 2% of this newly generated bicarbonate. However, acid secreted and excreted as net acid (5.2+/-4.0 mmol/90 min) as well as that coupled to enhanced bicarbonate reabsorption (76+/-20 mmol/90 min) readily accounted for the estimated base gain (81+/-24 compared with 66+/-10 mmol/90 min). Concomitant with enhanced renal acid secretion, the oral glutamine load elicited an increase in glomerular filtration rate. These results rule out a role for L-glutamine as a direct precursor of bicarbonate and instead point to an indirect role in accelerating acid secretion, apparently coupled to increased glomerular filtration rate.     

Cytoprotection and regulation of heat shock proteins induced by heat shock in human breast cancer T47-D cells: role of [Ca2+]i and protein kinases

Overexpression of heat shock protein 70 kDa alters the susceptibility of tumor cells to chemotherapeutic agents. We conducted experiments to study the regulation of expression of heat shock proteins (HSPs) in heat shock-treated T47-D cells, a human breast cancer cell line that expresses estrogen receptors. Cells exposed to heat shock at 44 degreesC displayed increased expression of heat shock protein 72 kDa (HSP-72), glucose-regulated protein 78 kDa (GRP-78), and GRP-94 in a time-dependent manner, as shown by [35S]methionine incorporation and Western blotting experiments. The maximal rate of synthesis occurred between 2 and 4 h after heat shock. Removal of external Ca2+ inhibited the synthesis of the heat shock-induced GRP-78 but not of HSP-72 and GRP-94, whereas treatment of cells with BAPTA (a Ca2+ chelator) inhibited HSP-72 and GRP-78. Treatment with H89 (a protein kinase A inhibitor) blocked the heat shock-induced GRP-78 synthesis, whereas GF-109203X (a protein kinase C inhibitor) attenuated the heat shock-induced HSP-72 synthesis and completely blocked synthesis of GRP-78 but not of GRP-94. These results indicate that protein kinase C is involved in regulation of the heat shock-induced synthesis of HSP-72, whereas PKA and PKC are involved in the regulation of GRP-78 synthesis. Cells overexpressing HSP-72 and GRPs after heat shock displayed resistance against lethal temperature (47 degreesC for 50 min) -induced death, which was diminished after removal of external Ca2+ and treatment with GF-109203X. Heat shock increased intracellular free Ca2+ concentration ([Ca2+]i) in a temperature- and heating duration-dependent fashion, and the increase was inhibited in the absence of external [Ca2+]i and significantly reduced by pretreatment with H89 and GF-109203X. The results suggest that different pathways are involved in the induction of synthesis of HSP-72, GRP-78, and GRP-94 by heat shock. It is highly likely that only HSP-72 and GRP-78 are involved in the process of cytoprotection from the thermal injury.     

Hyperthermia and hypoxia increase tolerance of retinal ganglion cells to anoxia and excitotoxicity

PURPOSE: Knowledge of the mechanisms by which retinal ganglion cells are damaged may provide information required to develop novel treatments for diseases that cause retinal ganglion cell death. The authors investigated whether the expression of the 72-kDa heat shock protein in cultured rat retinal ganglion cells increases tolerance to hypoxic and excitotoxic injury. METHODS: Hyperthermia (42 degrees C for 1 hour) and sublethal hypoxia (9% O2 for 6 hours) were used to induce synthesis of the 72-kDa heat shock protein in cultured rat retinal ganglion cells and cultured retinal Müller cells. Induction of the 72-kDa heat shock protein was detected with immunocytochemical and immunoblot techniques. Survival of cultured retinal ganglion cells after exposure to anoxia (< 1% O2 for 6 hours) and glutamate (200 microns for 6 hours) was measured and compared to control cultures stressed previously by hyperthermia or sublethal hypoxia. The effect of quercetin, a blocker of heat shock protein synthesis, was evaluated in parallel experiments. RESULTS: Heat shock protein immunoreactivity was expressed in cultured retinal ganglion cells and Müller cells after hyperthermia and sublethal hypoxia. The mean (+/- standard deviation) retinal ganglion cell survival rates after exposure to anoxia (expressed as a percentage of untreated control cultures) in cells pretreated with sublethal hypoxia (83% +/- 17%) and hyperthermia (82% +/- 19%) were significantly greater than for cells that had no pretreatment (50% +/- 18%, P < 0.001). The mean (+/-standard deviation) retinal ganglion cell survival rate after exposure to glutamate in cells pretreated with sublethal hypoxia (82% +/- 19%) and hyperthermia (86% +/- 17%) were significantly greater than for cells that had no pretreatment (56% +/- 17%, P < 0.001). Inhibition of heat shock protein synthesis with quercetin abolished the protective effects of sublethal hypoxia and hyperthermia on cell survival after anoxia and glutamate exposure. CONCLUSIONS: The neuroprotective effect of hyperthermia and sublethal hypoxia suggests that heat shock proteins confer protection against ischemic and excitotoxic retinal ganglion cell death.     

