Role of glucose in the regulation of glutamine metabolism in health and in type 1 insulin-dependent diabetes

To determine the effect of glucose availability on glutamine metabolism, glutamine kinetics were assessed under conditions of hyperglycemia resulting from 1) intravenous infusion of 7.5% dextrose in healthy adults and 2) insulin deficiency in young adults with insulin-dependent diabetes mellitus (IDDM). Eight healthy adults and five young adults with IDDM were studied in the postabsorptive state by use of a primed continuous infusion of D-[U-(14)C]glucose, L-[5,5,5-(2)H(3)]leucine, and L-[3, 4-(13)C]glutamine. Whether resulting from insulin deficiency or dextrose infusion, the rise in plasma glucose was associated with increased glucose turnover (23.5 +/- 0.7 vs. 12.9 +/- 0.3 micromol. kg(-1). min(-1), P < 0.01 and 20.9 +/- 2.5 vs. 12.8 +/- 0.4 micromol. kg(-1). min(-1), P = 0.03, in health and IDDM, respectively). In both cases, high blood glucose failed to alter glutamine appearance rate (R(a)) into plasma [298 +/- 9 vs. 312 +/- 14 micromol. kg(-1). h(-1), not significant (NS) and 309 +/- 23 vs 296 +/- 26 micromol. kg(-1). h(-1), NS, in health and IDDM, respectively] and the estimated fraction of glutamine R(a) arising from de novo synthesis (210 +/- 7 vs. 217 +/- 10 micromol. kg(-1). h(-1), NS and 210 +/- 16 vs. 207 +/- 21 micromol. kg(-1). h(-1), NS, in health and IDDM, respectively). When compared with the euglycemic day, the apparent contribution of glucose to glutamine carbon skeleton increased when high plasma glucose resulted from intravenous dextrose infusion in healthy volunteers (10 +/- 0.8 vs. 4.8 +/- 0.3%, P < 0.01) but failed to do so when hyperglycemia resulted from insulin deficiency in IDDM. We conclude that 1) the contribution of glucose to the estimated rate of glutamine de novo synthesis does not increase when elevation of plasma glucose results from insulin deficiency, and 2) the transfer of carbon from glucose to glutamine may depend on insulin availability.     

Plasma catecholamine and serum gastrin concentrations during sham feeding

Plasma adrenaline, plasma noradrenaline and serum gastrin concentrations were measured before and after sham feeding in eight patients with duodenal ulcer and in four normal subjects. No significant change in the concentrations was observed after sham feeding. In three patients with duodenal ulcer an insulin test resulted in a 25-fold rise in plasma adrenaline. The ulcer patients showed significantly higher levels of plasma adrenaline and plasma noradrenaline than the normal subjects both before and after sham feeding, and this difference was probably not caused only by age difference in the two groups. It is concluded that sympathetic nervous activity and serum gastrin concentrations are not influenced by sham feeding in contrast to the influence of insulin hypoglycemia.     

Concurrent duodenal manometric and impedance recording to evaluate the effects of hyoscine on motility and flow events, glucose absorption, and incretin release

Upper gastrointestinal motor function and incretin hormone secretion are major determinants of postprandial glycemia and insulinemia. However, the impact of small intestinal flow events on glucose absorption and incretin release is poorly defined. Intraluminal impedance monitoring is a novel technique that allows flow events to be quantified. Eight healthy volunteers were studied twice, in random order. A catheter incorporating six pairs of electrodes at 3-cm intervals, and six corresponding manometry sideholes, was positioned in the duodenum. Hyoscine butylbromide (20 mg) or saline was given as an intravenous bolus, followed by a continuous intravenous infusion of either hyoscine (20 mg/h) or saline over 60 min. Concurrently, glucose and 3-O-methylglucose (3-OMG) were infused into the proximal duodenum (3 kcal/min), with frequent blood sampling to measure glucose, 3-OMG, insulin, glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP). The frequency of duodenal pressure waves and propagated pressure wave sequences was reduced by hyoscine in the first 10 min (P<0.01 for both), but not after that time. In contrast, there were markedly fewer duodenal flow events throughout 60 min with hyoscine (P<0.005). Overall, blood glucose (P<0.01) and plasma 3-OMG concentrations (P<0.05) were lower during hyoscine than saline, whereas plasma insulin, GLP-1, and GIP concentrations were initially (t=20 min) lower during hyoscine (P<0.05). In conclusion, intraluminal impedance measurement may be more sensitive than manometry in demonstrating alterations in duodenal motor function. A reduction in the frequency of duodenal flow events is associated with a decreased rate of glucose absorption and incretin release in healthy subjects.     

