Effects of feeding state on glycaemic and insulinaemic responses to a starchy meal in horses: a methodological approach

A standardised methodology is required for classification of starchy diets. One important question is what feeding status is optimal to describe glycaemic and insulinaemic responses to the respective starchy diet. Four horses were fed, in a randomised order, four different feeding protocols relative to offering hay before or after cracked corn (CC): (i) ad libitum hay for 12 h before feeding CC and ad libitum hay after CC intake for 9 h (+CC+), (ii) ad libitum hay for 12 h before feeding CC and no hay after CC intake for 9 h (+CC-), (iii) feed restriction for 12 h before feeding CC and ad libitum hay after CC intake for 9 h (-CC+) and (iv) 1.2 kg hay/100 kg body weight (BW) per day, divided into two equal portions and offered at 0900 h and 1900 h, feed restriction for 12 h before feeding CC and no hay after CC intake for 9 h (-CC-). CC intake was adjusted to a starch intake of 2 g/kg BW. The different hay offerings did not affect basal plasma glucose and insulin levels. A significant rise in plasma glucose and insulin was found after CC intake for all diets. The highest peak glucose levels were analysed for -CC+, and the lowest glucose peaks were found for +CC- (diet P < 0.05). The highest insulin peaks were monitored for -CC+ (31.27 ± 18.19 μU/ml) and lower peaks for +CC- (13.36 ± 2.93 μU/ml) (diet P < 0.05). Insulin for -CC- and +CC- returned to resting values about 300 min after CC feeding. For +CC+ and -CC+, insulin levels were still above resting levels 510 min after CC intake (diet P < 0.05). The present data suggest that feed restriction for 12 h before feeding the starchy diet and no further roughage intake during blood sampling period provide the best-defined conditions.     

Growth inhibition by glucose oxidase system of enterotoxic Escherichia coli and Salmonella derby: in vitro studies

The antibacterial effect of different glucose oxidase (GOX)/glucose combinations was studied on two food-poisoning organisms, enterotoxic Escherichia coli PM 015 and Salmonella derby BP 177. Growth of E. coli in nutrient broth (NB) was clearly inhibited by 4.0 mg/ml glucose after 24 h when combined with 2.0 U/ml GOX and after 48 h when combined with 0.5 or 1.0 U/ml GOX. Salmonella derby was more resistant than E. coli, but showed clear growth inhibition only after 48 h when inoculated in tubes where 2 mg glucose/ml and 2 U GOX/ml (or 4 mg glucose/ml and 1 U GOX/ml) were combined. In order to understand if the enzyme effect on microbial growth can be attributed to hydrogen peroxide or to pH decrease as a result of the production of gluconic acid, catalase (CAT) was added to GOX/glucose system. Since CAT decomposes H₂O₂ to H₂O and O₂, the antibacterial effect was ascribed to a pH decrease as a result of gluconic acid in the system.     

Production enhancement of Pseudomonas amyloderamosa isoamylase

Isoamylase production in batchwise and fed-batch cultures of Pseudomonas amyloderomosa (strain WU7211-2) was investigated. By feeding maltose in a mode motivated by its structure gene (iam), the final isoamylase activity of 5100 U/ml was achieved, as compared to 4100 U/ml in batch cultivation and 3800 U/ml in shaken flasks. The enhancement may be due to the fact that the production of isoamylase can be induced effectively by the maltose only if the glucose concentration is maintained below the inhibitory level. Also, cultivations based on 500-ml shaken flasks, performed with different amount of proteimax HE90, showed that higher amounts of proteimax HE90 resulted in an increased value of pH that had an adverse effect on isoamylase yield.The authors wish to thank the Food Industry Research and Development Institute (FIRDI), Taiwan, R.O.C for the financial support (Cooperative Agreement 94M904-2B). Appreciation is also extended to Drs. C.C. Liao, W.S. Chu and L.L. Lin of FIRDI for their valuable discussions.     

Enhancement of erythromycin A production with feeding available nitrogen sources in erythromycin biosynthesis phase

Effects of feeding different available nitrogen sources from 80 h in erythromycin biosynthesis phase on the erythromycin A (Er-A) production were investigated in 50 l fermenter. Feeding corn steep liquor and yeast extract, the Er-A production was enhanced, while the biotransformation from erythromycin C (Er-C) to Er-A had no increase. When ammonium sulphate was fed at high feeding rate, the maximal Er-A production and ratio of Er-A to Er-C were 7953 U/ml and 98.18:1 at 184 h, respectively, which were higher than that of the control (6742 U/ml and 5.47:1). The feeding ammonium sulphate process was successfully scaled up from 50 l to 25 m³ fermenter. The maximal Er-A production reached 7938 U/ml at 203 h, which was enhanced by 22.1% compared with the control (6501 U/ml at 192 h). The ratio of Er-A to Er-C was 24.05:1, which was higher than that of the control (4.77:1).     