Elemental diets in the repair of small intestinal damage

We have investigated the possible benefits of elemental diets, especially a diet supplemented with L-glutamine, on maintenance of intestinal absorptive function in rat small intestine damaged by 5-fluorouracil. Although a standard rat diet sustained better body growth in control rats, each of the elemental diets and the diet containing intact casein in place of hydrolyzed casein was beneficial in promoting less body weight loss during the 3 d after 5-fluorouracil injection. The same significant benefit was seen in absorptive activity measured in small intestine in vitro 3 d after the cytotoxic injury. Glutamine supplementation, however, did not confer any significant advantages, although it did cause significant elevation of muscle glutamine pools. This elevation was substantially less than the corresponding increase in muscle glycine content after dietary supplementation with glycine.     

Stoichiometry, kinetics, and regulation of glucose and amino acid metabolism of a recombinant BHK cell line in batch and continuous cultures

Batch and continuous cultures were carried out to study the stoichiometry, kinetics, and regulation of glucose and amino acid metabolism of a recombinant BHK cell line, with particular attention to the metabolism at low levels of glucose and glutamine. The apparent yields of cells on glucose and glutamine, lactate on glucose, and ammonium on glutamine were all found to change significantly at low residual concentrations of glucose (< 5 mmol/L) and glutamine (< 1 mmol/L). The uptake rates of glucose and glutamine were markedly reduced at low concentrations, leading to a more effective utilization of these nutrients for energy metabolism and biosynthesis and reduced formation rates of lactate and ammonium. However, the consumption of other amino acids, especially the essential amino acids leucine, isoleucine, and valine and the nonessential amino acids serine and glutamate, was strongly enhanced at low glutamine concentration. Quantitatively, it was shown that the cellular yields and rates associated with glucose metabolism were primarily determined by the residual glucose concentration, while those associated with glutamine metabolism depended mainly on the residual glutamine. Both experimental results and analysis of the kinetic data with models showed that the glucose metabolism of BHK cells is not affected by glutamine except for a slight influence under glucose limitation and glutaminolysis not by glucose, at least not significantly under the experimental conditions. Compared to hybridoma and other cultured animal cells, the recombinant BHK cell line showed remarkable differences in terms of nutrient sensitivity, stoichiometry, and amino acid metabolism at low levels of nutrients. These cell-line-specific stoichiometry and nutrient needs should be considered when designing an optimal medium and/or feeding strategy for achieving high cell density and high productivity of BHK cells. In this work, a cell density of 1.1 x 10(7) cells/mL was achieved in a conventional continuous culture by using a proper feed medium.     

