Phosphoinositide turnover imaging linked to muscarinic cholinergic receptor in the central nervous system by positron emission tomography

Receptor-mediated membrane processing plays an essential role in neural function in the synapses. In such neurotransmission process, the phosphoinositide (PI) response, an effector in the production of second-messengers, can be used to assess in vivo signal transduction. Using in vivo autoradiography and positron emission tomography (PET), we attempted to visualize the PI response to muscarinic cholinergic receptor (mAChR)-stimulation in rats and monkeys, which were administered 1,2-[11C]diacylglycerol (DAG) intravenously. Enhancement of 1,2-[11C]DAG incorporation was observed in the rat ipsilateral hippocampus and cortex in which mAChR-agonist was administered by local injection, but this was in contrast to spreading cortical depression in the ipsilateral cortex using KCl. In monkey PET studies, dynamic brain scanning revealed increase in activity over time for about 15 min after a bolus injection of 1,2-[11C]DAG in an awake state. The activity then remained at a constant level. This finding documented the theoretical "membrane-trapping" mechanism. The systemic mAChR-stimulation accelerated incorporation in the cerebral cortices of the same monkey brain. Radioactivity uptake did not differ significantly between the mAChR-stimulated and nonstimulated early scan images. This suggested that cerebral blood flow does not greatly affect DAG incorporation. In sequential membrane processes of PI turnover, diacylglycerol kinase rapidly metabolizes DAG, included in PI turnover. In conclusion 1,2-[11C]DAG incorporation was limited by receptor-mediated PI turnover, which can represent real synaptic transmission in neural networks.

Effect of formulation on the pharmacokinetics and efficacy of doramectin

The pharmacokinetics of doramectin, a novel avermectin, were evaluated following parenteral administration in a range of oil-based formulations in an attempt to optimise the formulation. Therapeutic and persistent efficacies against Cooperia oncophora were also evaluated. This approach led to the identification of formulations based upon sesame oil and ethyl oleate which gave more prolonged doramectin plasma concentrations with no loss in therapeutic efficacy and improved persistent efficacy following subcutaneous administration to cattle at a dosage of 200 micrograms kg-1. The importance of using both pharmacokinetic and efficacy end points to distinguish between formulations is discussed. All formulations were well tolerated as evidenced by the absence of any reaction to injection either in the form of behavioural responses, injection site swelling or postmortem lesions. Sesame oil with ethyl oleate was the best parenteral vehicle tested for doramectin, allowing the expression of a high level of therapeutic and persistent efficacy and offering the benefit of excellent injection site toleration.

Activation of soluble guanylate cyclase through phosphorylation by protein kinase C in intact PC12 cells

Soluble guanylate cyclase was found to be phosphorylated by protein kinase C in intact PC12 pheochromocytoma cells. The phosphate incorporation into guanylate cyclase upon addition of phorbol 12-O-myristate 13-acetate (PMA) to PC12 cells in culture coincided with an increased intracellular cGMP level. A strong correlation between phosphate incorporation into guanylate cyclase and increased cGMP level was also observed by time-course and dose-response studies of the PMA effect, as well as when cells were treated with various phorbol esters and diacylglycerols or with various protein kinase C inhibitors. The cAMP system and the presence of extracellular Ca2+ were found not to be involved in guanylate cyclase phosphorylation. The phosphorylation and activation of guanylate cyclase by protein kinase C represent a possible mechanism whereby agonist-stimulation of receptors coupled to phosphoinositide hydrolysis induces cGMP synthesis.

Effect of cholesterol, diacylglycerol and phosphatidylethanolamine on PEG 6000 induced lipid mixing and surface dielectric constant of phosphatidylcholine vesicle

Using the NBD/Rh fluorescence assay the PEG 6000 induced phospholipid mixing of phosphatidylcholine liposomes containing cholesterol, diacylglycerol or phosphatidylethanolamine was measured. All 3 components shifted the PEG 6000 concentration necessary to induce 50% of maximal phospholipid mixing to lower concentrations. After the addition of PEG cholesterol containing PC liposomes exhibit different values of the surface dielectric constant as measured by the stokes shift of the fluorophore dansyl-PE compared to pure PC, whereas in DAG- and PE-containing PC liposomes no differences were observed. It is concluded that the incorporation of cholesterol leads to a different surface dielectric constant after PEG addition. The changed surface dielectric properties are a prerequest for the onset of fusion, as shown by Ohki and Arnold (1990). The incorporation of DAG and PE into PC membranes leads to structural instabilities as proposed by Siegel et al. (1989). This additional structurally unstable region created by molecules like PE or DAG may shift the onset of fusion to lower PEG concentration.