Regulation of beta-1, 4-Glucosidase Expression by Candida wickerhamii

Candida wickerhamii NRRL Y-2563 expressed beta-glucosidase activity (3 to 8 U/ml) constitutively when grown aerobically in complex medium containing either glycerol, succinate, xylose, galactose, or cellobiose as the carbon source. The addition of a high concentration of glucose (>75 g/liter) repressed beta-glucosidase expression (<0.3 U/ml); however, this yeast did produce beta-glucosidase when the initial glucose concentration was 相似文献   

Enhanced production of cellulase usingAcidothermus cellulyticus in fed-batch culture

Summary Fed-batch fermentations of Acidothermus cellulolyticus utilizing mixtures of cellulose and sugars were investigated for potential improvements in cellulase enzyme production. In these fermentations, we combined cellulose from several sources with various simple sugars at selected concentrations. The best source of cellulose for cellulase production was found to be ball-milled Solka Floc at 15 g/l. Fed-batch fermentations with cellobiose and Solka Floc increased cell mass only slightly, but succeeded in significantly enhancing cellulase synthesis compared to batch conditions. Maximum cellulase activities obtained from fermentations initiated with 2.5 g cellobiose/l and 15 g Solka Floc/l were 0.187 units (U)/ml, achieved by continuous feeding to maintain <0.1 g cellobiose/l, and 0.215 U/ml using the same initial medium when 2.5 g cellobiose/l was step-fed after the sugar was nearly consumed. In batch, dual-substrate systems consisting of simple sugars with Solka Floc, substrate inhibition was evident in terms of specific growth rates, specific productivity values, and maximum enzyme yields. Limiting concentrations of glucose or sucrose at 5 g/l, and cellobiose at 2.5 g/l, in the presence of Solka Floc, yielded cellulase activities of 0.134, 0.159, and 0.164 U/ml, respectively. Offprint requests to: M. E. Himmel     

Improved production of an enzyme that hydrolyses raw yam starch by Penicillium sp. S-22 using fed-batch fermentation

A newly isolated strain, Penicillium sp. S-22, was used to produce an enzyme that hydrolyses raw yam starch [raw yam starch digesting enzyme (RYSDE)]. The enzyme activity and overall enzyme productivity were respectively 16 U/ml and 0.19 U/ml h in the batch culture. The enzyme activity increased to 85 U/ml by feeding of partially hydrolyzed raw yam starch. When a mixture containing partially hydrolyzed raw yam starch and peptone was fed by a pH-stat strategy, the enzyme activity reached 366 U/ml, 23-fold of that obtained in the batch culture, and the overall productivity reached 3.4 U/ml h, which was 18-fold of that in the batch culture.     

pH控制下绿色木霉（Trichoderma viride）流加发酵生产纤维素酶

绿色木霉（Trichodermaviride）在pH控制发酵条件下,采用流加葡萄糖发酵策略,可显著提高综合滤纸酶活力（FPA）和内切酶（endo—β—1,4-glucanase,EG）、外切酶exo—β-1,4-glucanase,CBH）、纤维二糖酶（cellobiase,CB）酶活。在5L发酵罐中采用pH控制和流加葡萄糖工艺,可提高CB酶含量,改变酶组分之间的比例,使得FPA、EG、CB和CBH酶活分别达到50．0U／mL,210．0U／mL,4．0U／mL和2．5U／mL,比摇瓶发酵分别提高了6．7．4．2、19、2．5倍。     

Optimization of the extracellular production of a bacterial phytase with Escherichia coli by using different fed-batch fermentation strategies

The extracellular production of Escherichia coli phytase was studied in fed-batch fermentations. Two different feeding strategies were compared: control by keeping the glucose concentration constant, and control by keeping a low constant oxygen level in the medium. For the feeding control based on glucose concentration, a recently developed rapid glucose controlling system was tested for the first time in bacterial cultivations and used to establish the fermentative production of extracellular phytase with E. coli. High activity levels (120 U ml(-1)) at short cultivation times (14 h) were obtained. Even higher activity levels - albeit at longer cultivation times - were reached by applying a feeding control, the main characteristic of which was a constant low oxygen concentration. The optimum oxygen level for the production of phytase was in the range of 5-10% saturation.     