Common mechanism of toxicity: a case study of organophosphorus pesticides

Despite the fact that glutamine is not considered to be an essential amino acid, it is the amino acid found in the greatest concentration both in plasma (26%) as in skeletal muscle (75%). These levels may decrease in post-operative, trauma, or critical patients. Glutamine performs many functions in which its demand may be increased, such as: it is a precursor of the synthesis of nucleotides; it is an activator of the protein synthesis and at the same time it inhibits the degradation; it is an activator of glycogen synthesis; it is a metabolic substrate for rapidly replicating cells; it is an energy source for the enterocyte which is so important for maintaining the integrity and the function of the intestinal barrier, and the consumption thereof may be increased under conditions of stress. The administration of glutamine intravenously leads to two physical-chemical problems; the first is its low solubility in water; at 20 degrees C this is only 36 g/l, and the second problem is its low chemical stability in an aqueous solution at 22-24 degrees C, this being 11 days. This problem has led the industry to research two dipeptides of glutamine; L-alanyl-glutamine, and L-glycyl L-glutamine, both of which are much more soluble and much more stable. At present there is still a controversy regarding the dosage of glutamine and its dipeptides, with the dose being 0.19-0.29 g/kg/day of L-glutamine or its dipeptide forms, in surgical post-operative periods or to prevent bacterial translocation, and in patients who are candidates for bone marrow transplants, the administered dose has been 0.37-0.57 g/kg/day. The purpose of this study is to review the existing bibliography regarding the efficacy of L-glutamine or its dipeptides in four possible indications for its application in the daily clinical practice, such as: a) In post-operative surgical patients of major or medium surgery, glutamine or its dipeptides reduces the losses of muscular glutamine and its catabolism, showing a less negative nitrogen balance. b) Whether it avoids bacterial translocation. c) Whether it favors the response of the immunological system. d) Whether in patients who are candidates for bone marrow transplants this decreases the side effects due to chemotherapy and radiotherapy such as mucositis, or whether it decreases the number of days of neutrophil recovery. At present, on the European market there are two commercially available brands of glutamine dipeptides: Dipeptiven, by Fresenius Laboratories, Germany. A 100 ml vial which corresponds to 20 g of L-alanyl L-glutamine (8.2 g of alanine + 13.46 g of L-glutamine). This is added to the standard amino acid solution. Glamin, Pharmacia and Upjohn Laboratory, Sweden. This is an amino acid solution with 13.4% essential and non-essential amino acids which are equivalent to 22.4 g of nitrogen/l, and which contain 30.27 g L-glycyl-L-glutamine (10.27 g of glycine + 20 g of L-glutamine).     

Effect of glutamine supplementation on changes in the immune system induced by repeated exercise

The ability of lymphocytes to proliferate and generate lymphokine activated killer (LAK) cell activity in vitro is dependent on glutamine. In relation to intense exercise the lymphocyte concentration, the proliferative response, the natural killer and LAK cell activity, and the plasma glutamine concentration decline. It has been hypothesized that in relation to physical activity a lack of glutamine may temporarily affect the function of the immune system. PURPOSE: The purpose of this study was to examine the influence of glutamine supplementation on exercise-induced immune changes. METHODS: In a randomized cross-over placebo-controlled study, eight healthy male subjects performed three bouts of ergometer bicycle exercise lasting 60, 45, and 30 min at 75% of their VO2max separated by 2 h of rest. RESULTS: The arterial plasma glutamine concentration declined from 508 +/- 35 (pre-exercise) to 402 +/- 38 microM (2 h after the last exercise bout) in the placebo trial and was maintained above pre-exercise levels in the glutamine supplementation trial. The numbers of circulating lymphocytes and the phytohemagglutinin-stimulated lymphocyte proliferative response declined 2 h after, respectively, during each bout of exercise, whereas the LAK cell activity declined 2 h after the third bout. Glutamine supplementation in vivo, given in the described doses at the specific times, did not influence these changes. CONCLUSION: The present study does not appear to support the hypothesis that those aspects of postexercise immune changes studied are caused by decreased plasma glutamine concentrations.     