Molecular species composition of glycerophospholipids in rat sciatic nerve and its alteration in streptozotocin-induced diabetes

The molecular species composition of glycerophospholipid classes in nerves of normal and experimentally diabetic rats was determined. sn-1,2-Diacylglycerol (DAG) moieties of purified phospholipids were liberated enzymatically and analyzed as the benzoate derivatives by high-performance liquid chromatography. The most abundant molecular species in phosphatidylinositol (PI) from normal nerve were 18:0/20:4 (54%) and 16:0/18:1 (17%), whereas in phosphatidylcholine (PC), 16:0/18:1 (52%), 16:0/16:0 (12%) and 18:0/18:1 (11%) predominated. In phosphatidylethanolamine and ethanolamine plasmalogen, 18:1/18:1, 16:0/18:1 and 18:0/18:1 comprised more than 60% and 75% of the molecular species, respectively. Phosphatidylserine was characterized by a high content of 18:0/18:1 (38%) and a relative abundance of the 18:1/20:0, 18:1/22:0 and 18:1/24:0 molecular species, which together accounted for over 30% of the total. The molecular species profile of phosphatidic acid did not closely resemble that of any other phospholipids or DAG. In diabetic nerve, the molecular species composition of all diacylphospholipids showed a significant decline in the content of one or more arachidonoyl-containing molecular species. The largest decline occurred in PC and the least in PI. Except in PC, 16:0/20:4 was more depressed than 18:0/20:4. In combination with previous analyses of DAG molecular species which showed a similar decline in the content of arachidonoyl-containing molecular species in nerve from experimentally diabetic rats (Zhu, X. and Eichberg, J. (1990) J. Neurochem. 55, 1087-1090), the results suggest that nerve DAG arises largely, but not entirely, from phosphoinositides and that PC could be a significant precursor, especially in diabetic nerve.

Plasmodium vinckei petteri: identification of the stages sensitive to arteether

Antimalarial activity of arteether, a derivative of artemisinin (qinghaosu) against blood-induced infections of the highly synchronous Plasmodium vinckei petteri rodent species of malaria was evaluated in Swiss mice. A single subcurative dose of arteether of 2.2 mg/kg body weight was injected subcutaneously to mice, either during the prepatent period or during the patent infection, when different stages of the parasitic cycle were present in the blood. It was shown that rings and young trophozoites were the most susceptible stages to arteether. The drug had no effect on merozoites and little effect on mid-term trophozoites which is the stage most sensitive to chloroquine. The alcoholic solution (10% alcohol in sterile water) had an immediate effect while the oily solution (miglyol 840) was active between 3 and 21 hr after injection.

Ca(2+)-independent induction of acrosome reaction by protein kinase C in human sperm

We report that activated protein kinase C (PKC) can induce acrosome reaction independently of elevated Ca2+. Addition of 12-O-tetradecanoyl phorbol-13-acetate or the membrane-permeable diacylglycerol analog 1-oleoyl-2-acetylglycerol to ejaculated human sperm resulted in stimulation of acrosomal reaction (2- to 3-fold), provided the sperm underwent capacitation. Induction of acrosome reaction by 12-O-tetradecanoyl phorbol-13-acetate was blocked by the PKC inhibitor staurosporine or by down-regulation of endogenous PKC, but not by removal of extracellular Ca2+. Acrosome reaction was also enhanced by the Ca2+ ionophore ionomycin in a Ca(2+)-dependent, PKC-independent fashion. Immunohistochemical analysis with type-specific PKC antibodies revealed the presence of PKC alpha and PKC beta II in the equatorial segment, whereas PKC beta I and PKC epsilon staining was found in the principal piece of the tail. Acrosome reaction, thus far believed to be induced only by elevated Ca2+, can therefore be triggered by activated PKC in a Ca(2+)-independent fashion. The PKC subtypes potentially involved in acrosome reaction are most likely alpha and beta II, whereas the beta I- and epsilon-subspecies might be involved in regulation of flagellar motility of human sperm.

