Insulin-like growth factor-I stimulates diacylglycerol production via multiple pathways in Balb/c 3T3 cells

We previously reported that insulin-like growth factor-I (IGF-I) induced sustained calcium cycling across the plasma membrane in primed competent Balb/c 3T3 cells (Kojima, I., Matsunaga, H., Kurokawa, K., Ogata, E., and Nishimoto, I. (1989) J. Biol. Chem. 263, 16561-16567). The present study was conducted to examine whether IGF-I affected cellular metabolism of 1,2-diacylglycerol (1,2-DAG). In primed competent cells prelabeled with [3H]myristate, 1 nM IGF-I caused a 50% increase in [3H]DAG within 10 min. This increase in [3H]DAG was accompanied by 1) a decrease in radioactivity in the glycosylphosphatidylinositol fraction in [3H]glucosamine-labeled cells and a concomitant increase in [3H]inositol-glycan, and 2) a decrease in [3H]phosphatidylcholine and a concomitant elevation of [3H]phosphorylcholine in [3H]choline-labeled cells. When [3H]choline-labeled cells were treated with 10 nM 12-O-tetradecanoylphorbol-4-acetate (TPA), [3H]phosphatidylcholine was reduced by 50%. The TPA-induced reduction of [3H]phosphatidylcholine was completely blocked by 50 microM sphingosine and 50 microM H-7, inhibitors of protein kinase C. Both sphingosine and H-7 attenuated IGF-I-mediated reduction of [3H]phosphatidylcholine. In addition, treatment with IGF-I for 3 h or more resulted in sustained increase in 1,2-DAG mass, which was attenuated by cycloheximide. The increase in DAG mass was accompanied by enhanced incorporation of [14C]glucose into 1,2-DAG. These results indicate that, in primed competent Balb/c 3T3 cells, IGF-I stimulates 1,2-DAG production via multiple pathways and that IGF-I may induce breakdown of phosphatidylcholine by a mechanism involving protein kinase C.     

Incorporation of arachidonic acid into 1-acyl-2-lyso-sn-glycero-3-phosphocholine of the human neutrophil

In this study, the initial incorporation of arachidonic acid into human neutrophils has been examined. Neutrophils pulse labeled for 5 min with [3H]arachidonic acid rapidly incorporated this fatty acid into 1,2-diacylglycerophosphocholine. However, when neutrophils were pulse labeled with [3H]arachidonic acid for 5 min, washed, and allowed to incubate for an additional 120 min, the relative amount of [3H]arachidonic acid increased in alkylacylglycerophosphocholine molecular species. Similar, when neutrophils were pulse labeled, washed, and allowed to incubate in the presence of 30 microM unlabeled arachidonic acid for 120 min, [3H]arachidonic acid was also remodeled into alkylacylglycerophosphocholine. These results implied that the initial incorporation of [3H]arachidonic acid proceeded via a free fatty acid intermediate into 1,2-diacyl-GPC, while the subsequent remodeling of arachidonate-containing glycerophospholipids did not. This initial incorporation was further investigated in a number of cell-free systems. Disrupted neutrophils incubated with [14C]arachidonoyl-CoA incorporated [14C]arachidonic acid into 1,2-diacyl-GPC containing 16:0, 18:0, and 18:1 at their sn-1 position in a pattern similar to that seen when whole neutrophils were incubated with arachidonic acid for 5 min. A small percentage of [14C]arachidonate from [14C]arachidonoyl-CoA was incorporated into 1-alkyl-2-acyl-GPC. The enzymatic activity responsible was found predominately in the membrane fraction of the broken cell preparation. This selectivity of the CoA-dependent acyltransferase for 1-acyl-linked glycerophosphocholine was further examined by adding [14C]arachidonoyl-CoA and various 1-radyl-2-lyso-GPC to neutrophil membrane preparations. These studies provide evidence that the initial incorporation of arachidonic acid into sn-glycero-3-phosphocholine takes place by an arachidonoyl-CoA: lysophosphatidylcholine acyltransferase(s) which is selective for the 1-acyl-2-lyso-GPC.     