The fasting and food-stimulated serum gastrin concentration in 151 duodenal ulcer patients compared to 41 healthy subjects

The basal and postprandial serum gastrin concentrations (SGC) were compared between 151 duodenal ulcer (DU) patients and 41 non-dyspeptic volunteers. All DU patients had an eventful history and were submitted to us for surgery. The basal SGC was significantly higher in DU patients (40 +/- 30 vs 17 +/- 8 pg/ml). The peak post-prandial SGC was also significantly higher (123 +/- 83 vs 52 +/- 28 pg/ml) and the integrated gastrin output twice as high as in healthy subjects (5311 +/- 3879 vs 2554 +/- 1995 pg/ml x min; P less than 0.01). A statistically significant linear correlation for fasting and maximal postprandial SGC was found. No statistically significant interrelation between gastrin and acid parameters existed. In the DU patients no differences in SGC were found according to age. Fifteen patients complained of nonalimentary vomiting as part of their ulcer symptoms. They had significantly higher SGC although no differences in acid secretion were found. No significant differences in gastrin or acids were related to ulcer complications.     

Carbohydrate metabolism in thyrotoxicosis: studies on insulin secretion before and after remission from the hyperthyroid state.

The effects of thyrotoxicosis on insulin secretion were studied in 11 patients with Graves' disease and compared with the results obtained in 6 of the patients after they had attained clinical remission. Constant glucose infusion (CGI) and acute tolbutamide infusion (AIT) tests were chosen to investigate beta-cell function. For similar means of fasting plasma glucose, basal plasma insulin mean was significantly higher during thyrotoxicosis. During AIT, mean peak insulin was obtained earlier in the hyperthyroid state (2 min) than after remission (4 min), being its level higher in the hyperthyroid state. During CGI, early insulin responses to similar plasma glucose increments, were comparable for both hyper and euthyroid subjects. After 10 minutes of CGI, insulin concentrations in the hyperthyroid state did not increase as in the euthyroid state in spite of comparable increments of plasma glucose, being similar plateau insulin levels attained thereafter. These results suggest the presence of an insulin-resistant state in hyperthyroidism which may either disappear during a chronic glucose infusion and/or be accompanied by a deficient late glucose-induced insulin release.     

帕罗西汀对慢性萎缩性胃炎患者血清胃泌素和胃动素水平的影响

目的:探讨帕罗西汀对慢性萎缩性胃炎患者血清胃泌素和胃动素水平的影响及临床意义。方法:选取我院收治的80例慢性萎缩性胃炎患者,根据治疗方案不同分为常规组及试验组。常规组采用奥美拉唑治疗,试验组采用帕罗西汀治疗,观察并比较两组患者治疗前后血清胃酸度、总酸排出量、复发率、胃动素及胃泌素水平的变化情况。结果:与治疗前比较,两组患者治疗后胃酸及总酸排出量均升高,胃动素及胃泌素水平均降低,且试验组患者胃酸及总酸排出量明显高于常规组,胃动素及胃泌素水平明显低于常规组,差异均具有统计学意义(P0.05)。治疗后,试验组复发率为7.5%(3/40),常规组复发率为30.0%(12/40),试验组复发率明显低于常规组,差异具有统计学意义(P0.05)。结论:帕罗西汀可促进慢性萎缩性胃炎患者血清胃泌素及胃动素水平的改善,可作为临床治疗慢性萎缩性胃炎的有效方案。     

Plasma obestatin levels in men with chronic atrophic gastritis

Obestatin is a recently discovered active peptide isolated from the stomach. The purpose of the present study was to investigate the modification of plasma obestatin levels in men with chronic atrophic gastritis. Men older than 65 years undergoing upper gastrointestinal endoscopy were included. All patients with chronic atrophic gastritis underwent multiple biopsies. Fasting plasma obestatin and ghrelin levels were examined in 50 men with chronic atrophic gastritis and 50 healthy men. Plasma obestatin levels were significantly lower in patients with chronic atrophic gastritis than in healthy subjects. Plasma ghrelin levels and ghrelin to obestatin ratio was decreased in men with chronic atrophic gastritis. There was a significant relationship between atrophy and decreased obestatin. A negative correlation was found between circulating obestatin levels and body mass index (BMI) in healthy subjects, but not in patients with chronic atrophic gastritis. The data indicated that chronic atrophic gastritis influenced plasma obestatin levels as well as ghrelin to obestatin ratio in elderly men.     

