Metabolic interactions between glucose, glycerol, alanine and acetate in Leishmania braziliensis panamensis promastigotes

13C-nuclear magnetic resonance (NMR) spectroscopy was used to investigate the products of glycerol and acetate metabolism released by Leishmania braziliensis panamensis promastigotes and also to examine the interaction of each of these substrates with glucose or alanine. The NMR data were supplemented by measurements of the rates of oxygen consumption and substrate utilization, and of 14CO2 production from 14C-labeled substrate. Cells incubated with [2-13C]glycerol released acetate, succinate and D-lactate in addition to CO2. Cells incubated with acetate released only CO2. More succinate C-2/C-3 than C-1/C-4 was released from both [2-13C]glycerol and [2-13C]glucose, indicating that succinate was formed predominantly by CO2 fixation followed by reverse flux through part of the Krebs cycle. Some redistribution of the position of labeling was also seen in alanine and pyruvate, suggesting cycling through pyruvate/oxaloacetate/phosphoenolpyruvate. Cells incubated with combinations of 2 substrates consumed oxygen at the same rate as cells incubated with 1 or no substrate, even though the total substrate utilization had increased. When promastigotes were incubated with both glycerol and glucose, the rate of glucose consumption was unchanged but glycerol consumption decreased about 50%, and the rate of 14CO2 production from [1,(3)-14C]glycerol decreased about 60%. Alanine did not affect the rates of consumption of glucose or glycerol, but decreased 14CO2 production from these substrates by increasing flow of label into alanine. Although glucose decreased alanine consumption by 70%, it increased the rate of 14CO2 production from [U-14C]- and [l-14C]alanine by about 20%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Metabolic Interactions Between Glucose, Glycerol, Alanine and Acetate in Leishmania braziliensis panamensis Promastigotes

¹³C-nuciear magnetic resonance (NMR) spectroscopy was used to investigate the products of glycerol and acetate metabolism released by Leishmania braziliensis panamensis promastigotes and also to examine the interaction of each of these substrates with glucose or alanine. The NMR data were supplemented by measurements of the rates of oxygen consumption and substrate utilization, and of ¹⁴CO₂ production from ¹⁴C-labeIed substrate. Cells incubated with [2-¹³C]glycerol released acetate, succinate and D-lactate in addition to CO₂. Cells incubated with acetate released only CO₂. More succinate C-2/C-3 than C-l/C-4 was released from both [2-¹³C]glycerol and [2-¹³C]glucose, indicating that succinate was formed predominantly by CO₂ fixation followed by reverse flux through part of the Krebs cycle. Some redistribution of the position of labeling was also seen in alanine and pyruvate, suggesting cycling through pyruvate/oxaloacetate/phosphoenolpyruvate. Cells incubated with combinations of 2 substrates consumed oxygen at the same rate as cells incubated with 1 or no substrate, even though the total substrate utilization had increased. When promastigotes were incubated with both glycerol and glucose, the rate of glucose consumption was unchanged but glycerol consumption decreased about 50%, and the rate of ¹⁴CO₂ production from [l,(3)-¹⁴C]glycerol decreased about 60%. Alanine did not affect the rates of consumption of glucose or glycerol, but decreased ¹⁴CO₂ production from these substrates by increasing flow of label into alanine. Although glucose decreased alanine consumption by 70%, it increased the rate of ¹⁴CO₂ production from [U-¹⁴C]- and [l-¹⁴C]alanine by about 20%. This is consistent with rapid equilibration of alanine with pyruvate derived from glucose and yet little decrease in the specific activity of the large alanine pool.     

Effect of epinephrine on the synthesis of glyceride glycerol in adipose tissue in vitro.

In order to study the effect of epinephrine on the rate of esterification of fatty acids in adipose tissue, pieces of epididymal fat pad were incubated in KRB in the presence of purified albumin, glucose and either 1-14C-glycerol, 1-14C-glucose or 6-14C-glucose. Epinephrine enhances the production of glycerol but reduces the uptake of 1-14C-glycerol by the tissue and its conversion to 14CO2, 14C-fatty acids and 14C-glyceride glycerol. When the change in specific activity of the tracer is taken into account the effect of epinephrine on the utilization of glycerol by the tissue is only observed in the reduction of glyceride glycerol synthesis. When 14C-labelled glucose was used as tracer, epinephrine enhances both the production of 14CO2 from 6-14C-glucose and the synthesis of 14C-glyceride glycerol from 1-14C and 6-14C-glucose. The contrasting effects of epinephrine on the glyceride glycerol formation from glycerol and from glucose can explain the difficulties found in observing any change in the net rate of esterification of fatty acids by adipose tissue.     