Regulation of β-1, 4-Glucosidase Expression by Candida wickerhamii

Candida wickerhamii NRRL Y-2563 expressed β-glucosidase activity (3 to 8 U/ml) constitutively when grown aerobically in complex medium containing either glycerol, succinate, xylose, galactose, or cellobiose as the carbon source. The addition of a high concentration of glucose (>75 g/liter) repressed β-glucosidase expression (<0.3 U/ml); however, this yeast did produce β-glucosidase when the initial glucose concentration was ≤50 g/liter. When grown aerobically in medium containing glucose plus the above-listed carbon sources, diauxic utilization of the carbon source was observed and the expression of β-glucosidase was glucose repressed. Surprisingly, glucose repression did not occur when the cells were grown anaerobically. When grown anaerobically in medium containing 100 g of glucose per liter, C. wickerhamii produced 6 to 9 U of enzyme per ml and did not demonstrate diauxic utilization of glucose-cellobiose mixtures. To our knowledge, this is the first report of apparent derepression of a glucose-repressed enzyme by anaerobiosis.     

Severe hypoglycaemia due to combined use of parenteral nutrition and renal dialysis.

A 24-year-old woman who had sustained serious injuries in a road traffic accident required renal dialysis daily and was fed intravenously with a solution containing 25% dextrose. Subsequently insulin had to be added to the parenteral fluid to maintain blood glucose concentrations at physiological values. On one occasion parenteral feeding was continued until dialysis was started; she became comatose and the plasma glucose concentration was found to be less than 1 mmol/l (18 mg/100 ml). She responded rapidly to a 50 ml intravenous bolus of 50% dextrose. When parenteral feeding and dialysis are used simultaneously glucose passes across the semi-permeable membrane from the blood to the dialysate so that hypoglycaemia may occur. Insulin added to the parenteral fluid further decreases blood glucose concentrations. Stopping parenteral feeding 30-45 minutes before dialysis is started eliminates this danger of hypoglycaemia.     

Effects of method of preservation on functions of livers from fed and fasted rabbits

Livers from fed, fasted (48 h) and glucose-fed rabbits were preserved for 24 and 48 h by either simple cold storage (CS) or continuous machine perfusion (MP) with the University of Wisconsin preservation solutions. After preservation liver functions were measured by isolated perfusion of the liver (at 37 degrees C) for 2 h. Fasting caused an 85% reduction in the concentration of glycogen in the liver but no change in ATP or glutathione. Glucose feeding suppressed the loss of glycogen (39% loss). After 24 h preservation by CS livers from fed or fasted animals were similar including bile production (6.2 +/- 0.5 and 5.6 +/- 0.4 ml/2 h, 100 g, respectively), hepatocellular injury (LDH release = 965 +/- 100 and 1049 +/- 284 U/liter), and concentrations of ATP (1.17 +/- 0.15 and 1.18 +/- 0.04 mumol/g, glutathione (1.94 +/- 0.51 and 2.35 +/- 0.26 mumol/g, respectively), and K:Na ratio (6.7 +/- 1.0 and 7.7 +/- 0.5, respectively). After 48 h CS livers from fed animals were superior to livers from fasted animals including significantly more bile production (5.0 +/- 0.9 vs 2.0 +/- 0.3 ml/2 h, 100 g), less LDH release (1123 +/- 98 vs 3701 +/- 562 U/liter), higher concentration of ATP (0.50 +/- 0.16 vs 0.33 +/- 0.07 mumol/g) and glutathione (0.93 +/- 0.14 vs 0.30 +/- 0.13 mumol/g), and a larger K:Na ratio (7.4 vs 1.5). Livers from fed animals were also better preserved than livers from fasted animals when the method was machine perfusion. The decrease in liver functions in livers from fasted animals preserved for 48 h by CS or MP was prevented by feeding glucose. Glucose feeding increased bile formation after 48 h CS preservation from 2.0 +/- 0.3 (fasted) to 6.9 +/- 1.2 ml/2 h, 100 g; LDH release was reduced from 3701 +/- 562 (fasted) to 1450 +/- 154 U/liter; ATP was increased from 0.33 +/- 0.07 (fasted) to 1.63 +/- 0.18 mumol/g; glutathione was increased from 0.30 +/- 0.01 (fasted) to 2.17 +/- 0.30 mumol g; and K:Na ratio was increased from 1.5 +/- 0.9 to 5.3 +/- 1.0. This study shows that the nutritional status of the donor can affect the quality of liver preservation. The improvement in preservation by feeding rabbits only glucose suggests that glycogen is an important metabolite for successful liver preservation. Glycogen may be a source for ATP synthesis during the early period of reperfusion of preserved livers.     