Early changes in inositol lipids and their metabolites induced by platelet-derived growth factor in quiescent Swiss mouse 3T3 cells.

Inositol lipid turnover was studied in quiescent Swiss mouse 3T3 cells stimulated by platelet-derived growth factor (PDGF). Stimulation of the cells by PDGF for 10 min at 37 degrees C induced the following changes in lipids: in cells prelabelled with [32P]Pi, a 28% decrease in [32P]phosphatidylinositol 4,5-bisphosphate, a 41% decrease in [32P]phosphatidylinositol 4-phosphate and a 1.7-fold increase in the 32P-labelling of phosphatidic acid; in cells prelabelled with [3H8]arachidonic acid, a 17.9-fold increase in [3H]phosphatidic acid, a 20% decrease in [3H]phosphatidylinositol (PtdIns), an 8.6-fold increase in [3H]arachidonic acid released into the medium, a 57-fold increase in [3H]prostaglandin E2 in the medium, and a 5.3-fold increase in [3H]monoacylglycerol released into the medium (the last was identified as the 2-acyl derivative); in cells prelabelled with [2-3H]glycerol, a 1.7-fold increase in [3H]diacylglycerol, a 6.7-fold increase in [3H]phosphatidic acid, a 1.6-fold increase in [3H]lysophosphatidylcholine (lysoPtdCho), a 9% decrease in [3H]PtdIns, and a 1.6-fold increase in [3H]monoacylglycerol released into the medium. PDGF stimulated the formation of inositol tris-, bis- and mono-phosphates in the cells prelabelled with myo-[2-3H]inositol. These results indicate that, in Swiss 3T3 cells stimulated by PDGF, diacylglycerol produced by the hydrolysis of inositol lipids is partly degraded to 2-acylglycerol and partly converted into phosphatidic acid. The increase in lysoPtdCho indicates that a portion of arachidonic acid released from the stimulated cells is formed by the hydrolysis of PtdCho with a phospholipase A2. Different values of half-maximal doses of the partially purified PDGF used in this study were found for the various responses of quiescent Swiss 3T3 cells to PDGF. The values for half-maximal doses suggest that activation of a fraction of the cell-surface receptor for PDGF is sufficient for mitogenesis and for an increase in the cytoplasmic free Ca2+ concentration, and that the PGDF-stimulated lipid metabolism is probably proportional to the number of receptor sites activated by PDGF.     

Insulin-like growth factor II increases cytoplasmic free calcium in competent Balb/c 3T3 cells treated with epidermal growth factor

To determine the role of calcium in the action of insulin-like growth factor II (IGF-II), we have examined the effect of multiplication stimulating activity, the rat IGF-II, on cytoplasmic-free calcium concentration, [Ca2+]c, in aequorin-loaded Balb/c 3T3 cells. IGF-II does not cause any change in [Ca2+]c in quiescent cells. By contrast, IGF-II induces changes in [Ca2+]c in platelet-derived growth factor(PDGF) - pretreated competent cells: when competent cells are incubated with epidermal growth factor (EGF) for 10 min, subsequent IGF-II induces an immediate increase in [Ca2+]c. Without EGF treatment, IGF-II does not cause any increase in [Ca2+]c. The priming action of EGF is time dependent, requiring approximately 10 min for the maximum effect. The IGF-II-mediated increase in [Ca2+]c is totally dependent on extracellular calcium and is blocked by lanthanum. When DNA synthesis in PDGF-treated competent cells is assessed by measuring [3H]thymidine incorporation, IGF-II by itself has only a small effect. Likewise, a brief treatment with EGF results in only a small increase in [3H]thymidine incorporation. By contrast, in competent cells briefly treated with EGF, IGF-II causes a marked stimulation of [3H]thymidine incorporation. These results indicate that IGF-II increases [Ca2+]c in competent Balb/c 3T3 cells treated with EGF by stimulating calcium influx and that IGF-II-stimulated calcium influx may be related causally to its action on cell proliferation.     