Metabolism of pyruvate by isolated rat mesenteric lymphocytes, lymphocyte mitochondria and isolated mouse macrophages.

1. The activities of pyruvate dehydrogenase in rat lymphocytes and mouse macrophages are much lower than those of the key enzymes of glycolysis and glutaminolysis. However, the rates of utilization of pyruvate (at 2 mM), from the incubation medium, are not markedly lower than the rate of utilization of glucose by incubated lymphocytes or that of glutamine by incubated macrophages. This suggests that the low rate of oxidation of pyruvate produced from either glucose or glutamine in these cells is due to the high capacity of lactate dehydrogenase, which competes with pyruvate dehydrogenase for pyruvate. 2. Incubation of either macrophages or lymphocytes with dichloroacetate had no effect on the activity of subsequently isolated pyruvate dehydrogenase; incubation of mitochondria isolated from lymphocytes with dichloroacetate had no effect on the rate of conversion of [1-14C]pyruvate into 14CO2, and the double-reciprocal plot of [1-14C]pyruvate concentration against rate of 14CO2 production was linear. In contrast, ADP or an uncoupling agent increased the rate of 14CO2 production from [1-14C]pyruvate by isolated lymphocyte mitochondria. These data suggest either that pyruvate dehydrogenase is primarily in the a form or that pyruvate dehydrogenase in these cells is not controlled by an interconversion cycle, but by end-product inhibition by NADH and/or acetyl-CoA. 3. The rate of conversion of [3-14C]pyruvate into CO2 was about 15% of that from [1-14C]pyruvate in isolated lymphocytes, but was only 1% in isolated lymphocyte mitochondria. The inhibitor of mitochondrial pyruvate transport, alpha-cyano-4-hydroxycinnamate, inhibited both [1-14C]- and [3-14C]-pyruvate conversion into 14CO2 to the same extent, and by more than 80%. 4. Incubations of rat lymphocytes with concanavalin A had no effect on the rate of conversion of [1-14C]pyruvate into 14CO2, but increased the rate of conversion of [3-14C]pyruvate into 14CO2 by about 50%. This suggests that this mitogen causes a stimulation of the activity of pyruvate carboxylase.     

Estimation of the pentose cycle in the perfused cow''s udder

1. The distributions of (14)C have been compared in the glucose and galactose moieties of lactose obtained from cows' udders perfused with blood containing [1-(14)C]-, [2-(14)C]- and [6-(14)C]-glucose. The (14)C of the glucose moiety was found in the same position as that of the administered glucose, but in the galactose moiety the (14)C from [2-(14)C]glucose was extensively randomized into positions 1 and 3. It is concluded that the glucose moiety arose from free glucose and the galactose moiety from hexose phosphate intermediates and that the latter reflected the randomization occurring through reactions of the pentose cycle. 2. The proportion of the glucose metabolized via the pentose cycle for those cells making lactose was estimated from the distribution of (14)C in the galactose moiety and found to be about 23% in one experiment and 30% in another experiment. 3. The yield and distribution of (14)C were determined in the glycerol of fat from the tissue in experiments with [2-(14)C]- and [6-(14)C]-glucose. There was a greater randomization of (14)C in the glycerol than in C-1, C-2 and C-3 of the galactose moiety of lactose. The ratio of the yield of (14)C in the glycerol from [2-(14)C]glucose to that of [6-(14)C]glucose was very low and from this ratio it was calculated that less than 10% of the glucose was metabolized by the Embden-Meyerhof pathway and approx. 60-70% was converted into lactose. 4. [6-(14)C]Glucose and [6-(3)H]glucose were used to determine whether the (3)H at the C-6 position remained stable during its conversion into glyceride of fat from the tissue. Twenty-seven per cent of the (3)H was labilized during this conversion. Therefore it was not possible to use [2-(14)C]glucose and [6-(3)H]glucose in a single experiment to measure the relative conversion of the C-2 and C-6 positions of glucose to glycerol.     