Thiolmethyltransferase activity in the human colonic mucosa: implications for ulcerative colitis

Ulcerative colitis is associated with a selective reduction of n-butyrate oxidation by the colonic epithelial cells although the reason for this has been unclear. Colonic epithelial cell n-butyrate oxidation can be inhibited in vitro by incubation with sulphide but the role of mucosal detoxification of sulphide in the metabolic welfare of the colonic mucosa has not been examined. This study aimed to assess the role mucosal detoxification of sulphide by thiolmethyltransferase (TMT)-mediated methylation may play in protecting the healthy colonic mucosa from the adverse effects of luminal sulphide. Colonic epithelial cell suspensions from healthy human proximal (n = 9) and distal colon (n = 10) were incubated in the presence of 14C-labelled n-butyrate (5 mmol/L) alone, butyrate plus sodium hydrogen sulphide (NaHS) (1.5 mmol/L), or butyrate plus NaHS plus S-adenosyl-methionine 1,4 butane disulphonate (SAMe) (5 mmol/L). Study end points were metabolic performance (14CO2 production) and mucosal TMT activity. Incubation with NaHS induced a significant inhibition of 14CO2 production compared with control incubations (P < 0.001) which was similar for proximal and distal colonic cell suspensions. S-adenosyl-methionine 1,4 butane disulphonate reversed this effect completely in proximal but not in distal cell incubations, suggesting a greater susceptibility of the distal colon to the sulphide effect. Although median whole mucosal TMT values did not differ between proximal and distal colonic mucosa, a non-normal distribution of distal TMT values was observed. However, neither the degree of sulphide inhibition of control 14CO2 production nor the degree to which SAMe reversed this inhibition correlated with whole mucosal TMT activity. The study concluded that regional variation exists in TMT activity in the human colon but whilst methylation appears to protect colonic epithelial cells against sulphide-induced inhibition of n-butyrate oxidation, this cannot be directly correlated with mucosal TMT activity.     

Protective action of capsaicin and chilli on haemorrhagic shock-induced gastric mucosal injury in the rat

Chilli and its pungent ingredient, capsaicin, have been shown to protect against experimental gastric mucosal injury induced by various necrotizing agents such as ethanol and aspirin and stress. We investigated the effect of capsaicin and long-term ingestion of chilli on haemorrhagic shock-induced gastric mucosal injury in the rat. Anaesthetized male Sprague-Dawley rats were subjected to haemorrhagic shock by withdrawing blood to reduce the mean arterial blood pressure to 30-40 mmHg with subsequent reinfusion of shed blood. This resulted in gastric mucosal injury with readily identifiable haemorrhagic lesions. Capsaicin (5 mg) administered prior to, but not after, haemorrhagic shock, significantly reduced the gastric mucosal injury in intact animals. Sensory ablation with capsaicin pretreatment (125 mg/kg bodyweight) abolished the gastroprotective effect afforded by capsaicin. Similarly, 4 week intake of chilli powder (360 mg daily) reduced the gastric mucosal injury in intact, but not in capsaicin-desensitized rats. Capsaicin and long-term chilli intake protected against haemorrhagic shock-induced gastric mucosal injury and the protection may be mediated by capsaicin-sensitive afferent neurons. Our studies are of potential significance in the context of stress ulcer disease in the human.     

Glutamine requirement of proliferating T lymphocytes

Glutamine is required for lymphocyte proliferation but the site of glutamine action is not yet known. In this study, the effect of glutamine on key events that occur during lymphocyte activation [interleukin-2 (IL-2) production, IL-2 use, IL-2 receptor expression, transferrin receptor expression] was investigated. Rat or mouse spleen lymphocytes were cultured in the presence of the T-cell mitogen concanavalin A (Con A) and various concentrations of glutamine. There was a trend (not significant) for the ratio of CD4+:CD8+ spleen lymphocytes to increase (from 1.9 to 2.6) as the concentration of glutamine in culture medium increased from 0 to 2 mmol/L. As the concentration of glutamine increased, there was an increase in the proportion of cells expressing the IL-2 receptor (from 30 to 45%) and the transferrin receptor (from 34% to 55%). As the concentration of glutamine increased there was a 2.7-fold increase in the concentration of IL-2 in the culture medium. The IL-2 concentration was decreased when an IL-2 receptor-blocking antibody was included in the culture medium; the IL-2 concentrations measured were taken to indicate the initial Con A-stimulated production of IL-2. In these conditions, the IL-2 concentration in the medium increased 39-fold as the glutamine concentration increased. The use of IL-2 by an IL-2-dependent cell line was dependent on the glutamine concentration in the culture medium. Thus, all four components of lymphocyte activation investigated (IL-2 production, IL-2 use, IL-2 receptor expression, transferrin receptor expression) were dependent on the concentration of glutamine present in the culture medium. Thus, glutamine might provide an early signal in the lymphocyte activation process.     