In vivo incorporation of cytidine-monophosphate-ciliatine into rat liver lipids.

1. In vivo this investigation was carried out in order to compare the incorporation into rat lipids of free [1,2-minus 14C]-ciliatine and CMP-[1,2-minus 14C]-ciliatine which is the precursor in phosphonolipid biosynthesis. 2. The incorporation of the radioactivity from CMP-[1,2-minus 14C]-ciliatine took place more rapidly than that from free [1,2-minus 14C]-ciliatine in both liver and kidney. The amount of radioactivity from the CMP-[1,2-minus 14C]-ciliatine incorporated into total liver lipids was about 5 times higher than that incorporated into total liver lipids of rat two hrs after injecting free-[1,2-minus 14C]-ciliatine. 3. The amount of [1,2-minus 14C]-ciliatine incorporated into total liver lipids was 15 and 21 times higher than that incorporated into total kidney lipids of rat two and four hrs after injecting free [1,2-minus 14C]-ciliatine. 4. If the main pathway for the phosphonolipid biosynthesis is via CMP-ciliatine, the rate of phosphonolipid formation from CMP-ciliatine must therefore be higher than that from free-ciliatine. The results obtained here indicate therefore that the main pathway for phosphonolipid biosynthesis is a pathway involving CMP-ciliatine. 5. An unknow compound was detected in the water soluble fraction of the acid hydrolyzate of liver phosphonolipids. This material migrated with the N-trimethyl-derivative of ciliatine on the thin-layer chromatogram. The result shows that there is therefore a possibility of methylation of exogenous ciliatine to the phosphonate analogue of choline in the mammalian body.     

Incorporation of [3H]Arachidonic and [14C]Eicosapentaenoic Acids into Glycerophospholipids and Their Metabolism via Lipoxygenases in Isolated Brain Cells from Rainbow Trout Oncorhaynchus mykaiss

The incorporation of [3H]arachidonate [( 3H]AA) and [14C]eicosapentaenoate [( 14C]EPA) into glycerophospholipids was studied in isolated brain cells from rainbow trout, a teleost fish whose lipids are rich in (n-3) polyunsaturated fatty acids (PUFAs). EPA was incorporated into total lipid to a greater extent than AA, but the incorporation of both PUFAs into total glycerophospholipids was almost identical. The incorporation of both AA and EPA was greatest into phosphatidylethanolamine (PE). However, when expressed per milligram of individual phosphoglycerides, both AA and EPA were preferentially incorporated into phosphatidylinositol (PI), the preference being significantly greater with AA. On the same basis, significantly more EPA than AA was incorporated into phosphatidylcholine (PC). When double-labelled cells were challenged with calcium ionophore A23187, the 3H and 14C released from the cells closely paralleled each other, peaking at 10 min after addition of ionophore. The 12-monohydroxylated derivative was the pre-dominant lipoxygenase product from both AA and EPA with a rank order of 12-hydroxyeicosatetraenoic acid (12-HETE) greater than leukotriene B4 (LTB4) greater than 5-HETE greater than 15-HETE for the AA products and 12-hydroxyeicosapentaenoic acid (12-HEPE) greater than 5-HEPE greater than LTB5 greater than 15 HEPE for EPA products. The 3H/14C (dpm/dpm) ratios in the glycerophospholipids, total released radioactivity, and the lipoxygenase products suggested that PC rather than PI was the likely source of eicosanoid precursors in trout brain cells.     