大肠杆菌甘油激酶基因(glpK)和甘油脱氢酶基因(gldA)的敲除及其对甘油产量的影响

利用Red重组系统构建了大肠杆菌JM109甘油激酶基因(glpK)和甘油脱氢酶基因(gldA)缺失的双突变菌株JM109B,然后将表达酿酒酵母3-磷酸甘油脱氢酶基因(GPD1)和3-磷酸甘油酯酶基因(HOR2)的质粒pSE-gpd1-hor2转化到JM109B突变菌株中,在含1%葡萄糖的摇瓶发酵培养基中37℃发酵24 h,甘油的最高产量为5.61 g/L,是原始菌株JM109/pSE-gpd1-hor2甘油产量的1.59倍;在30 L发酵罐中发酵28 h,甘油的最高产量为103.12 g/L,是原始菌株JM109/pSE-gpd1-hor2甘油产量的1.59倍,是原始菌株BL21/pSE-gpd1-hor2甘油产量的1.41倍,葡萄糖转化率为50.39%。     

Competition of glycerol with other oxidizable substrates in rat brain.

The rate of conversion of [1,3-14C]glycerol into 14CO2 was measured in the presence and absence of unlabelled alternative substrates in whole homogenates from the brains of young (4-6 and 18-20 days old) and adult rats. Unlabelled glucose decreased 14CO2 production from [1,3-14C]glycerol by about 40% at all ages studied. Unlabelled 3-hydroxybutyrate significantly decreased the 14CO2 production from both low (0.2 mM) and high (2.0 mM) concentrations of glycerol in 4-6- and 18-20-day-old rat pups. However, the addition of 3-hydroxybutyrate had no effect on the rate of 14CO2 production from 2.0 mM-glycerol in adult rats, suggesting that the interaction of 3-hydroxybutyrate with glycerol in adult rat brain is complex and may be related to the biphasic kinetics previously reported for glycerol oxidation. Unlabelled glutamine decreased the production of 14CO2 by brain homogenates from 18-20-day-old and adult rats, but not in 4-6-day-old rat pups. In the converse situation, the addition of unlabelled glycerol to whole brain homogenates had little effect on the rate of 14CO2 production from [6-14C]glucose, 3-hydroxy[3-14C]butyrate and [U-14C]glutamine, although some significant differences were noted. Collectively these results suggest that glycerol and these other substrates may be metabolized in separate subcellular compartments in brain such that the products of glucose, 3-hydroxybutyrate and glutamine metabolism can dilute the oxidation of glycerol, but the converse cannot occur. The data also demonstrate that there are complex age-related changes in the interaction of glycerol with 3-hydroxybutyrate and glutamine. The fact that glycerol oxidation was only partially suppressed by the addition of 1-5 mM-glucose, -3-hydroxybutyrate or -glutamine could also suggest that glycerol may be selectively utilized as an energy substrate in some discrete brain region.     

The fate of labelled glucose molecules in the rat adipocyte. Dependence on glucose concentration

Isolated rat adipocytes were incubated with 15 nM [3-3H]glucose or 100 nM [U-14C]glucose with or without insulin and in the absence or presence of unlabelled glucose. Following a 2 h incubation with 15 nM [3-3H]glucose, about two thirds of the cell-associated 3H-labelled metabolic products were hydrophilic largely anionic intermediates and about one third was lipids. The equivalent values were 40 and 60%, respectively, when using 100 nM [U-14C]glucose. The only 14C-labelled metabolite escaping to the incubation medium was 14CO2, which accounted for about 15% of the rate of metabolism. Therefore, the rate of incorporation of 100 nM [U-14C]glucose into the cell-associated metabolites was quite a good measure of its net influx rate. The conversion of the two tracers to the sum of the metabolic products in cells treated with a maximally stimulating insulin concentration remained constant with glucose concentrations up to about 100 microM and then decreased progressively. The incorporation of radioactivity into the different metabolites varied markedly over the glucose concentration range 0-100 microM, presumably due to the saturation of different metabolic pools at different glucose concentrations. This variation was much less in cells not stimulated with insulin. Consequently, the maximal effect of insulin on the incorporation of the tracers into a given metabolite (e.g., labelled lipids) varied over the entire glucose concentration range. In addition, the apparent sensitivity (ED50) with respect to the incorporation into a given metabolite was also dependent on the glucose concentration.     

