Turnover of the fatty acid and glycerol moieties of acylglycerols and phosphoglycerides during development of Ceratitis capitata

• 1.1. Labelling of free fatty acids, diacylglycerols, triacylglycerols, phosphatidylethanolamine, phosphatidylcholine and their lysoderivatives was followed during the development of Ceratitis capitata after feeding larvae with mixtures of either (³H)glycerol and (¹⁴C)palmitate or (³H)glycerol and (¹⁴C)linoleate. Both, specific activity and dpm/individual were plotted vs the time of development.
• 2.2. Palmitate and linoleate moieties of the diacylglycerol fraction had two exponential components with a similar initial rapid decay component. The turnover times corresponding to the slow decay components were different for both acids in the free form and acylating diacylglycerols.
• 3.3. Triacylglycerols exhibited a monophasic behaviour with different half-life values for either palmitate or linoleate.
• 4.4. Palmitate and linoleate show different turnover in the phosphoglycerides phosphatidylethanolamine and phosphatidylcholine. Palmitate exhibited a monophasic decay curve whereas linoleate exhibited a biphasic decay for both phospholipid classes.

     

Fetal lung metabolism: Response to maternal fasting

• 1.1. Fetal lung metabolic response to maternal fasting late in gestation was investigated.
• 2.2. Maternal fasting 4 days before term was associated with low fetal plasma glucose and insulin levels but increased levels of fetal plasma glucagon, glycerol, lactate and fatty acids.
• 3.3. Fetuses from fasted mothers showed a significant decrease in body weight (30%), lung weight (30%) and lung glycogen (46%), but no change in lung protein, phospholipid or total lung DNA, suggesting that lung size is affected more than maturation.
• 4.4. Fetal lung slices incubated in vitro showed that lactate oxidation to CO₂ equalled that of glucose in control fetal lungs and was unaffected by maternal fasting, while glucose oxidation was depressed (23%).
• 5.5. Maternal fasting significantly decreased in vitro incorporation of [U-¹⁴C]-glucose, [U-¹⁴C]lactate and [1-¹⁴C]palmitate into lung phospholipids.
• 6.6. Fetal lungs from fasted mothers showed increased conversion of lactate to glucose, indicating gluconeogenic potential by fetal lung.
• 7.7. These studies show that plasma lactate serves as an important energy fuel and substrate for lipid synthesis for the fetal lung, and maternal fasting markedly alters fetal lung metabolism.

     

Dose-dependent incorporation of orally infused [1-14C]oleic acid into the lipid classes of midgut,haemolymph and fat body of dragonfly larvae (Aeshna cyanea)

• 1.1. Five different doses of radioactive oleic acid (ranging from 1.87 nmoles to 5.61 μmoles) were administered to Aeshna cyanea larvae.
• 2.2. Its incorporation into the midgut epithelium, haemolymph and fat body increased with the dose and time.
• 3.3. Low doses caused up to 95% phospholipid labelling in the midgut wall, while labelled triacylglycerol was less than 1%, but increased with the doses to a maximum of 68%. The data favour the glycerophosphate pathway of oleic acid esterification.
• 4.4. At low doses oleic acid was mainly released into the haemolymph from the midgut phospholipid pool, and at high doses from the triacylglycerol pool.
• 5.5. Diacylglycerol was the most heavily labelled lipid class of the haemolymph, amounting up to 98% and slightly decreasing with time.
• 6.6. The fat body showed a dose- and time-dependent increase in labelled phospholipid and triacyl-glycerol, maximally amounting to 14 and 90%, respectively.

     

On the synthesis and incorporation of catalase and urate oxidase into the peroxisomes of mouse liver

• 1.1. The processes associated with the biogenesis of peroxisomes in mouse liver have been studied by following the incorporation of radiolabelled leucine into major enzymic components of this organelle.
• 2.2. Maximal incorporation of label into peroxisomal catalase and urate oxidase occurred within 2 hr, with the urate oxidase being labelled before catalase, but subsequent to the incorporation of phospholipid into this organelle.
• 3.3. Subsequently, immunoprecipitation of catalase from the large granular fraction of mouse liver was shown to result in the isolation of a catalase molecule which had lost a peptide of approx. 2000 dalton from each subunit by comparison with the newly-synthesized enzyme.
• 4.4. It was observed that the modification of catalase was obviated by the presence of leupeptin and iodoacetamide and this information has enabled the purification of both modified and unmodified forms of the enzyme.
• 5.5. The possible significance of these data has been discussed and the major features incorporated into a working model of peroxisomal biogenesis.