Errors from using 3H-labeled ribonucleoside triphosphates to monitor nuclear RNA synthesis in vitro

The [3H]XTPs are used widely to monitor RNA synthesis in vitro. Recently, we discovered that they reflected only 40-45% of the true rate of nuclear RNA synthesis. Thus, when [8-14C]GTP was used, 1466 pmol [8-14C]GMP was incorporated per mg DNA/10 min. On the other hand, when [8-3H]GTP was used, only 564 pmol [8-3H]GMP was incorporated per mg DNA/10 min. There are three obvious factors that could have contributed to this greater than 2-fold difference in the apparent incorporation rate: commercial [8-3H]GTP sample was contaminated with substances causing the assay medium to be less efficient in RNA synthesis; 3H exchange occurred during acid washing of the [3H]RNA; and there was a greater quenching effect on [3H]RNA. Experiments were designed to test each of these alternatives. We are able to conclude that none of the above three are contributing factors. Our data also show that the 3H label was removed after it was incorporated into RNA. Similar differences were observed when 3H and 14C labeled pairs of ATP, UTP and CTP were compared. Furthermore, when nuclei were fractionated into nucleolar and nucleoplasmic fractions and carried out RNA synthesis, the loss of 3H label was observed mainly from the nucleoplasmic fraction.     

Measles-virus-persistent infection in BGM cells. Modification of the incorporation of [3H]arachidonic acid and [14C]stearic acid into lipids.

In BGM cells chronically infected with measles virus, although the composition of the phospholipids is unaltered, the fatty acid composition is modified. Uninfected, lytic and persistently infected cells were labelled with [3H]arachidonic acid and [14C]stearic acid and their metabolic fate analysed. No difference in the total incorporation was observed in the different systems. However, the [14C]stearic acid and [3H]arachidonic acid were incorporated up to 2-fold and 13-fold respectively greater into the neutral lipid of persistently infected compared with that of uninfected cells. Both radioactive fatty acids were specifically accumulated in the triacylglycerol and non-esterified fatty acids fractions. Lytically infected cells were similar to uninfected cells. Although there was no significant difference in the incorporation of radioactivity into the total phospholipid in either system, there was a large decrease in [3H]arachidonic acid incorporated into phosphatidylethanolamine and to a lesser extent phosphatidylcholine and phosphatidylinositol in persistently infected cells. [14C]Stearic acid incorporation was also reduced in phosphatidylcholine and phosphatidylethanolamine fractions of persistently infected cells.     

Effect of N-trifluoroacetyladriamycin-14-valerate on [3H]thymidine uptake and DNA synthesis of human lymphoma cells

The effects of N-trifluoroacetyladriamycin-14-valerate on the uptake of [3H]thymidine and its incorporation into DNA of human P3HR-1 lymphoma cells were studied. In the absence of the drug, at 0 degrees C, [3H]thymidine was transported into the cells but not incorporated into DNA, as determined by both the trichloroacetic acid-soluble and -precipitable counts obtained with the cells. At 37 degrees C, [3H]thymidine was readily transported into the cells and incorporated into DNA. In the presence of the drug, both [3H]thymidine uptake (as shown by acid-soluble counts) and the amount of its incorporation into acid-precipitable materials were markedly reduced. However, the uptake of [3H]thymidine at 0 degrees C was found to be equally sensitive to drug inhibition as at 37 degrees C. The incorporation at 37 degrees C of [3H]thymidine into acid-precipitable materials of the cells, which had been prelabeled at 0 degrees C with [3H]thymidine, was found to be insensitive to inhibition by the drug. The in vitro activities of DNA polymerases alpha and beta purified from human P3HR-1 cells were also found not to be susceptible to inhibition. Nuclei purified from cells pretreated with the drug continued to synthesize DNA. The cytofluorograms of the cells treated with the drug indicated that the treated cells accumulated at the G2/M phase, whereas the S phase of the cells was not arrested. These results suggest that N-trifluoroacetyladriamycin-14-valerate inhibits [3H]thymidine uptake but not cellular DNA synthesis in human P3HR-1 lymphoma cells.     