酿酒酵母gpd1和hor2基因在大肠杆菌中的共表达

利用途径工程的方法,在大肠杆菌中构建一条新的产甘油的代谢途径。从酿酒酵母(Saccharomyces cerevisiae)克隆3-磷酸甘油脱氢酶基因(gpd1)和3-磷酸甘油酯酶基因(hor2),并将两个基因串连到启动子trc的下游,构建由trc启动子控制的能高效表达的多顺反子重组质粒pSE-gpd1-hor2,将重组质粒导入大肠杆菌BL21菌株中,构建得到的重组菌株GxB-gh能将葡萄糖转化为甘油。结果表明重组菌株GxB-gh以葡萄糖为底物进行发酵,甘油产量为46．67g／L,葡萄糖的转化率为42.87％。这为利用工程菌绿色生产甘油进行了前期的探索,也为进一步构建能生产1,3-丙二醇的工程菌打下了良好的基础。     

Effect of PGE1 on gluconeogenesis and glycerol esterification in perfused liver of fasted rats

Using perfused livers of rats fasted for 48 hours, glucose production and incorporation of 2-¹⁴C pyruvate (trace dose) into perfusate glucose were studied. Both were found to be inhibited by PGE₁ (infused at a concentration of 0.5 μg/min) by about 60 %. The incorporation of 1-¹⁴C glycerol into perfusate glucose and into glycerol-glyceride part of the liver glycerides were also studied, using the same test conditions. The former incorporation was significantly inhibited (56%) and the latter strongly stimulated (360 %) by PGE₁. PGE₁ had no effect on glucose production in a perfusate overloaded with sodium pyruvate, nor on pyruvate carboxylase and phospho-enolpyruvate carboxykinase activity. This was in contrast with the results obtained in perfusions with a trace dose of 2-¹⁴C pyruvate. The results showed that PGE₁, at the physiological concentration used, stimulated the incorporation of 1-¹⁴C glycerol into glycerol-glyceride part of liver glycerides and, when there was no overload of pyruvate present in the perfusion medium, inhibited gluconeogenesis at some point, possibly, but perhaps not exclusively, between the glycerol and glucose steps.     

Ketone body utilization for energy production and lipid synthesis in isolated rat brain capillaries

Isolated brain capillaries from 2-month-old rats were incubated for 2 h in the presence of [3-14C]acetoacetate, D-3-hydroxy[3-14C]butyrate, [U-14C]glucose, [1-14C]acetate or [1-14C]butyrate. Labelled CO2 was collected as an index of oxidative metabolism and incorporation of label precursors into lipids was determined. The rate of CO2 production from glucose was slightly higher than from the other substrates. Interestingly, acetoacetate was oxidized at nearly the same rate as glucose. This shows that ketone bodies could be used as a source of energy by brain capillaries. Radiolabelled substrates were also used for the synthesis of lipids, which was suppressed by the addition of albumin. The incorporation of [U-14C]glucose in total lipids was 10-times higher than that from other precursors. However, glucose labelled almost exclusively the glycerol backbone of phospholipids, especially of phosphatidylcholine. Ketone bodies as well as glucose were incorporated mainly into phospholipids, whereas acetate and butyrate were mainly incorporated into neutral lipids. The contribution to fatty acid synthesis of various substrates was in the following order: butyrate greater than or equal to acetate greater than ketone bodies greater than or equal to glucose. All precursors except glucose were used for sterol synthesis. Glucose produced almost exclusively the glycerol backbone of phospholipids.     

The fate of [14C]glucose during cold-hardening in Eurosta solidaginis (Fitch)

Glucose catabolism in overwintering larvae Eurosta solidaginis was examined to determine the relative contributions of glycolysis and the pentose phosphate pathway to polyol synthesis at different temperatures. Rates of ¹⁴CO₂ evolution were determined after injection of [¹⁴C]1-glucose, [¹⁴C]6-glucose, and [¹⁴C]3,4-glucose. In addition incorporation of label from each isotope into sorbitol and glycerol was monitored. The respirometric studies showed a relative increase in pentose phosphate activity between 10 and 5°C. Similar results were obtained from the changes of radioactivities incorporated into glycerol, although the activation of the pentose phosphate pathway was low. The conversion of [¹⁴C]glucose to glycerol was highest at 10°C, suggesting that maximum glycerol synthesis may occur at this temperature. Radioactivity appeared in the sorbitol fraction of larvae incubated at temperatures below 5°C. Late autumn larvae converted more [¹⁴C]glucose than did early autumn larvae.     