1,2-Dioleoylglycerol promotes calcium-induced fusion in phospholipid vesicles

The effect of 1,2-dioleoyglycerol (1,2-DOG) on the promotion of Ca(2+)-induced fusion of phosphatidylserine/phosphatidylcholine (PS/PC) vesicles was studied. 1,2-DOG is able to induce the mixing of membrane lipids at concentrations of 10 mol% without mixing of vesicular contents. At concentrations of 20 mol% or higher, 1,2-DOG promotes fusion, lipid and content mixing, of LUV composed of an equimolar mixture of PS and PC, which otherwise are unable to fuse in the presence of Ca2+. Fusion was demonstrated by fluorescence assays monitoring mixing of aqueous vesicular contents and mixing of membrane lipids. Studies by Fourier transform infrared spectroscopy provided evidence for a fusion mechanism different to that of Ca(2+)-induced fusion of pure PS vesicles. Final equilibrium structures were characterized by 31P-NMR and freeze-fracture electron microscopy. Ca(2+)-induced fusion of 1,2-DOG containing vesicles is accompanied by the formation of isotropic structures which are shown to correspond to structures with lipidic particle morphology. The possible fusion mechanisms and implications are discussed.

Insect apolipophorin III: interaction of locust apolipophorin III with diacylglycerol

In the formation of low-density lipophorin (LDLp) by the loading of diacylglycerol onto high-density lipophorin (HDLp) in insect hemolymph, apolipophorin III (apoLp-III) plays an essential role by binding to the increasing surface of the expanding lipoprotein particle. The present data on the surface properties of apoLp-III from Locusta migratoria demonstrate a preferential interaction with diacylglycerol. Injection of apoLp-III underneath a diacylglycerol monolayer results in a rapid interaction with the lipid; interaction with a phosphatidylcholine monolayer was considerably less. Locust apoLp-III binds with high affinity (Kd = 7.9.10(-9) M) to 1,2-diacylglycerol, which is consistent with its function in the LDLp particle; affinity for phosphatidylcholine is considerably lower. While the molecular area of locust apoLp-III in a monolayer is 2080 A2/molecule at the collapse pressure, in mixed monolayers of apoLp-III and lipid, the mean molecular area is decreased. Deglycosylation of the apoLp-III did not affect its interfacial stability. ApoLp-III from the moth Manduca sexta, which we included for comparison, demonstrated a similar reduction in molecular area resulting from interaction with lipid. These data do not support the hypothesis that interaction of apoLp-III with a lipid surface will lead to doubling of the molecular area of the protein (Kawooya, J.K., Meredith, S.C., Wells, M.A., Kézdy, F.J. and Law, J.H. (1986) J. Biol. Chem. 261, 13588-13591). The area of locust apoLp-III of 12.9 A2/amino acid residue at the collapse pressure is consistent with monolayers of alpha-helical proteins; circular dichroic spectra confirm a high alpha-helix content. The surface properties of apoLp-III reported here enable a high surface concentration of diacylglycerol in the LDLp particle, allowing the lipoprotein to act as an efficient reutilizable lipid shuttle.

Hydrophobic lipid additives affect membrane stability and phase behavior of N-monomethyldioleoylphosphatidylethanolamine

The rate of formation of high-curvature intermediates or disordered cubic phases in N-methyldioleoylphosphatidylethanolamine (N-methyl-DOPE) dispersions with or without additives was studied by 31P NMR spectroscopy. In N-methyl-DOPE dispersions, both the L alpha liquid-crystalline phase and the hexagonal HII phase convert into phases of high curvature giving rise to isotropic 31P NMR resonances. Addition of the bilayer destabilizers 1,2-diolein, 1,3-diolein, or eicosane lowers the threshold temperature of the isotropic phase. The isotropic threshold temperature is strongly correlated with the L alpha-HII phase transition temperature (TH). The addition of hexagonal phase promoters does not change the rate of formation of the isotropic phase at a temperature shifted by a fixed amount below TH. However, the formation of "isotropic" phases from the additive-stabilized hexagonal phase is slow compared to that observed in pure N-methyl-DOPE lipid dispersions. Membrane leakage and fusion are promoted by the dioleins and well as by eicosane, but changes in the rates of these processes do not correlate well with the extent of formation of isotropic phases. All three additives have similar effects on phase behavior and on vesicle leakage and fusion. These similarities occur despite the fact that eicosane is believed to partition differently into the membrane than diolein. In addition to the general similarities in the effects of the two diolein isomers, 1,2-diolein is somewhat more potent in promoting the hexagonal phase and in increasing rates of leakage and fusion than is 1,3-diolein.