     

The effects of insulin and hyperglycemia on surfactant phospholipid synthesis in organotypic cultures of type II pneumocytes

Organotypic cultures of fetal type II epithelial cells were incubated in media containing insulin at concentrations ranging from 10 to 400 microunits/ml. Exposure to insulin resulted in increased glucose uptake from the media and in the rate of glucose conversion to CO2. Furthermore, both glucose uptake and CO2 production were dependent on the glucose concentration in the media. Surfactant and residual phosphatidylcholine fractions were isolated from the organotypic cultures by sucrose density centrifugation. The presence of low doses of insulin (10-25 microunits/ml) caused a significant increase in the incorporation of glucose into both surfactant and residual phosphatidylcholine. Insulin at levels of 100 microunits/ml or higher resulted in a significant decrease in glucose incorporation into both phosphatidylcholine fractions. Increasing the media glucose concentration from 5.6 to 20 mM caused a 2- to 2.5-fold increase in glucose utilization for surfactant and residual phospholipid synthesis, but did not produce any significant changes in choline incorporation into either surfactant or residual phosphatidylcholine. The addition of 400 microunits/ml of insulin to media containing 20 mM glucose, however, resulted in a 20% decrease in choline incorporation into surfactant phosphatidylcholine but had no effect on choline incorporation into residual phosphatidylcholine. These results suggest that insulin is an important hormone regulating fetal lung maturation and that hyperinsulinemia may be responsible for the delayed lung development in infants of diabetic mothers.     

Changes in the phospholipid composition and in fatty acids of phosphatidylcholine and phosphatidylethanolamine of various tissues of the developing tadpole of Agalychnis dacnicolor

• 1.1. Lipid changes occur in the developing tadpole of A. dacnicolor. The phosphatidylcholine content of liver and tail decrease during metamorphosis.
• 2.2. In liver, the fatty acids of phosphatidylcholine and phosphatidylethanolamine become more unsaturated.
• 3.3. In skin, phosphatidylcholine becomes more unsaturated and phosphatidylethanolamine becomes more saturated.
• 4.4. In tail, phosphatidylcholine becomes more saturated and phosphatidylethanolamine shows no change.
• 5.5. Triglycerides become more unsaturated in skin but become more saturated in tail.

     

Altering erythrocyte membrane composition with phospholipid exchange protein

• 1.1. In establishing a protocol for the use of a phospholipid (PL) 2 exchange protein (PLEP) preparation to incorporate fluorescent lipids into membrane fragments, the potential for the PLEP preparation to alter membrane composition was investigated.
• 2.2. Cholesterol was removed from erythrocyte ghosts and PL content was increased after incubation of the membranes with phosphatidylcholine (PC) vesicles and a nonspecific bovine liver PLEP preparation.
• 3.3. The elevated PL/cholesterol ratio of the ghosts decreased fluorescence polarization of diphenylhexatriene (DPH), indicating an increased average membrane fluidity.
• 4.4. The increased PL/cholesterol ratio and reduced DPH fluorescence polarization were prevented by including cholesterol in the PC vesicles during the initial incubation of ghosts with PLEP preparation and lipid.
• 5.5. In addition, the PC content of ghost membranes was elevated after incubation with PLEP preparation and either PC or mixed PC-cholesterol vesicles.

     

Properties and topology of enzymes methylating phosphatidylethanolamine to phosphatidylcholine in sarcoplasmic reticulum

• 1.1. The synthesis of phosphatidylcholine (PC) by stepwise methylation of phosphatidylethanolamine (PE) is carried out by two enzymes in sarcoplasmic reticulum (SR) membrane of rabbit fast-twitch skeletal muscles.
• 2.2. Two methyltransferases (Met I and Met II) have a different pH optimum and affinity for methyl donor—5-adenosyl-L-methionine (SAM).
• 3.3. Met I is an integral SR membrane protein which active site faces the cytoplasmic surface of the membrane.
• 4.4. Met II is a peripheral, loosely bound protein, localized mainly on the extracytoplasmic (luminal) part of the SR membrane.