Incorporation of D-[3-3H, U-14C] glucose into glycerolipid via acyl dihydroxyacetone phosphate untransformed and viral-transformed BHK-21-c13 fibroblasts.

Untransformed BHK-21-c13 fibroblasts as well as 4 polyoma-transformed strains were incubated with D-[U-14C,3-3H]glucose. This substrate generates intracellular labeled glycerol, and also [4-3H]NADPH via the phosphogluconate oxidative pathway. The latter selectively transfers hydrogen to C-2 of glycerol in glycerolipid via the acyl dihydroxyacetone phosphate pathway. After incubation, the distribution of radioactivity and the ratios of 3H/14C at the three positions of recovered glycerol were determined in sn-glycerol 3-phosphate, saponifiable glycerolipids, alkyl ether glycerolipids, and plasmalogens. In each of the cell types examined, 3H in the sn-1 position of glycerol in the recovered ether-containing glycerolipids was negligible, yet this position contained most of the recovered 3H in sn-glycerol 3-phosphate and saponifiable glycerolipids. The 3H/14C ratio in position 2 of glycerol, measured at various incubation times, was from 5- to 200-fold greater in the saponifiable glycerolipids than in free sn-glycerol 3-phosphate. The ratio in position 2 of ether-containing glycerolipids was the same or greater than that in the saponifiable glycerolipids in all of the cell types employed. A similar pattern in the 3H/14C ratio was observed when BHK-21-c13 cells were incubated with D-[U-14C,1-3H]glucose. These observations demonstrate significant participation of the acyl dihydroxyacetone phosphate pathway in glycerolipid synthesis in BHK cells.     

Effect of PGE1 on gluconeogenesis and glycerol esterification in perfused liver of fasted rats.

Using perfused livers of rats fasted for 48 hours, glucose production and incoroporation of 2-14C pyruvate (trace dose) into perfusate glucose were studied. Both were found to be inhibited by PGE1 (infuced at a concentration of 0.5 mu/min) by about 60%. The incorporation of 1-14C glycerol into perfusate glucose and into glycerol-glyceride part of the liver glycerides were also studied, using the same test conditions. The former incorporation was significantly inhibited (56%) and the latter strongly stimulated (360 %) by PGE1. PGE1 had no effect on glucose production in a perfusate overloaded with sodium pyruvate, nor on pyruvate carboxylase and phospho-enolpyruvate carboxykinase activity. this was in contrast with the results obtained in perfusions with a trace dose of 2-14C pyruvate. The results showed that PGE1, at the physiological concentration used, stimulated the incorporation of 1-14C glycerol into glycerol-glyceride part of liver glycerides and, when there was no overload of pyruvate present in the perfusion medium, inhibited gluconeogensis at some point, possibly, but perhaps not exclusively, between the glycerol and glucose steps.     

Evidence for the presence of a pool of glycerides with a rapid rate of turnover in brown fat from newborn rabbits

1. The specific radioactivity of [(14)C]glycerol released during the incubation of brown fat with [(14)C]glucose is much greater than that of the tissue lipid glycerol. 2. From a study of the release of [(14)C]glycerol from pre-labelled brown fat, it is concluded that the tissue contains a pool of glycerides with a higher rate of turnover than those in the main lipid store. 3. This pool contains newly synthesized glycerides, has a half-life of 25-30min and supplies about 25% of the glycerol liberated by brown fat. 4. Thus, a significant fraction of the total (14)C incorporated from glucose into brown-fat lipids is released as [(14)C]glycerol during an incubation.     

Glycolytic end products of the adult dog heartworm, Dirofilaria immitis.

1. Adult dog heartworms remained alive and motile for 24 hr without oxygen present and with only glucose available as a substrate. 2. Lactate accounted for 55% of the carbon from the 1-14C-glucose utilized in 1 hr and 14CO2 for 1.9%. 3. Only traces of 14C were found in glycogen and no net accumulation of acetate was demonstrated. 4. Dirofilaria immitis resembles Litomosoides carinii in the percent of utilized glucose appearing as lactate but is more akin to Brugia pahangi and Dipetalonema viteae in survival under anaerobic conditions and in negligible acetate production.     