Failure of exogenous insulin to inhibit insulin secretion in man

In order to explore whether or not the negative feedback mechanism of insulin per se on insulin secretion exists in man, changes in plasma C-peptide immunoreactivity (CPR), as an index of pancreatic B cells secretory function, were studied in 6 nonobese healthy volunteers in the presence of high circulating levels of exogenous insulin. 10% glucose was infused concurrently so as to maintain blood sugar at the basal level. The insulin-glucose infusion was maintained for 120 minutes, achieving mean plasma levels of 140-180 mu1/ml. After this period, the insulin infusion was continued at the same rate for an additional 10 minutes while the glucose was omitted. Despite the elevated level of circulating insulin, no significant change in plasma CPR concentration was observed so long as the blood sugar was maintained at the basal levels. Following cessation of the glucose infusion, the plasma CPR levels declined with a decrease in blood sugar level. Under the conditions of the present study, no inhibitory effect of exogenous insulin on the secretory function of the B cells was noticed.     

Antidiabetic action of somatostatin after oral glucose loading: due to suppression of glucagon and growth hormone or of intestinal carbohydrate absorption?

To elucidate the mechanism by which somatostatin lowers blood glucose concentration and insulin requirement following carbohydrate ingestion in insulin dependent diabetic patients (IDDM; n = 6), the amount of insulin required for the assimilation of a 50 g glucose load was determined by means of an automated glucose-controlled insulin infusion system with and without concomitant somatostatin infusion. During the 3 hour period following glucose loading plasma concentrations of glucagon and growth hormone were diminished by somatostatin, as were the rise in blood glucose and insulin requirement (4.0 +/- 1.2 U) when compared with the control study (11.3 +/- 1.5 U; p less than 0.01). With cessation of somatostatin blood glucose levels and insulin requirement rose during the following 2 hour observation period (7.5 +/- 1.2 U) but remained basal during the control study (0.7 +/- 0.6 U; p less than 0.0005). Thus the integrated amounts of insulin required for glucose hormone were temporarily suppressed by somatostatin. It is concluded that the diminished insulin requirement and delayed rise in blood glucose during somatostatin administration after an oral glucose load is not due to its "antidiabetic" action by suppressing glucagon and growth hormone release. Our findings favour inhibition of intestinal carbohydrate absorption as the determining cause for the "antidiabetic" action of somatostatin.     

Circadian Rhythm of Gastric Acid Secretion in Active Duodenal Ulcer: Chronobiological Statistical Characteristics and Comparison of Acid Secretory and Plasma Gastrin Patterns with Healthy Subjects and Post-Vagotomy and Pyloroplasty Patients

Twenty-one male patients with active duodenal ulcer underwent hourly 24-hr gastric acid collections under controlled, calorically deprived conditions. The 24-hr hourly acid secretory output for the group displayed a statistically significant (p < 0.001) rhythm, with peak rates occurring during the evening hours and low rates during the early morning hours, by population-mean cosinor statistical analysis. Population-mean cosinor analysis also verified the occurrence of a significant (p=0.034) circadian rhythm in unstimulated acid secretion in a group (N=14) of healthy male subjects similarly studied and reported previously. In contrast, population-mean cosinor analysis confirmed the absence of any detectable circadian rhythm in unstimulated acid secretion in a group (N=17) of post-vagotomy and pyloroplasty patients studied 2-11 years after surgery. Population-mean cosinor analysis of 4-hr plasma gastrin determinations, obtained in all groups during the 24-hr gastric acid collection, revealed an absence of any detectable circadian rhythm in plasma gastrin. This latter finding is compatible with the interpretation that the circadian rhythm of unstimulated gastric acid secretion, observed in the clinically healthy and active ulcer groups, is unrelated to changes in plasma gastrin levels. The employment of quantitative chronobiological inferential statistical techniques is important to the analysis of any time-dependent measurement in gastrointestinal function, of which gastric acidity is one example.     