Platelet-derived growth factor (PDGF) induces intranuclear protein accumulation in 3T3 fibroblasts

Quiescent 3T3 fibroblasts were grown for a short time in the presence of [3H]amino acids then treated with PDGF, and the nucleo-cytoplasmic distribution of the 3H-labelled proteins was analysed by autoradiography. There was no difference in the total amount of 3H-labelled proteins in PDGF-treated and untreated cells but PDGF induced a significant increase in intranuclear protein accumulation.     

Role of endogenous and exogenous cholesterol in liver as the precursor for bile acids in rats

There is considerable evidence suggesting that compartmentalized functional pools of cholesterol in the liver contribute differently to the formation of bile acids as the precursor. The present paper deals with the incorporation of [1-¹⁴C]acetate and of [1,2-³H]cholesterol carried on lipoproteins (LDL and HDL) into biliary bile acids in perfused rat livers and bile-fistula rats. The results showed that endogenous cholesterol synthesized newly from [1-¹⁴C]acetate in the liver was incorporated into both cholic acid and chenodeoxycholic acid in a similar way, while exogenous lipoprotein-[1,2-³H]cholesterol delivered to hepatocytes from hepatic circulation was incorporated into chenodeoxycholic acid at a higher rate.     

Phorbol ester inhibits 13-cis-retinoic acid-induced hydrolysis of phosphatidylinositol 4,5-bisphosphate in cultured murine keratinocytes: a possible negative feedback via protein kinase C-activation.

The incubation of double-labelled [( 14C]-glycerol and [3H]-myoinositol) keratinocytes with 13-cis retinoic acid induced the transient and simultaneous release of [3H]-inositol trisphosphate ([3H]-InsP3) and [14C]-diacylglycerol ([14C]-DAG) indicating that a possible mode of action of this retinoid on murine keratinocytes may be at least in part the early transient release of the two putative messengers (InsP3 and DAG) from phosphatidylinositol-4,5 bisphosphate (PtdIns4, 5P2). In contrast, the preincubation of the keratinocytes with 12-O-tetradecanoylphorbol-13-acetate (TPA) prior to incubation with 13-cis-RA suppressed the 13-cis-RA-induced release of [3H]-InsP3 and [14C]-DAG. The specificity of the TPA effect was established by the lack of effect of the biologically inactive 4 alpha-phorbol 12, 13-didecanoate. Furthermore, the incubation of the TPA-primed keratinocytes with 13-cis-RA caused a delayed and sustained accumulation of [14C]-DAG. An exploration of the source of this late release of [14C]-DAG revealed that this [14C]-DAG was released from non-inositol containing phospholipids, particularly, phosphatidylcholine. This latter DAG released in the TPA-primed cells correlated with the translocation of the cytoplasmic protein kinase C (PKC) activity to the membrane associated PKC activity. Taken together, these results suggest that alteration of PKC activity, presumably induced by DAG released from non-inositol phospholipids, may play a major role in the TPA-induced negative feedback inhibition of 13-cis RA-induced hydrolysis of keratinocyte PtdIns4, 5P2.     

Kinetics of diacylglycerol accumulation in response to vasopressin stimulation in hepatocytes of continuously endotoxaemic rats.