The effect of glucose, insulin and adrenaline on glycerol metabolism in vitro in rat adipose tissue.

The uptake and utilization of [1-14C]glycerol was determined in pieces of rat epididymal fat-pads incubated in Krebs--Ringer bicarbonate buffer containing albumin. Insulin (200 muunits/ml), adrenaline (epinephrine; 0.5 mug/ml) and glucose (0, 5, 15 and 20 mM) were added to the medium. Changes in the specific radioactivity of the tracer during the incubation were taken into account in calculating the rate of glycerol utilization. Adrenaline decreased glycerol uptake, whereas insulin plus adrenaline increased it. The rate of incorporation of glycerol into glycerides was decreased by adrenaline and insulin, singly or together. Insulin increased the rate of formation of CO2 and fatty acids from glycerol. The formation of CO2 and fatty acids was further enhanced by insulin plus adrenaline. The decrease in glycerol uptake induced by adrenaline, the decrease in incorporation of glycerol into glycerides induced by insulin and insulin plus adrenaline and the synthesis of fatty acids were dependent on the presence of glucose in the medium. Thus insulin and adrenaline act on glycerol utilization in adipose tissue and some of their effects are mediated by action on glucose metabolism, but others are independent of this.     

Lipid synthesis in the adult dog heartworm, Dirofilaria immitis.

1. Incorporation studies with three labelled substrates--[14C]2-glycerol, [14C]1-acetate and [14C]1-oleic acid--demonstrated that adult dog heartworms can synthesize all classes of complex lipids present, including free cholesterol. 2. Diacylglycerols and phosphoglycerides were most rapidly labelled regardless of the precursor employed. 3. 14C from glycerol was found in the aqueous phase of saponified lipids, whereas that from oleic acid was in the fatty acid portion. 4. Tag from acetate was predominantly in the fatty acid portion of saponified lipids and also occurred in the unesterified fatty acids. 5. Acetate and unesterified fatty acids, as represented by oleic acid, were more readily used for lipid synthesis than was glycerol.     

Invitro glycerol metabolism in adipose tissue from fasted pregnant rats

Lumbar fat pad pieces taken from fed and 48 h starved 19-day pregnant rats and virgin controls were incubated for different times with [U-¹⁴C] glycerol, albumin and glucose. The glycerol conversion rates to either CO₂, saponified lipids and glyceride glycerol were higher in the pregnant rat tissue than in the controls. Starvation produces a greater decline in these parameters in pregnant rat tissue than in controls. The lipolysis rate was elevated in pregnant rat tissue. The augmented glycerol utilization by adipose tissue in the mother would contribute to the net deposition of fat, despite augmented lipolysis. In the starved state the enhanced lipolysis of the mother is potenciated by a decreased reutilization of glycerol, allowing a maximal net mobilization of the fat stores.     

The fate of labelled glucose molecules in the rat adipocyte: Dependence on glucose concentration

Isolated rat adipocytes were incubated with 15 nM [3-³H]glucose or 100 nM [U-¹⁴C]glucose with or without insulin and in the absence or presence of unlabelled glucose. Following a 2 h incubation with 15 nM [3-³H]glucose, about two thirds of the cell-associated ³H-labelled metabolic products were hydrophilic largely anionic intermediates and about one third was lipids. The equivalent values were 40 and 60%, respectively, when using 100 nM [U-¹⁴C]glucose. The only ¹⁴C-labelled metabolite escaping to the incubation medium was ¹⁴CO₂, which accounted for about 15% of the rate of metabolism. Therefore, the rate of incorporation of 100 nM [U-¹⁴C]glucose into the cell-associated metabolites was quite a good measure of its net influx rate. The conversion of the two tracers to the sum of the metabolic products in cells treated with a maximally stimulating insulin concentration remained constant with glucose concentrations up to about 100 μM and then decreased progressively. The incorporation of radioactivity into the different metabolites varied markedly over the glucose concentration range 0–100 μM, presumably due to the saturation of different metabolic pools at different glucose concentrations. This variation was much less in cells not stimulated with insulin. Consequently, the maximal effect of insulin on the incorporation of the tracers into a given metabolite (e.g., labelled lipids) varied over the entire glucose concentration range. In addition, the apparent sensitivity (ED₅₀) with respect to the incorporation into a given metabolite was also dependent on the glucose concentration.