Design and evaluation of sustained-release tablets of lithium in a fat matrix and its bioavailability in humans

The development of sustained-release lithium (Li) tablets, intended to release the active principle at a rate of 1.0 mM/h for 10 h, was undertaken. The parameters used for the control of the release were the glyceril palmite-stearate content, the carboxypolymethylene content, and the compression force. The experimental design is based on Hadamard's matrices and is of the adaption by stages type. The formulation seen as optimal from in vitro assays was later assessed in vivo by a crossover study of six subjects. The parameters used to measure the bioavailability were the total amount of Li excreted in the urine in the 96 h following ingestion, the maximum urinary excretion rate, and the time at which this rate was reached. The acceptability interval for the first two parameters was established from the theoretical curve of urinary excretion, which was calculated by convolution of the desired in vivo release variable (1.0 mM/h for 10 h) by the absorption-disposition variable obtained after administering the preparation in Li carbonate capsules. The results obtained show that the bioavailability of the formulation is 75% of the immediate-release formulation used as control and that the release rate, although close to the desired value, lasts only 7 or 8 h; these results agree with those given by numerical deconvolution using the mean urinary excretion curves.

No-carrier-added carbon-11-labeled sn-1,2- and sn-1,3-diacylglycerols by [11C]propyl ketene method

This article describes the preparation of sn-1,2-[11C]diacylglycerols and sn-1,3-[11C]diacylglycerols by a no-carrier-added reaction based on a labeling method using [1-11C]propyl ketene, which is one of the most potent acylating agents. [1-11C]Propyl ketene was produced by pyrolytic decomposition of [1-11C]butyric acid and was trapped in pyridine containing L-alpha-palmitoyl-lysophosphatidylcholine, producing L-alpha-palmitoyl-2-[1-11C]butyryl-sn-glycero-3-phosphorylcholine. We adopted an enzymatic reaction to remove the phosphorylcholine, in which L-alpha-palmitoyl-2-[1-11C]butyryl-sn-glycero-3-phosphorylcholine was incubated with phospholipase C, hydrolyzing to produce 1-palmitoyl-sn-2-[1-11C]butyrylglycerol. Total synthesis time was about 50 minutes and the specific activity was estimated at 93 GBq/mumol (2.5 Ci/mumol) at end of synthesis. Radiochemical yield was 3.8% based on the trapped 11CO2. sn-1,3-[11C]Diacylglycerol was also synthesized by [1-11C]propyl ketene reaction with 1-palmitoyl-sn-glycerol in a single procedure. The regional brain tissue radioactivities obtained in sn-1,2-[11C]diacylglycerol were higher than those of sn-1,3-[11C]diacylglycerol, and the regional values varied widely. In autoradiography of brain slices from conscious rats, sn-1,2-[11C]diacylglycerol incorporation sites were discretely localized, especially in the amygdala, cerebral cortex, and hippocampus, suggesting that intensive neuronal processing occurred in these areas on the basis of phosphatidylinositol turnover.

A self-assembled pigmented BLM on a platinum support: the light-induced electrical effects

The light-induced voltage and current changes under continuous illumination have been investigated in pigmented self-assembled lipid bilayer membranes deposited on a platinum electrode. Such self-organized pigmented bilayer-platinum system containing Zn-Phthalocyanine (ZnPc) as a photosensitizer and glycerol-dioleate (GDO) as a bilayer forming solution has been found to shift its electrode potential to more positive value on light irradiation as well as to increase the cathodic current across the membrane. The results indicate a direct electron transfer from the platinum electrode to hydrogen ion in the electrolyte solution. Furthermore, it has also been demonstrated a dramatic increase of the photocurrent over the time course of BLM formation visualizing a role of the bulk quenching processes which are significantly diminished in thin bilayer membrane.