     

Investigation of phycocyanin-membrane interaction: Promotion of membrane interactions

• 1.1. In a continuing investigation of phycocyanin-membrane surface interaction, fluorescence quenching experiments were performed with a mixture of two populations of fluorescence probe-encapsulated phospholipid bilayer vesicles in the presence and absence of phycocyanin.
• 2.2. These membrane vesicles were prepared with 1,2-dimyristoyl phosphatidylcholine (DMPC), cholesterol and a probe molecule.
• 3.3. A fluorophore was encapsulated in one population of membrane vesicles, while a quencher was encapsulated in another population of membrane vesicles.
• 4.4. The result was compared with those of experiments in the presence of other biomolecules, including albumin, cytochrome c, hemoglobin, myoglobin or RNA.
• 5.5. Interestingly, a one-third reduction of the fluorescence intensity was observed in the mixture of these two populations of membrane vesicles in phycocyanin's presence.
• 6.6. In contrast, the other biomolecules caused no significant reduction in the fluorescence intensity.
• 7.7. These findings were evidence of a phycocyanin-induced membrane perturbation.
• 8.8. This was further demonstrated by a phycocyanin-induced change in the thermotropic behavior of DMPC vesicles, as measured by differential scanning microcalorimetry.
• 9.9. Such a unique property of phycocyanin is believed to be associated with its known membrane surface-interacting character.
• 10.10. A possible phycocyanin-modulated membrane-membrane interaction was discussed.

     

Aerobic glucose disposal in the oyster: An in vivo kinetic analysis

• 1.1. Aerobic glucose disposal in starved oysters exposed to 1 mM external glucose was 2.29 μg C/g wet wt/min.
• 2.2. It was hypothesized that the maximum disposal rate is limited by the maximum rate of transepithelial glucose transport.
• 3.3. The major recipients of glucose-carbon were glycogen and amino acids. 4. The rate of glucose-carbon disposal to these two pools was 0.80 and 0.42 μg C/g/min, respectively.
• 4.5. The internal energy state determines the pathways of glucose disposal.
• 5.6. Disposal of glucose-carbon in “glucose-primed” oysters is primarily into glycogen.
• 6.7. In fasted bivalves the disposal is primarily into amino acids and carboxylic acids.
• 7.8. The uptake of dissolved glucose has the potential of contributing significantly to growth under conditions where the external glucose concentration is kept artificially high.

     

Plasma membrane: Can its structure and function be modulated by dietary fat?

• 1.1. Compositional analysis of plasma membranes from rats fed nutritionally adequate diets different in fatty acid composition establishes that fundamentally different dietary fat intake results in alteration in structural lipid composition of plasma membranes in brain, liver and the intestinal mucosa.
• 2.2. Dietary differences in fatty acid intake altered the fatty acyl tail composition of plasma membrane phospholipids in brain, liver and intestinal mucosa.
• 3.3. Diet altered the phospholipid profile observed in brain synaptosomal and liver plasma membrane.
• 4.4. Feeding high vs low polyunsaturated to saturated fat diets for 7 days altered the fatty acid composition of phosphatidylcholine, phosphatidylethanolamine, sphingomyelin and mono-glucosylceramide isolated from plasma membrane of the intestinal mucosa

     

Differential vitamin and choline requirements of symbiotic and aposymbiotic s. oryzae (coleoptera: curculionidae)

• 1.1. Development times, fertilities and weights of symbiotic and aposymbiotic strains of the rice weevil Sitophilus oryzae in response to single omissions of seven vitamins and choline were studied.
• 2.2. No strict requirement for choline could be demonstrated: development times and weights were comparable to diets with or without choline, but the presence of choline increased fertility of the symbiotic strain on vitamin-deficient diets.
• 3.3. The 0.02% concentration used in these experiments may be too high since it resulted in a lower fertility of the aposymbiotic strain.
• 4.4. The results indicated that niacin could be synthesized by the weevils.
• 5.5. Thiamine, folic acid and pyridoxine were found to be required in the diet of both strains but the latter two may be supplied in part by symbiotes since a first symbiotic generation was obtained.
• 6.6. Pantothenic acid, biotin and riboflavin were only required by aposymbiotic weevils: their omission from the diet did not modify the development of symbiotic insects.
• 7.7. It is therefore suggested that these three vitamins are supplied by symbiotes.