Serum concentration of prolactin, gastrin and glycocholic acid in patient with peptic ulcer treated with ranitidine

In 66 patients with peptic ulcer (11 with gastric ulcer, 55 with duodenal ulcer, 19 women, 47 men) the serum concentrations of prolactin, dehydrocholic acid and gastrin were determined. The studies were repeated after treatment with ranitidine: in 50 patients after three weeks and in 40 patients after another 30 days. During the first period ranitidine 2 x 150 mg was administered, while during the second period the dose was 1 x 150 mg. The results were compared with those obtained from 120 healthy subjects. Before starting the treatment prolactin levels were significantly higher than those in the control group. During the treatment a significant decrease of the levels was observed. Similar changes of prolactin concentrations were found in the group of 39 men with duodenal ulcer isolated from the studied patients, who were compared with a group of 50 healthy men. It was not found that the development of peptic ulcer and the treatment with ranitidine exerted and effect on the changes of gastrin and dehydrocholic acid concentrations.     

Circadian rhythm of gastric acid secretion in active duodenal ulcer: chronobiological statistical characteristics and comparison of acid secretory and plasma gastrin patterns with healthy subjects and postvagotomy and pyloroplasty patients

Twenty-one male patients with active duodenal ulcer underwent hourly 24-hr gastric acid collections under controlled, calorically deprived conditions. The 24-hr hourly acid secretory output for the group displayed a statistically significant (p less than 0.001) rhythm, with peak rates occurring during the evening hours and low rates during the early morning hours, by population-mean cosinor statistical analysis. Population-mean cosinor analysis also verified the occurrence of a significant (p = 0.034) circadian rhythm in unstimulated acid secretion in a group (N = 14) of healthy male subjects similarly studied and reported previously. In contrast, population-mean cosinor analysis confirmed the absence of any detectable circadian rhythm in unstimulated acid secretion in a group (N = 17) of postvagotomy and pyloroplasty patients studied 2-11 years after surgery. Population-mean cosinor analysis of 4-hr plasma gastrin determinations, obtained in all groups during the 24-hr gastric acid collection, revealed an absence of any detectable circadian rhythm in plasma gastrin. This latter finding is compatible with the interpretation that the circadian rhythm of unstimulated gastric acid secretion, observed in the clinically healthy and active ulcer groups, is unrelated to changes in plasma gastrin levels. The employment of quantitative chronobiological inferential statistical techniques is important to the analysis of any time-dependent measurement in gastrointestinal function, of which gastric acidity is one example.     

Carbohydrate intolerance in gonadal dysgenesis: evidence for insulin resistance and hyperglucagonemia

To determine the pathogenesis of carbohydrate intolerance associated with gonadal dysgenesis, plasma glucose, insulin, glucagon, and growth hormone responses to oral glucose and intravenous tolbutamide, arginine and insulin were evaluated in 21 nonobese patients, 7-19 years old. Glucose intolerance was present in 9 of 21 nonobese patients (42.8%). Insulin levels, the area under the insulin curve after oral glucose and intravenous tolbutamide and the insulin to glucose ratio were significantly greater in patients than in controls (p less than 0.005). The decrease in plasma glucose following intravenous tolbutamide was significantly less in patients than in controls (p less than 0.05) despite insulin levels which were greater than in controls (p less than 0.05). After intravenous insulin, plasma glucose fell significantly less in patients than in controls (p less than 0.01). Plasma glucagon levels and the area under the glucagon curve after oral glucose and arginine infusion were significantly greater in patients than in controls (p less than 0.005 and p less than 0.01, respectively). The increase in glucagon after insulin-induced hypoglycemia was significantly less in patients than in controls (p less than 0.025). Fasting and stimulated growth hormone levels and the mean 24-hour growth hormone concentration were similar in patients and controls. These results indicate that glucose intolerance occurs frequently in gonadal dysgenesis and is associated with normal or increased insulin secretory responses. These abnormalities are probably due to insulin resistance and hyperglucagonemia. The decrease in insulin action does not appear to result from excessive growth hormone secretion or treatment with anabolic steroids or estrogen-progesterone medications.     