Stereoselectivity of lipases. I. Hydrolysis of enantiomeric glyceride analogues by gastric and pancreatic lipases, a kinetic study using the monomolecular film technique

In the present study, porcine pancreatic lipase, rabbit gastric lipase, and human gastric lipase stereospecificity toward enantiomeric glyceride derivatives was kinetically investigated using the monomolecular film technique. Pseudoglycerides such as enantiomeric 1(3)-alkyl-2,3(1,2)-diacyl-sn-glycerol, enantiomeric 1(3)-alkyl-2-acyl-sn-glycerol, or enantiomeric 1(3)-acyl-2-acylamino-2-deoxy-sn-glycerol were synthesized in order to assess the lipase stereoselectivity during the hydrolysis of either the primary or the secondary ester position of these glycerides analogues. The cleaved acyl moiety was the same in both enantiomers, thereby excluding the possibility of effects occurring due to fatty acid specificity. We observed a porcine pancreatic lipase sn-3 stereoselectivity when using the enantiomeric 1(3)-alkyl-2-acylamino-2-deoxy-sn-glycerol (diglyceride analogue) which contrasted with the lack of stereoselectivity observed when using the enantiomeric 1(3)-alkyl-2,3(1,2)-diacyl-sn-glycerol (triglyceride analogue). The gastric lipases, in contrast to the pancreatic lipase, preferentially catalyze the hydrolysis of the primary sn-3 ester bond of the enantiomeric monoakyl-diacyl pair tested. From these kinetic data, high hydrolysis rates and no chiral discrimination were observed in the case of rabbit gastric lipase, whereas low rates and a clear chiral discrimination was noticed in the case of human gastric lipase during hydrolysis of the acyl chain from the secondary ester bond of 1(3)-alkyl-2-acyl enantiomers. It is particularly obvious that in the case of human gastric lipase decreasing the lipid packing increases the lipase sn-3 stereopreference during hydrolysis of the primary ester bond of the enantiomeric 2-acylamino derivatives (diglyceride analogue).

Lipid conjugates of antiretroviral agents. I. Azidothymidine-monophosphate-diglyceride: anti-HIV activity, physical properties, and interaction with plasma proteins

3'-Azido-3'-deoxythymidine-5'-phosphate diglyceride (16:0/18:1 omega 9), a phosphatic acid conjugate of AZT, is active against HIV replication in H9 cells and syncytia formation in MOLT-3 cells. The activities rank as AZT greater than pure conjugate greater than conjugate in mixed liposomes, with the pure conjugate having about one-third the activity of free AZT. The compound binds very rapidly to serum lipoproteins, but not to serum albumin, alpha and beta globulins, or red cells. Pancreatic phospholipase A2 hydrolyzes it to the lysophosphatidic acid conjugate.

Biophysical inhibition of synthetic lung surfactants

The biophysical activity and inhibition of a series of synthetic surfactant mixtures was studied and correlated with physiological effectiveness in restoring pressure-volume (P-V) mechanics of excised lungs. Results showed that several simple mixtures of dipalmitoyl phosphatidylcholine (DPPC) with fatty acids or diacylglycerols could be formulated to give good adsorption facility and dynamic surface tension lowering to less than 1 mN/m in pulsating bubble measurements at 37 degrees C. However, although biophysical activity approached that of natural lung surfactant (LS) and a related surfactant extract (CLSE) under normal conditions, surface properties were sharply inhibited by relatively small amounts of the plasma protein albumin (2 mg/ml) with minimum surface tensions greater than 30 nM/m even at high surfactant concentrations (5-20 mg lipids/ml). This sensitivity to biophysical inhibition was markedly increased compared to LS and CLSE, and had direct consequences for physiological efficacy: in spite of initially high activity, synthetic surfactants did not exert beneficial effects on P-V mechanics when instilled into surfactant-deficient excised rat lungs. Endogenous protein material was shown to be present upon surfactant recovery by lavage, and bubble measurements confirmed surface activity well below pre-instillation levels. Moreover, full biophysical activity was restored when lavage fluid was extracted to separate the synthetic surfactants from endogenous inhibitors. These results show that it is important to define relative sensitivity to biophysical inhibition in the development of effective lung surfactant substitutes. In addition, the existence of inhibition effects can generate an apparent lack of correspondence between initial biophysical activity and ultimate physiological actions of exogenous surfactant mixtures.