The content and composition of 1,2-diacyl-sn-glycerol (1,2-DAG) was determined in hepatocytes from saline (0.9% NaCl)- and Escherichia coli endotoxin (ET)-infused rats upon continuous vasopressin (VP) (10(-8) M) stimulation. In both experimental groups the accumulation of 1,2-DAG was detected after a lag period (2-5 min), was sustained up to the last time analysed (10 min), and C18:0- and C20:4-fatty-acid-containing-DAG accumulation preceded that of DAG containing other acyl groups. In hepatocytes from ET-infused rats the VP-induced accumulation of DAG was delayed and was decreased by 50%, showing a C18:0/C20:4 molar ratio of 1.6 as compared with 1.1 for cells from saline-infused rats. A similar lower cellular response to VP stimulation was observed in cells prelabelled with [14C]C20:4 fatty acid. The accumulation of [14C]C20:4-DAG (lower in ET than in saline-infused rats) was paralleled by a decrease in phosphatidylinositol (PI) labelling, whereas phosphatidic acid showed a transient increase by 5 min in saline- but not in ET-infused rats. The present results demonstrate that the previously reported impairment in the early degradation of poly-PI and later in the 'PI cycle' during VP stimulation [Rodriguez de Turco & Spitzer (1987) Metab. Clin. Exp. 36, 753-760] is also reflected at the level of their phosphodiesteratic product, DAG. Moreover, the kinetics of the accumulation of DAG acyl groups is consistent with the idea that the initial release of C18:0- and C20:4-DAG (possibly derived from inositol lipids) could regulate the subsequent enlargement of this pool by stimulating a phospholipase C-mediated degradation of other phospholipids (e.g. phosphatidylcholine).     

The transfer of myristic and other fatty acids on lipid and viral protein acceptors in cultured cells infected with Semliki Forest and influenza virus.

[3H]Myristic and [3H]palmitic acid were compared as tracers for the fatty acylation of cellular lipids and viral glycoproteins in chicken embryo cells infected with fowl plague and Semliki Forest virus (SFV). Both of these substrates are incorporated into glycerolipids to a similar extent, whereas sphingolipids show much higher levels of palmitate than myristate after a 20 h labeling period. Both fatty acid species were found to be subject to metabolic conversions into longer chain fatty acids yielding 11.7% C16:0 from [3H]myristic and 11.8% C18:0 from [3H]palmitic acid. The reverse, a metabolic shortening of the exogenous acyl-chains yielding, for instance, significant levels of myristic acid from palmitic acid was not observed. Out of the various [3H]fatty acids present after in vivo labeling with [3H]myristic acid (C14:0) the elongated acyl-species arising from metabolic conversion (e.g., C16:0; C18:0) are preferred over myristic acid in the acylation of SFV E1 and E2 and of the influenza viral hemagglutinin (HA2). During acylation of exogenous E1 from SFV in vitro incorporation of palmitic acid from palmitoyl CoA exceeds that of myristic acid from myristoyl CoA by a factor of 37. This indicates that specificity for the incorporation of fatty acids into viral membrane proteins occurs at the level of the polypeptide acyltransferase(s).     

Metabolic fate of [14C]-ethanol into endothelial cell phospholipids including platelet-activating factor, sphingomyelin and phosphatidylethanol

The metabolic fate of ethanol into the phospholipid pool of calf pulmonary artery endothelial cells was studied. [14C]-ethanol was incorporated into various endothelial cell phospholipids including phosphatidylethanol (PEth), which may represent a substantial fraction in microdomains of membrane phospholipids. The incorporation into phospholipids was reduced in the presence of pyrazole and cyanamide, inhibitors of ethanol metabolism. Wortmannin, the phosphatidylinositol 3-kinase inhibitor, increased [14C]-PEth formation. [3H]-acetate was also incorporated into endothelial cell phospholipids but in a different pattern. Distribution of [3H]-acetate and [14C]-ethanol into the fatty acyl moiety versus the glycerophosphoryl backbone of the phospholipids was also different. Stimulation of the endothelial cells with ATP increased [3H]-acetate incorporation into platelet-activating factor (PAF) and ethanol decreased it. Ethanol exposure increased ATP-stimulated [3H]-acetate incorporation into sphingomyelin. However, ATP had no effect on the incorporation of [14C]-ethanol into any phospholipids. The results suggest that the two precursors contribute to a separate acetate pool and that the sphingomyelin cycle may be sensitized in ethanol-treated cells. Thus, metabolic conversions of ethanol into lipids and the effect of ethanol on specific lipid mediators, e.g PAF, PEth and sphingomyelin, may be critical determinants in the altered responses of the endothelium in alcoholism.     