     

Intracellular transport,organelle biogenesis and establishment of golgi identity: Impact of brefeldin a on the activity of lipid synthesizing enzymes

• 1.1. The effect of brefeldin A (BFA) on generation of transport vesicles, synthesis of phospho-glycerides, sphingosine and ceramides, and utilization of the sphingolipid precursors in the formation of sphingomyelin and glycosphingolipids in Golgi was investigated.
• 2.2. In the presence of 5–10 gmg/ml BFA, the incorporation of [³H]palmitate into glycerides, phosphoglycerides and sphingolipids decreased 45–60%, and the production of endoplasmic reticulum transport vesicles was reduced 30–50%.
• 3.3. In Golgi membranes, the presence of 5–10 gmg/ml BFA in the mixture, assembled to generate Golgi vesicles, evoked inhibitory effect on the synthesis of sphingomyelin, glycosphingolipids and phosphatidylcholine. On average, the synthesis of the sphingolipids and phosphatidylcholine and production of Golgi transport vesicles declined to 30–40%.
• 4.4. Addition of 5–10 gmg/ml BFA to the assay mixture prepared to measure the activity of cytidylyltransferase, phosphocholine diacylglyceroltransferase, and serine palmitoyltransferase, caused up to 50% inhibition of the enzymes involved in the synthesis of phosphatidylcholine and up to 70% inhibition of the enzyme generating 3-ketosphinganine.
• 5.5. The results suggest that BFA inhibits the synthesis of phosphoglycerides and sphingolipids. This, at first, is displayed in reduced production of endoplasmic reticulum and Golgi transport vesicles, while the depletion of sphingolipids abrogates the identity of Golgi membranes.

     

Temporal Proteomic Analysis of Pancreatic β-Cells in Response to Lipotoxicity and Glucolipotoxicity

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Highlights

• •Temporal proteome profiling of lipotoxicity and glucolipotoxicity in β-cells
• •Palmitate induced cholesterol metabolism earlier than fatty acid metabolism
• •Setd8 promotes palmitate + glucose-stimulated INS-1 cell proliferation
• •PA induced apoptosis partially via upregulation of Rhob in INS-1 cells

     

Biochemical aspects of Balanus hameri haemolymph,together with some comparative haemolymph data for Balanus balanus and Lepas anatifera

• 1.1. The concentration of protein in the haemolymph of Balanus hameri ranged from 2.0 to 17.3 mg/ml, and the lipid from 1.4 to 7.7 mg/ml; the haemolymph protein and lipid levels increased significantly prior to cross-fertilization.
• 2.2. The protein and lipid concentrations in Balanus balanus haemolymph were 8.1 and 1.7 mg/ml respectively.
• 3.3. The lipid concentration of Lepas anatifera haemolymph was 1.2 mg/ml.
• 4.4. The neutral lipid and phospholipid components of B. hameri and L. anatifera haemolymph were the same, with the major components of the phospholipid fraction being phosphatidyl ethanolamine and phosphatidyl choline.
• 5.5. The osmolarity (970.4 mOsm), chloride ion concentration (501.3 m-eq/l) and pH (7.29) of B. hameri haemolymph were also determined.

     

Effects of protein synthesis inhibitors on A- and L-site amino acid incorporation by bullfrog tadpole liver and tail fin cells

• 1.1. Cycloheximide and puromycin inhibited leucine transport and incorporation into isolated bullfrog tadpole tail and hepatic cells.
• 2.2. However, high concentrations of these 2 inhibitors did not affect alanine incorporation appreciably in either tissue.
• 3.3. NEM and DNP inhibited leucine and alanine incorporation in both cell types, but at different concentrations.
• 4.4. NEM stimulated leucine transport only in hepatocytes; alanine transport was inhibited by NEM in tail fin cells.
• 5.5. The results suggest different mechanisms of transport and protein synthesis for the 2 types of amino acids by tadpole liver and tail fin cells.