Acyl migration in 1,2-dipalmitoyl-sn-glycerol

The acyl migration of 1,2-dipalmitoyl-sn-glycerol (1,2-DPG) to 1,3-dipalmitoylglycerol (1,3-DPG) in different states, neat, in the presence of egg yolk lecithin (sonicated and unsonicated) and on silica gel was studied. The isomerization was quantitated by scanning densitometry of charred TLC plates, at different temperatures and for varying periods of time. At equilibrium the amount of 1,3-DPG was found to be 56%. The rates of initial isomerization, and the time required to isomerize to half the equilibrium quantity (i.e., t1/2 eq. = 1,3-DPG 28%) under the above conditions was estimated. In the case of neat melt at 74 degrees C and in an organic solvent the time required to t1/2 eq. is 18 h and a few days, respectively. However, at 62 degrees C in the presence of a polar solvent (sodium phosphate buffer at pH 7.0) the t1/2 eq. is 1-2 h. On dry silica gel (TLC plate) at 24 degrees C the t1/2 eq. is reached in less than 1 h.

Effects of cholesterol on the structural transitions induced by diacylglycerol in phosphatidylcholine and phosphatidylethanolamine bilayer systems

The transient membrane lipid diacylglycerol (DG) is known to modify and destabilize phospholipid bilayers and can lead to the formation of nonbilayer structures. Since cholesterol forms a major fraction of many plasma membranes, we have investigated how it modifies the structural effects of DG on bilayers of egg phosphatidylcholine (PC) and egg phosphatidylethanolamine (PE). We view these systems as modelling the behaviour of local, DG-containing sites in membranes. Using X-ray diffraction, we have characterized the lamellar (L alpha) and inverse hexagonal (HII) structures that these ternary lipid mixtures form in excess aqueous solution. As the DG level increases, the lipid progresses from a single L alpha structure to a mixture of L alpha and HII, and then to a pure HII structure. This allows determination of the DG levels at which the HII transition begins, which we interpret as those levels that destabilize bilayers. In both PC and PE bilayers, the presence of 30 mol% cholesterol reduces the amounts of DG required to destabilize the bilayer structure. The destabilization can be translated into the number of neighbouring lipid molecules that a DG molecule perturbs, and of bilayer areas that it affects. The data show that the presence of cholesterol greatly enhances the perturbing effects of DG. We examine the possible role of DG in enzyme activation and membrane fusion.

Bradykinin activates protein kinase C in cultured cortical collecting tubular cells

Bradykinin inhibits vasopressin-stimulated water transport in cortical collecting tubular cells. The biochemical mechanism of this effect was explored by means of primary cultures of rabbit cortical collecting tubular cells. Bradykinin was found to produce a rapid release of calcium from intracellular stores, an increase in sn-1,2-diacylglycerol levels, and a fivefold increase in membrane-bound protein kinase C activity, consistent with stimulation of phospholipase C and activation of protein kinase C in rabbit cortical collecting tubular cells. In addition, bradykinin produced a dose-dependent 46% inhibition of vasopressin-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) formation. Pretreatment with the protein kinase C inhibitors, H-7 and staurosporine, reversed the bradykinin-mediated inhibition of vasopressin-stimulated cAMP accumulation. In contrast, pretreatment with either the phospholipase A2 inhibitor, mepacrine, or pertussis toxin did not prevent the inhibitory effect of bradykinin on vasopressin-stimulated cAMP production, suggesting that the effects are not mediated by prostaglandin E2 or activation of a pertussis-toxin sensitive guanine nucleotide regulatory protein (e.g., Gi). Because bradykinin also inhibits isoproterenol-stimulated cAMP formation but does not inhibit either basal-, forskolin-, or cholera toxin-stimulated cAMP accumulation, the site of this inhibition appears to involve the hormone receptor or coupling of the receptor to the stimulatory guanine nucleotide regulatory subunit (Gs). The results demonstrate that bradykinin stimulates phospholipase C leading to activation of protein kinase C, which then inhibits vasopressin-stimulated cAMP production at the level of the hormone receptor or coupling of the receptor to Gs in cultured cortical collecting tubular cells.