Endogenous synthesis of arginine plays an important role in maintaining arginine homeostasis in postweaning growing pigs

This study was conducted to determine whether endogenous synthesis of arginine plays a role in regulating arginine homeostasis in postweaning pigs. Pigs were fed a sorghum-based diet containing 0. 98% arginine and were used for studies at 75 d of age (28.4 kg body weight). Mitochondria were prepared from the jejunum and other major tissues for measuring the activities of Delta1-pyrroline-5-carboxylate (P5C) synthase and proline oxidase (enzymes catalyzing P5C synthesis from glutamate and proline, respectively) and of ornithine aminotransferase (OAT) (the enzyme catalyzing the interconversion of P5C into ornithine). For metabolic studies, jejunal enterocytes were incubated at 37 degrees C for 30 min in Krebs-Henseleit bicarbonate buffer containing 2 mmol/L L-glutamine, 2 mmol/L L-[U-14C]proline, and 0-200 micromol/L gabaculine (an inhibitor of OAT). The activities of P5C synthase, proline oxidase and OAT were greatest in enterocytes among all of the tissues studied. Incubation of enterocytes with gabaculine resulted in decreases (P < 0.05) in the synthesis of ornithine and citrulline from glutamine and proline. When gabaculine was orally administered to pigs (0.83 mg/kg body weight) to inhibit intestinal synthesis of citrulline from glutamine and proline, plasma concentrations of citrulline (-26%) and arginine (-22%) decreased (P < 0.05), whereas those of alanine (+21%), ornithine (+17%), proline (+107%), taurine (+56%) and branched-chain amino acids (+21-40%) increased (P < 0.05). On the basis of dietary arginine intake and estimated arginine utilization, the endogenous synthesis of arginine in the 28-kg pig provided >/=50.2% of total daily arginine requirement. Taken together, our results suggest an important role for endogenous synthesis of arginine in regulating arginine homeostasis in postweaning growing pigs, as previously shown in neonatal pigs.     

Oral glutamine reduces the duration and severity of stomatitis after cytotoxic cancer chemotherapy

BACKGROUND: Mouth sores and/or difficulty swallowing are common and painful consequences of cytotoxic chemotherapy for cancer. In previous studies oral glutamine was found to protect animals from the effects of whole abdominal radiation and methotrexate-induced enteritis. Glutamine also was found to reduce oral mucositis in a nonrandomized pilot study in humans. Therefore, the authors attempted to determine the efficacy of oral glutamine in a randomized, double blind, crossover trial in cancer patients receiving chemotherapy. METHODS: Twenty-four patients (16 children and 8 adults) received glutamine or placebo (glycine) suspension (2 g amino acid/M2/dose twice daily) to swish and swallow on days of chemotherapy administration and for at least 14 additional days. Patients completed a calendar indicating days of mouth pain associated with each chemotherapy course and the effect of mouth pain on oral intake. RESULTS: Paired data indicated significant amelioration of stomatitis associated with glutamine administration after chemotherapy. The duration of mouth pain was 4.5 days less in chemotherapy courses in which glutamine supplementation was compared with placebo (Wilcoxon's signed rank test, P=0.0005). The severity of oral pain also was reduced significantly when glutamine was provided with chemotherapy (the amount of days mucositis restricted oral intake to soft foods [> or =Grade 2; Modified Eastern Cooperative Oncology Group grading system] was 4 days less with glutamine compared with placebo; Wilcoxon's signed rank test, P=0.002). CONCLUSIONS: Low dose oral glutamine supplementation during and after chemotherapy significantly reduced both the duration and severity of chemotherapy-associated stomatitis. Oral glutamine appears to be a simple and useful measure to increase the comfort of many patients at high risk of developing mouth sores as a consequence of intensive cancer chemotherapy.     