     

Water diffusion,ion transport and lipid composition of the skin of Rana cyanophlyctis Schneider under osmotic stress

• 1.1. Analysis of the total lipid content (TL), components of the neutral lipid fraction (NLF), phospholipid fraction (PLF), recordings of electrical potential differences and diffusional permeability were carried out in the skin of the aquatic frog Rana cyanophlyctis subjected to in vivo salt stress (0.9 sodium chloride) for different durations (0, 1, 3 and 7 days).
• 2.2. A general decrease of skin TL and of components of the NEE and PEE was observed.
• 3.3. Stoichiometric ratios for skin PLF components under initial salt stress of different durations reveal an increase of the ratios of sphingomyelin and phosphatidyl choline after osmotic stress.
• 4.4. The diffusional permeability of water increased following exposure to salt stress of I, 3 and 7 days duration.
• 5.5. The transepithelial potential difference measured in vitro after a salt stress of 3 days was considerably higher than the controls.

     

Net glucose production from acetone in isolated murine hepatocytes. The effect of different pretreatments of mice

• 1.1. To evaluate the condition under which net glucose production from acetone, added as sole substrate, occurs different pretreatments of mice, in combination with starvation, were used; (i) acetone pretreatment (acetone is a known inducer of cytochrome P-450 isozymes involved in this pathway), (ii) fructose pretreatment (to induce NADPH + H⁺ generating enzymes) or (iii) their combination.
• 2.2. There was net glucose formation from acetone only in that case, when the cells were prepared from 48 hr fasted animals pretreated with both acetone and fructose. However, using 2-¹⁴C-acetone, incorporation of ¹⁴C-carbon into glucose could be detected in all the cases and, at the same time, acetone was without any effect on protein synthesis.
• 3.3. The addition of acetone increased gluconeogenesis from alanine in almost all the cases. The only exception from this general rule was that the case, when hepatocytes were prepared from acetone pretreated 48 hr starved mice where, instead of the elevation of glucose formation, a decrease of that was caused by acetone.
• 4.4. Acetone decreased ¹⁴C-carbon incorporation into glucose from ¹⁴C-(U)-alanine added at saturating concentration in hepatocytes prepared from starved mice.
• 5.5. Similarly to acetone there was no net glucose formation from acetol either when added alone, however, it enhanced gluconeogenesis from alanine at non-saturating concentrations of the amino acid.
• 6.6. Methylglyoxal proved gluconeogenic in all the cases.
• 7.7. It is concluded that net glucose formation from acetone as sole substrate occurs only under those conditions which are far from a physiological situation, however, when gluconeogenesis from another substrate takes place, acetone can contribute to net glucose formation in hepatocytes prepared from fasted mice.

     

Effects of exercise training and anabolic steroids on plantaris and soleus phospholipids: A 31P nuclear magnetic resonance study

• 1.1. The purpose of this study was to examine the effect of exercise, anabolic steroid treatment, and a combination of both treatments on the phospholipid composition of predominantly fast twitch (plantaris) and slow twitch (soleus) skeletal muscles. The 4 experimental groups analyzed were sedentary control (C), steroid-treated (S), exercise-trained (E), and exercise plus steroid-treated (ES).
• 2.2. Among the 11 phospholipids quantitated, for the plantaris muscle, phosphatidylcholine was reduced in ES relative to C, while phosphatidylethanolamine and phosphatidylethanolamine plasmalogen were elevated in E and ES relative to C. For the soleus muscle, phosphatidylserine was reduced in S and E relative to C, and cardiolipin was elevated in E relative to C.
• 3.3. Of the 27 metabolic indices calculated for the plantaris, 15 changed significantly among E and ES relative to S and C, while for the soleus, only three indices changed among the four groups, two among E and ES relative to S and C and one between S and C.
• 4.4. For the plantaris muscle, the results are consistent with an exercise-induced alteration of membrane phospholipid composition that increases ion translocation activity. For the soleus muscle, this membrane alteration essentially does not take place.
• 5.5. Steroid treatment had little to no statistically significant effect on plantaris and soleus muscle phospholipid systems, regardless of the imposed regimen.

     

Phospholipid requirement for fatty acid desaturase activity in microsomes of Ceratitis capitata

• 1.1. Lipids from purified microsomal preparations of Ceratitis capitata have 72.4% of phospholipids and their participation in the fatty acid desaturase activity has been examined.
• 2.2. Treatment of microsomal preparations with phospholipase C decreased notably the enzyme activity than can be restored by adding phosphatidylcholine.
• 3.3. These data suggest that phosphatidylcholine derives from the immediate lipid environment of the microsomal desaturase.