Platelet-derived growth factor stimulates synthesis of 1,2-diacylglycerol from monoacylglycerol in Balb/c 3T3 cells

1,2-Diacylglycerol (1,2,-DAG) plays an important role in the protein kinase C-mediated signal-transduction system. Several reports have shown that 1,2-DAG is generated through various pathways other than classical phospholipid hydrolysis. We observed a rapid incorporation of [3H]myristate into 1,2-DAG in platelet-derived-growth-factor (PDGF)-treated Balb/c 3T3 cells. [14C]Palmitate was similarly incorporated into 1,2-DAG. The effect of PDGF, which was inhibited by cycloheximide, became maximal after 60 min treatment with PDGF, and disappeared 300 min after removal of PDGF. Treatment with triacylglycerol lipase revealed that labelled saturated fatty acid was incorporated into the sn-1 position. PDGF barely stimulated incorporation of [3H]glycerol or [14C]glucose into 1,2-DAG. Incorporation of [3H]myristate into 1,2-DAG preceded that into triacyglycerol and phospholipids. These results suggest that synthesis of 1,2-DAG from monoacylglycerol is enhanced in PDGF-treated cells. However, there is no significant difference in the activity of monoacylglycerol acyltransferase measured in vitro in quiescent and PDGF-treated cells. The reason for this discrepancy is discussed.

Synthetic lipid second messenger sn-1,2-didecanoylglycerol: a complete tumor promoter in mouse skin

sn-1,2-Didecanoylglycerol, a synthetic lipid second messenger and model diacylglycerol, was evaluated as a complete skin tumor promoter in CD-1 mice. In addition, sn-1,2-dioctanoylglycerol, sn-1,2-didecanoylglycerol, the second stage tumor promoter mezerein, and the complete tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) were examined for their ability to stimulate epidermal protein kinase C activity in vitro. All four compounds stimulated epidermal protein kinase C activity utilizing lysine-rich histone as the phosphate acceptor substrate. sn-1,2-Dioctanoylglycerol and sn-1,2-didecanoylglycerol stimulated epidermal protein kinase C activity to a maximum velocity similar to that obtained when the enzyme was stimulated with TPA; however, about 1000 times greater concentration of the sn-1,2-diacylglycerols was required. sn-1,2-Didecanoylglycerol was evaluated as a complete skin tumor promoter in CD-1 mice utilizing a dosing regimen demonstrated to produce epidermal hyperplasia. Mice were initiated with 200 nmol 7,12-dimethylbenz[a]anthracene. One week later the mice received twice daily topical applications of 1 nmol TPA, 2 mumol sn-1,2-didecanoylglycerol or 5 mumol sn-1,2-didecanoylglycerol, 5 days/week. Additional initiated mice received twice weekly topical applications of 2 or 5 nmol TPA. Initiated mice treated with 5 nmol TPA twice weekly or with 1 nmol TPA twice daily for 5 days/week (cumulative weekly doses of 10 nmol TPA) responded similarly, based on the tumor incidence and the average number of tumors per mouse. Initiated mice treated with 2 or 5 mumol sn-1,2-didecanoylglycerol twice daily developed tumors in a dose-dependent manner. Initiated mice treated with 5 mumol sn-1,2-didecanoylglycerol twice daily developed many tumors, and at 20 weeks there was a 74% tumor incidence and an average of 6.0 tumors/mouse. At 20 weeks, 24% of the initiated mice treated with 2 mumol sn-1,2-didecanoylglycerol twice daily developed tumors, with an average of 1.1 tumors/mouse. Mice which were not initiated but treated twice daily with 5 mumol sn-1,2-didecanoylglycerol for 20 weeks did not develop any tumors. These data demonstrate that the representative synthetic lipid second messenger sn-1,2-didecanoylglycerol, like TPA, is a complete tumor promoter in DMBA-initiated mouse skin.

Contrasting effects of inflammatory stimuli on neutrophil and monocyte adherence to endothelial cells

Leukocyte adherence to endothelial cells (EC) is an important early event in inflammatory responses, which are often characterized by a predominance of either neutrophils (PMN) or monocytes. However, there is little information concerning the molecular events important in leukocyte adherence to EC. Intracellular activation of protein kinase C and the calcium-second messenger system leads to the stimulation of a number of important functions in PMN and monocytes. We compared the effects of members of these pathways on human PMN and monocyte adherence to cultured bovine aortic EC. We observed that phorbol myristate acetate, phorbol, 12,13-dibutyrate, L-alpha-1-oleoyl-2-acetoyl-sn-3-glycerol, and ionomycin each induced significant dose-dependent increases in PMN adherence to EC monolayers. In contrast, similar concentrations of each of these agents induced significant decreases in EC adherence of monocytes enriched by countercurrent centrifugal elutriation. Separate experiments determined that the differences in PMN and monocyte adherence to EC were not related to differences in oxidant production because 1) phorbol myristate acetate and L-alpha-1-oleoyl-2-acetoyl-sn-3-glycerol caused similar marked increases in both PMN and monocyte superoxide anion and hydrogen peroxide production and 2) ionomycin, which had opposing effects on PMN and monocyte adherence, had no effect on PMN and monocyte superoxide anion or hydrogen peroxide release. We conclude that activators of protein kinase C and the Ca-second messenger pathway have opposite effects on PMN and monocyte adherence to EC and that these effects are mediated by O2 radical-independent mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)