Zinc and copper in the serum of diabetic patients

The Zn/Cu ratio was examined in the serum of three groups of persons: healthy volunteers, diabetic patients on diabetic diet (NIDDM), and diabetic patients on diabetic diet and insulin (IDDM). Zinc, copper, the Zn/Cu serum ratio, and the blood glucose level were determined during fasting and 2 h after breakfast. Zn and Cu serum levels in NIDDM and IDDM patients were decreased. The Zn/Cu ratio was higher in both groups of diabetic patients. These changes in the Zn and Cu levels as well as in the Zn/Cu ratio were not related to chronic diabetic complications.     

Exogenous somatostatin raises plasma insulin levels in patients with insulin-dependent diabetes mellitus

The effect of cyclic somatostatin on circulating insulin levels was studied in eight patients with insulin-dependent diabetes mellitus (IDDM). The study was performed after an overnight fast when their subcutaneous depots of insulin had been depleted during i.v. insulin substitution for 18 hours. A constant rate i.v. insulin infusion (0.4 mU/kg/min) was given for 240 min and somatostatin was co-infused between 60-120 min (100 micrograms/h) and 180-240 min (250 micrograms/h) respectively. Plasma insulin, blood glucose and hematocrit were measured at 15 min intervals. Hematocrit fell from 41.7 to 38.3% during the study period. Somatostatin increased the plasma insulin levels, corrected for the changes of hematocrit, by approximately 8% in the low dose (P less than 0.05) as well as in the high dose (P less than 0.05) period. It is concluded that somatostatin interferes with the clearance of insulin thereby increasing the circulating plasma insulin levels in IDDM patients without residual insulin secretion.     

Pre-exposure to glucagon impairs glucose recovery after insulin-induced hypoglycemia in man

The effect of a two hour period of hypo- and hyperglucagonemia on a subsequent insulin-induced hypoglycemia was studied in nine healthy volunteers. Hypoglucagonemia was provoked by somatostatin (50 micrograms/h) and hyperglucagonemia by glucagon infusion (3.25 ng/kg/min) together with somatostatin, while saline alone was given as control. Hypoglycemia was induced by insulin infusion (2.4 U/h) for two hours. The hyperglycemic effect of glucagon was transient and similar nadir glucose levels were obtained in the three experiments. Preinfusion with glucagon impaired glucose recovery in spite of preserved secretion of epinephrine during restitution of blood glucose in this experiment. It is concluded, that a period of elevated glucagon levels deteriorates the restitution of blood glucose following hypoglycemia. Hyperglucagonemia, commonly apparent in poorly controlled diabetics, may therefore be of importance in explaining the impaired recovery of blood glucose seen in such patients after hypoglycemia.     

Physiological effects of enteral and parenteral feeding on pancreaticobiliary secretion in humans

In the nutritional management of digestive disorders, it is important to know the relative secretory and metabolic responses to enteral and parenteral feeding. Twenty-seven healthy volunteers were studied while receiving either oral drinks or duodenal infusions of a complex formula diet, duodenal or intravenous infusions of elemental (protein as free amino acids, low fat) formulae, or saline. Pancreaticobiliary secretory responses were measured by nasoduodenal polyethylene glycol perfusion and aspiration, while monitoring blood hormone and nutrient levels. Diets were matched for protein (1.5 g x kg(-1) x d(-1)) and energy (40 kcal x kg(-1) x d(-1)). Compared with placebo, all oroenteral diets stimulated amylase, lipase, trypsin, and bile acid secretion and increased plasma concentrations of gastrin and cholecystokinin, whereas intravenous feeding did not. The complex formula produced a similar response whether given as drinks or duodenal infusions. Changing the duodenal formula to elemental reduced enzyme secretion by 50%, independently of CCK. Higher increases in plasma insulin, glucose, and amino acids were noted with intravenous feeding. Delivering food directly to the intestine by a feeding tube does not reduce pancreaticobiliary secretion. Enteral "elemental" formulae diminish, but only intravenous feeding avoids pancreatic stimulation. Intravenous administration impairs metabolic clearance.     