Lessons to learn from the cell death and heat shock genes of Caenorhabditis elegans

The nematode Caenorrhabditis elegans is an applicable experimental system for simulation of complex biochemical processes of mammalian cells and tissues. The genetic pathway of programmed cell death (PCD) has been partially clarified in the nematode. Analysis of cell death genes of C. elegans led to the conclusion that PCD is conserved in the animal kingdom. Our intention is to study the role of tissue transglutaminase and heat shock proteins in the process of PCD. Tissue transglutaminase is often observed to be induced and activated during the molecular mechanism of PCD. The connection between the heat shock proteins and PCD is not well understood, but it is clear that many apoptosis inducers lead to increased synthesis of heat shock proteins and production of heat shock proteins is coupled with the appearance of apoptosis in numerous experimental systems. Our preliminary observations made by studying cell death mutants of C. elegans we suggest that transglutaminase and heat shock proteins are involved in the death program of the nematode.     

Parenteral glutamine dipeptide supplementation does not ameliorate chemotherapy-induced toxicity

BACKGROUND: Glutamine-supplemented total parenteral nutrition (TPN) improved the nitrogen balance in catabolic situations. In animal studies, parenteral glutamine supplementation appeared to maintain gut integrity. This study was performed to evaluate the possible positive effects of glutamine supplementation in catabolic hematologic patients. METHODS: This was a prospective double-blind placebo-controlled pilot study, in which 20 treatment cycles in unselected hematologic patients with intensive chemotherapy were studied. Glutamine was given as a dipeptide. Patients were randomized per treatment cycle to receive isonitrogenous TPN (0.272 g nitrogen/kg of body weight) and isoenergetic TPN (2200 kcal NPE/day) without or with 40 g L-alanyl-L-glutamine (26 g glutamine) until the neutrophil count was greater than 0.5 x 10(9)/L. The daily oral food intake was recorded and analyzed carefully. Toxicity grades for performance status, mucositis, and diarrhea were scored according to the World Health Organization classification. RESULTS: No differences in neutropenic period, fever, extra antibiotics, and toxicity scores were observed, except for a gain in body weight per treatment cycle in favor of the glutamine-supplemented TPN. No side effects or allergic reactions were noted after the dipeptide administration. CONCLUSION: Supplementation of glutamine dipeptide was safe but had no significant positive clinical effect.     

L-glutamine inhibits nitric oxide synthesis in bovine venular endothelial cells

This study was conducted to test the hypothesis that L-glutamine has differential effects on nitric oxide (NO) synthesis from L-arginine in bovine venular endothelial cells (EC) stimulated by A23187 (a Ca++ ionophore) and receptor-mediated vasodilators (bradykinin and substance P). EC were cultured at 37 degrees C for 24 h in the presence of 0.4 mM L-arginine and 0.0 to 2.0 mM L-glutamine with or without 1 microM A23187, 1 microM bradykinin or 10 microM substance P. The release of nitrite and nitrate by EC was used as an indicator of NO synthesis. A23187, bradykinin or substance P increased NO synthesis from L-arginine by EC in the presence or absence of L-glutamine. The addition of L-glutamine (0.5 and 2 mM) markedly increased intracellular concentrations of L-glutamine, L-glutamate and L-aspartate and decreased NO synthesis by EC in a concentration-dependent manner in the presence or absence of A23187, bradykinin or substance P. L-Glutamine had no effect on L-arginine uptake by EC or on intracellular L-arginine concentration. Neither L-glutamine nor its glutaminase metabolites (ammonia, L-glutamate and L-aspartate) had any effect on endothelial NO synthase activity. Taken together, these results suggest that the inhibition by L-glutamine of NO synthesis from L-arginine is unlikely to result from an effect of L-glutamine on L-arginine transport or NO synthase activity. Although the mechanism involved remains unknown, regulation of the arginine-NO pathway by L-glutamine may have pharmacologic and therapeutic implications in such conditions as inflammation and septic shock by inhibiting NO generation from L-arginine in endothelial cells.