Physiological levels of diacylglycerols in phospholipid membranes induce membrane fusion and stabilize inverted phases

In the preceding paper (Ellens et al., 1989), it was shown that liposome fusion rates are substantially enhanced under the same conditions which induce isotropic 31P NMR resonances in multilamellar dispersions of the same lipid. Both of these phenomena occur within the same temperature interval, delta TI, below the L alpha/HII phase transition temperature, TH. TH and delta TI can be extremely sensitive to the lipid composition. The present work shows that 2 mol% of diacylglycerols like those produced by the phosphatidylinositol cycle in vivo can lower TH, delta TI, and the temperature for fast membrane fusion by 15-20 degrees C. N-Monomethylated dioleoylphosphatidylethanolamine is used as a model system. These results show that physiological levels of diacylglycerols can substantially increase the susceptibility of phospholipid membranes to fusion. This suggests that, in addition to their role in protein kinase C activation, diacylglycerols could play a more direct role in the fusion event during stimulus-exocytosis coupling in vivo.

The fidelity of response by 1-[4-(trimethylammonio)phenyl]-6-phenyl-1,3,5-hexatriene in time-resolved fluorescence anisotropy measurements on lipid vesicles. Effects of unsaturation, headgroup and cholesterol on orientational order and reorientational dynamics

Time-resolved fluorescence anisotropy measurements on 1-[4-(tri-methylammonio)phenyl]-6-phenyl-1,3,5-hexatriene (TMA-DPH) molecules in lipid vesicles of palmitoyloleoylphosphatidylcholine (POPC), PC extracted from egg yolk (EggPC), dioleoyl-PC (DOPC), dilinoleoyl-PC (DLPC), phosphatidylglycerol extracted from egg yolk (EggPG), dioleoyl-PG (DOPG), sulfoquinovosyldiacylglycerol (SQDG) and digalactosyl-DG (DGDG) with and without cholesterol are presented. The observed intensity decay curves are analyzed simultaneously in terms of the Brownian rotational diffusion model. The analysis thus yields the isotropic fluorescence decay, the initial anisotropy r (0), the order parameters mean value of P2 and mean value of P4 as well as the diffusion coefficient of the long molecular axis. It is shown that increasing unsaturation in the acyl chains of the PC lipids results in an increase in the rotational diffusion rates of the probes and a decrease in the order parameter mean value of P2. However, the value of mean value of P4 remains unchanged. The corresponding orientational distribution function of the probes is bimodal, with fractions lying preferentially parallel and perpendicular to the local vesicle surface. Surprisingly, the fraction of probe molecules lying with their long axes parallel to the bilayer surface increases with increasing unsaturation with a concomitant narrowing in the width of the distribution of the fraction lying perpendicular to it. As expected, cholesterol is found to increase the order parameters in all the systems and to suppress the tendency of the molecules to lie parallel to the bilayer surface. Furthermore, the rotational diffusion coefficients of the probes is found to increase in all the systems except for DLPC. Interestingly, the effects of unsaturation on the reorientational dynamics of TMA-DPH molecules in the vesicle systems are opposite to those found in the corresponding planar multibilayers (Deinum et al. 1988), whereas the same cholesterol effect is observed for the two systems. Nevertheless, the TMA-DPH molecules exhibit higher diffusion coefficients in the vesicle than in the planar multibilayer systems. In addition, a unimodal distribution of the probe molecules is found in the multibilayer systems. The differences between the two systems are ascribed to the differences in the radius of curvature and the hydration of the bilayers. Lastly we rationalize the bimodal distribution of the TMA-DPH molecules in the vesicles in terms of their observed partition between the lipid and aqueous phases.