Effects of medium-chain triglyceride feeding or glucose infusion on glucose kinetics in the newborn rat

Hypoglycaemia which develops in starved newborn rats (0.15 +/- 0.01 mg/ml) is reversed by feeding medium-chain triglycerides (0.66 +/- 0.05 mg/ml). Despite similar glycaemia (0.71 +/- 0.07 mg/ml) starved newborns infused with glucose (10.7 mg/min/kg) show a 30% higher glucose turnover rate than medium-chain triglyceride fed animals (14.1 +/- 0.6 versus 10.6 +/- 0.3 mg/min/kg, p less than 0.01). For a comparable [6-3H]glucose turnover rate (10.5 +/- 0.3 mg/min/kg), glucose-infused (5.25 mg/min/kg) newborns have a 30% lower glycaemia (0.50 +/- 0.03 mg/ml, p less than 0.01) than medium-chain triglyceride-fed newborns. Thus, medium chain triglyceride feeding leads to a 30% decreased capacity of the tissues to utilize glucose. For a similar glucose turnover rate, medium-chain triglyceride-fed newborns have a higher blood lactate concentration than glucose-infused newborns (0.26 +/- 0.03 versus 0.15 +/- 0.02 mg/ml). However, in medium-chain triglyceride-fed newborns, the increase of blood lactate is not only due to the Cori cycle, as glucose recycling is less increased than glucose production. Thus medium-chain triglyceride increases the release of gluconeogenic precursors which are not derived from blood glucose. In presence of a glucose infusion (15.25 mg/min/kg) producing hyperglycaemia (1.35 +/- 0.05 mg/ml), endogenous glucose production is suppressed by only 37%. If 3-mercaptopicolinate, an inhibitor or gluconeogenesis, is given concomitantly, hyperglycaemia is prevented (0.72 +/- 0.08 mg/ml) and endogenous glucose production is suppressed. Glucose infusion in the hypoglycaemic newborn rat might thus lead to a precarious glucose homeostasis.     

Heat shock restores insulin secretion after injury by nitric oxide by maintaining glucokinase activity in rat islets

Heat shock protein (hsp), including hsp70, has been reported to restore the glucose-induced insulin release suppressed by nitric oxide (NO). However, the mechanism underlying this recovery remains unclear. In the present study, we examine the effects, in rat islets, of heat shock on insulin secretion inhibited by a small amount of NO and also on glucose metabolism, the crucial factor in insulin release. Exposure to a higher dose (15 U/ml) of interleukin-1beta (IL-1beta) abolished the insulin release by stimulation of glucose or KCl in both control and heat shocked islets. In rat islets exposed to a lower dose (1.5 U/ml) of IL-1beta, insulin secretion in response to glucose, but not to glyceraldehydes (GA), ketoisocaproate (KIC), or KCl, was selectively impaired, concomitantly with lower ATP concentrations in the presence of 16.7 mM glucose, while such suppression of insulin secretion and ATP content was not observed in heat shock-treated islets. NO production in islets exposed to 1.5 U/ml IL-1beta was significantly, but only partly, decreased by heat shock treatment. The glucose utilization rate measurement using [5-3H]-glucose and [2-3H]-glucose and the glucokinase activity in vitro were reduced in islets treated with 1.5 U/ml IL-1beta. In heat shock-treated islets, glucose utilization and glucokinase activity were not affected by 1.5 U/ml IL-1beta. These data suggest that heat shock restores glucose-induced insulin release inhibited by NO by maintaining glucokinase activity and the glucose utilization rate in islets in addition to reducing endogenous NO production.     

Optimization of glucose feeding approaches for enhanced glucosamine and N-acetylglucosamine production by an engineered Escherichia coli

In this work, a recombinant Escherichia coli was constructed by overexpressing glucosamine (GlcN) synthase and GlcN-6-P N-acetyltransferase for highly efficient production of GlcN and N-acetylglucosamine (GlcNAc). For further enhancement of GlcN and GlcNAc production, the effects of different glucose feeding strategies including constant-rate feeding, interval feeding, and exponential feeding on GlcN and GlcNAc production were investigated. The results indicated that exponential feeding resulted in relatively high cell growth rate and low acetate formation rate, while constant feeding contributed to the highest specific GlcN and GlcNAc production rate. Based on this, a multistage glucose supply approach was proposed to enhance GlcN and GlcNAc production. In the first stage (0–2 h), batch culture with initial glucose concentration of 27 g/l was conducted, whereas the second culture stage (2–10 h) was performed with exponential feeding at μ _set = 0.20 h⁻¹, followed by feeding concentrated glucose (300 g/l) at constant rate of 32 ml/h in the third stage (10–16 h). With this time-variant glucose feeding strategy, the total GlcN and GlcNAc yield reached 69.66 g/l, which was enhanced by 1.59-fold in comparison with that of batch culture with the same total glucose concentration. The time-dependent glucose feeding approach developed here may be useful for production of other fine chemicals by recombinant E. coli.     