Rapid effects of insulin and glucose on the hepatic incorporation of gluconeogenic substrates into glyceride glycerol and glycogen

1. The hepatic utilization of gluconeogenic substrates was investigated shortly after portal infusion of either insulin or glucose in fasted rats. 2. After 20 min of insulin infusion blood glucose concentration decreased. However, neither glucose generation from precursors such as alanine or pyruvate nor their incorporation into fatty acids was modified. Under these conditions, insulin rapidly increased the incorporation of gluconeogenic substrates into the hepatic glyceride glycerol fraction. Insulin treatment led to a decrease in substrate incorporation into liver glycogen. 3. After 20 min of portal glucose infusion both plasma insulin and glucose concentrations increased and the incorporation of pyruvate into hepatic glyceride glycerol and into glycogen was also stimulated. 4. A close relationship was observed between blood glucose concentrations and the level of incorporation of gluconeogenic substrates into liver glycogen. 5. In conclusion, during fasting insulin stimulates the incorporation of gluconeogenic substrates into the glycerol moiety of hepatic glycerides, which may be the preferential mechanism through which fatty acid esterification is accomplished during refeeding. This effect of insulin is rapid and detected even before other classical modifications induced by the hormone such as gluconeogenesis inhibition or lipogenesis activation. Furthermore, the effect is not related to insulin-induced hypoglycemia since glucose infusion mimics insulin action on glyceride glycerol synthesis.     

Endogenous opiate modulators of insulin secretion in the obese

The effects of endogenous opiates on insulin response to oral glucose load were studied in obese subjects and in lean healthy volunteers. None of these having a family diabetes. After 3 days on an 1,800 cal./m2, 40% carbohydrate diet all subjects underwent two standard 75 g oral glucose tolerance tests (OGTT), one of which was accompanied by an i. v. administration of 10 mg of, an antagonist of opiates, the naloxone. In one group of obese impaired oral glucose tolerance test occurred. All obese, but not the lean healthy volunteers, showed: 1) increased basal plasma insulin levels, 2) higher insulin response to OGTT, 3) a decrease in insulin response to OGTT after naloxone administration, with significant differences at 60 min (p less than 0.01) and 90 min (p less than 0.025). In none of the subjects significant differences were observed in blood glucose levels after OGTT plus naloxone administration. These data suggest that increased endogenous opiates may affect insulin response to glucose in obese with impaired or normal oral glucose tolerance test. At present there seems to be no satisfactory explanation for unchanged blood glucose levels during OGTT with and without naloxone despite a decrease in insulin secretion in the obese patients.     

Influence of insulin infusion kinetics of an artificial beta cell on blood glucose control in insulin-dependent diabetics.

The influence of different control modes for insulin infusion with an artificial beta cell was examined in 41 insulin-dependent diabetics. In 21 Patients, oral glucose tolerance tests were performed with control modes characterized either by low dynamic and high static gain (type I, 10 patients) or high dynamic and low static gain (type III, 11 patients). The change from type I to type III control mode effected an increase of initial insulin infusion rates (91 +/- 59 to 313 +/- 81 mU/min 10-20 min after glucose ingestion) and a decrease of infusion rates during the following phase of the 3-hour observation period (28.2 +/- 4.2 to 18.1 +/- 2.8 U) in patients whose blood glucose curves were completely normalized. Suppression of plasma glucagon levels, observed in 5 healthy control subjects, was not fully restored to normal in these patients. In another 20 insulin-dependent diabetics, daily insulin requirements form the artificial beta cell were determined by employing two control modes (types II and III) comparable in static control but different in dynamic control. Gain of dynamic control, especially in the range of falling glucose levels, was higher in type III control mode (15 patients) than in type II mode (5 patients). These insulin requirements were compared to the insulin doses necessary for subcutaneous treatment. While intravenous insulin requirements were much higher when type II control mode was employed (78.2 +/- 10.2%), during application of type III mode, intravenous insulin requirements were only 10.8 +/- 5.5% higher than subcutaneous doses. We conclude from these data that early increases in insulin infusion rates followed by a rapid decrease seem to reduce insulin requirements after glucose ingestion. A high-gain dynamic control is the basis for this insulin infusion profile.