Phospholipid metabolism of stimulated lymphocytes. Preferential incorporation of polyunsaturated fatty acids into plasma membrane phospholipid upon stimulation with concanavalin A

Rabbit thymocytes were isolated and incubated for various lengths of time with concanavalin A. The cultures were pulsed for the last 12.5 min of incubation with equimolar mixtures of radioactively labelled fatty acids, either [3H]arachidonate and [14C]oleate or [3H]arachidonate and [14C]palmitate, and the uptake of each fatty acid into phospholipid of plasma membrane was determined. Upon binding of the mitogen, the fatty acids were incorporated at an increased rate with a new steady state being reached between 12.5 and 42.5 min after stimulation. Initially after 12.5 min, when the two fatty acids were added together, no preferential incorporation of the polyunsaturated fatty acid arachidonate was seen compared to the saturated or monounsaturated ones, palmitate or oleate. However shortly thereafter arachidonate, when compared to palmitate or oleate, started to be preferentially incorporated into plasma membrane phospholipid so that by 4 h after activation, only arachidonate was incorporated at an increased rate: the uptake of palmitate and oleate had reverted to that of unstimulated cells. In contrast, when palmitate or oleate were added alone, after 4 h of activation incorporation was increased similar to that of arachidonate, suggesting that all long chain fatty acids compete for the same activated enzyme(s). A detailed analysis of incorporation into phospholipid species showed that all fatty acids were taken up with the highest rate into phosphatidylcholine. After activation, fatty acid incorporation was increased by approx. 50% for phosphatidylcholine: the highest stimulation rates were observed with phosphatidylinositol (3-7-fold) and phosphatidylethanolamine (2-3-fold). The data suggest that shortly after stimulation with mitogens, the membrane phospholipids start to change by replacing saturated and monounsaturated fatty acids by polyunsaturated ones, thus creating a new membrane.     

Lipid metabolism in various regions of squid giant nerve fiber

The purpose of this investigation was to compare the incorporation of radioactivity from various precursors into lipids of different regions of squid giant nerve fiber systems including axoplasm, axon sheath, giant fiber lobes which contain stellate ganglion cell bodies, and the remaining ganglion including giant synapses. To identify the labeled lipids, stellate ganglia including giant fiber lobes and the remaining tissue were first incubated separately with [14C]glucose, [32P]phosphate, [14C]serine, [14C]acetate and [3H]myristate. The radioactivity from glucose, after conversion to glycerol and fatty acids, was incorporated into most lipids, including triacylglycerol, free fatty acids, cardiolipin, phosphatidylethanolamine, phosphatidylglycerol, phosphatidylcholine, phosphatidylinositol, phosphatidylserine, sphingomyelin and ceramide 2-aminoethylphosphanate [corrected]. The radioactivity from serine was largely incorporated into phosphatidylserine and, to a lesser extent, into other phospholipids, mainly as the base component. The sphingoid bases of ceramide and sphingomyelin were also significantly labeled. Saturated and monounsaturated and, to a lesser extent, polyunsaturated fatty acids of these lipids were synthesized from acetate, glucose and myristate. Among the major lipids, cholesterol was not labeled by any of the radioactive compounds used. Ganglion residues incorporated the most radioactivity in total lipids from either [14C]glucose or [14C]serine, followed by giant fiber lobes and then sheath. Axoplasm incorporated the least. Among various lipids, phosphatidylethanolamine with shorter saturated fatty acids and phosphatidylglycerol contained the most radioactivity from glucose in all regions. Axoplasm was characterized by a higher proportion of glucose radioactivity in ceramide, sphingomyelin and phosphatidylglycerol. Axoplasm and sheath contained a higher proportion of serine radioactivity than did the other two regions in ceramide. Essentially no radioactivity from [14C]galactose was incorporated in any region.     

Lactate metabolism in the perfused rat hindlimb.