Increased production of extracellular laccase by the white rot fungus Coriolus versicolor MTCC 138

Summary The white rot fungus Coriolus versicolor MTCC 138 has been identified as an excellent producer of the industrially important enzyme laccase. The basal medium containing glucose gave laccase activity of 155 U/ml. Screening of different media components and their effects on laccase production by Coriolus versicolor was studied using one factor at a time and L₉ (3⁴) orthogonal array method. A two-fold increase (305 U/ml) in laccase production was observed using a combination of glucose and starch as carbon source and yeast extract as nitrogen source. This activity is very high as compared to most of the reported strains. Hence this strain was explored for enhancement in laccase. The formation of extracellular laccase could be considerably stimulated by the addition of copper in the optimized medium. Addition of 1 mM copper enhanced laccase activity to 460 U/ml. Laccase production was further enhanced using different aromatic inducers. Among different inducers used 2,5-xylidine was found to be the best, and gave maximum laccase activity of 820 U/ml with 1 mM concentration. Thus, this strain could be an efficient and attractive source for laccase production.     

胰岛素对β细胞胰岛素分泌的反馈影响

目的：探讨不同浓度外源性胰岛素在不同浓度葡萄糖情况下对β TC-3细胞胰岛素分泌的影响。方法：取对数生长期的13TC3细胞分三组,即低糖组、中糖组、高糖组（葡萄糖浓度分别取1．0mmol／L、3．Ommoi／L、20．Ommol／L）。每组分0、5、10、15、100、500、5000和50000μU／ml胰岛素八个亚组（其中0μU／ml作为对照组）。刺激10分钟后取上清液测C肽。结果：在高糖组中,C肽分泌量无明显差异;在中糖组中,10μU／ml和15μU／ml两组相对对照组C肽分泌量显著增加,50000μU／ml组C肽分泌量则相对对照组出现减少,其余3个亚组无明显改变;在低糖组中,c肽分泌量除5000μU／ml组减少外。其它亚组C肽分泌量无明显差畀。结论：胞外胰岛素在适宜葡萄糖浓度时,对BTC3细胞胰岛素分泌的反馈影响呈剂量依赖关系。     

Carbohydrate impairment and insulin secretory abnormalities among Macaca mulatta from Cayo Santiago

Rhesus macaques (Macaca mulatta) from Cayo Santiago were examined for evidence of carbohydrate intolerance indicative of potential development of non-insulin-dependent diabetes mellitus (NIDDM). Monkeys 6 to >20 years from natal Groups J, M, and P, an AGED Group (all >20 years), and unrelated monkeys removed from the island in association with other groups (CAYO), were examined with intravenous glucose tolerance tests (iv-GTT). Morphometric measurements were made on all tested monkeys. Impairments included fasting hyperglycemia (>115 mg/dl), impaired glucose clearance (K <2.0%/min), fasting hyperinsulinemia (>150 μU/ml) or hypoinsulinemia (<20 μU/ml), and insulin secretory abnormalities (>500 μU/ml or <75 μU/ml). Natal groups J and M had 31% with impairments, group P had 0% the AGED group had 45%, and the CAYO group had 33%. Impaired glucose clearance was usually attributable to a reduced insulin response. Impairments correlated significantly (p ? 0.05) to body weight and a modified Quetelet index, but not to sex, acute stress, or islet cell antibodies; the relationships to age could not be delineated in this survey. Impairements in monkeys are indicative of various stages in the asynchronous development of carbohydrate intolerance leading to NIDDM.     

Treatment of Severe Diabetes Mellitus by Insulin Infusion

A new and simple form of insulin therapy for diabetic hyperglycaemia and ketoacidosis has been developed using a continuous intravenous infusion of insulin at a rate of 2·4 U/hr to maintain serum insulin concentration at physiological levels. This rate raises the mean serum insulin to 83 μU/ml and has a therapeutic effect which is not augmented by higher infusion rates. The response to such low doses of insulin indicates a need for a reappraisal of currently held theories about insulin resistance in diabetic ketoacidosis. In 11 diabetic patients with a mean plasma glucose of 514 mg/100 ml this therapy produced continuous falls in plasma glucose at a mean rate of 75 mg/100 ml/hr, and 10 out of 11 patients recovered within eight hours. This form of therapy is simple to institute, not complicated by hypoglycaemia, and avoids the confusion and empiricism of previously described forms of therapy.