A preparation of isolated rat hindleg was perfused with a medium consisting of bicarbonate buffer containing Ficoll and fluorocarbon, containing glucose and/or lactate. The leg was electrically prestimulated to deplete partially muscle glycogen. The glucose was labelled uniformly with 14C and with 3H in positions 2, 5 or 6, and lactate uniformly with 14C and with 3H in positions 2 or 3. Glucose carbon was predominantly recovered in glycogen, and to a lesser extent in lactate. The 3H/14C ration in glycogen from [5-3H,U-14C]- and [6-3H,U-14C]-glucose was the same as in glucose. Nearly all the utilized 3H from [2-3H]glucose was recovered as water. Insulin increased glucose uptake and glycogen synthesis 3-fold. When the muscle was perfused with a medium containing 10 mM-glucose and 2 mM-lactate, there was little change in lactate concentration. 14C from lactate was incorporated into glycogen. There was a marked exponential decrease in lactate specific radioactivity, much greater with [3H]- than with [14C]-lactate. The 'apparent turnover' of [U-14C]lactate was 0.28 mumol/min per g of muscle, and those of [2-3H]- and [3-3H]-lactate were both about 0.7 mumol/min per g. With 10 mM-lactate as sole substrate, there was a net uptake of lactate, at a rate of about 0.15 mumol/min per g, and the apparent turnover of [U-14C]lactate was 0.3 mumol/min per g. The apparent turnover of [3H]lactate was 3-5 times greater. When glycogen synthesis was low (no prestimulation, no insulin), the incorporation of lactate carbon into glycogen exceeded that from glucose, but at high rates of glycogen deposition the incorporation of lactate carbon was much less than that of glucose. Lactate incorporation into glycogen was similar in fast-twitch white and fast-twitch red muscle, but was very low in slow-twitch red fibres. We find that (a) pyruvate in muscle is incorporated into glycogen without randomization of carbon, and synthesis is not inhibited by mercaptopicolinate or cycloserine; (b) there is extensive lactate turnover in the absence of net lactate uptake, and there is a large dilution of 14C-labelled lactate from endogenous supply; (c) there is extensive detritiation of [2-3H]- and [3-3H]-lactate in excess of 14C utilization.     

In vitro lipid metabolism in the rat pancreas. III. Effects of carbamylcholine and pancreozymin on the turnover of phosphatidylinositols, 1,2-diacylglycerols and phosphatidylcholines

1. The turnover of phosphatidylinositols and other glycerolipids was examined in rat pancreatic fragments incubated in the presence of carbamylcholine and pancreozymin used at a concentration inducing maximal alpha-amylase hypersecretion. 2. In stimulated tissue, [1-14C]acetate-labeled fatty acids were incorporated into phosphatidylinositols, 1,2-diacylglycerols, and phosphatidic acids in preference to phosphatidylcholines, phosphatidylethanolamines, triacylglycerols, monoacylglycerols, and free fatty acids. Variations in the percent distribution of 14C among fatty acids and in specific activity of individual fatty acids in each lipid class suggested that the secretagogues reduced selection of newly synthesized 1,2-diacylglycerols which occurred in the resting state before their incorporation into phosphatidylinositols. Secretagogues also promoted recycling of endogenous 1,2-diacylglycerols (produced from hydrolysis of unlabeled glycerolipids) for the biosynthesis of phosphatidylinositols. 3. Increased rate of incorporation of [1-14C]palmitate, [1-14C]linoleate, [1-14C]arachidonate and [1(3)(n)-3H]glycerol into phosphatidylinositols was detrimental to phosphatidylcholines. 4. The lipolytic effects of carbamylcholine and pancreozymin as illustrated by the release of 1,2-diacylglycerols and free fatty acids, were markedly inhibited in calcium-free medium enriched with 1 mM EGTA but increased turnover of phosphatidylinositols as determined from incorporation of radioactive precursors was only moderately affected.