Interactions of cyclic AMP and its dibutyryl analogue with model membrane: X-ray diffraction and Raman spectroscopic study using cubic liquid-crystalline phases of monoolein

Interactions of adenosine 3':5'-cyclic monophosphate (cAMP) and its dibutyryl analogue, N6,2'-O-dibutyryladenosine 3':5'-cyclic monophosphate (dbcAMP), with a lipid bilayer were studied by small-angle X-ray diffraction (SAXD) and Raman spectroscopy. The cubic Pn3m phase of monoolein (MO) served as a bilayer-based model system. SAXD measurements have indicated that incorporation of approximately 3 wt.% cAMP leaves the phase parameters practically unaltered, whereas the same content of dbcAMP induces the intercubic Pn3m-->Ia3d transition. By applying the concepts of lipid shape parameter and infinite periodic minimal surface to these MO phases, we have suggested that, as opposed to cAMP, dbcAMP associates with the MO bilayer. This conclusion has been supported by the different effects of phase matrix on the Raman shifts of the adenine and phosphate vibrational modes of these two nucleotides. Moreover, Raman spectra have indicated that dbcAMP inserts into the bilayer through the butyryladenine group, positioning dbcAMP preferentially at the polar/apolar interface.     

Effect of cyclic 3′:5′-AMP derivatives,prostaglandins and related agents on human chorionic gonadotropin secretion in human malignant trophoblast in culture

Summary The secretion of human chorionic gonadotropin (hCG) is stimulated by addition of N⁶, O^2′-dibutyryl cyclic 3′:5′-AMP (dbcAMP) or theophylline to normal term placenta and human malignant trophoblast cells in vitro. To understand better the specificity of this process. malignant trophoblast cultures were incubated with 3′:5′-cyclic AMP (cAMP) derivatives, prostaglandins and other agents for 1 to 3 days, and the secretion of radioimmuno-assayable hCG was measured. Whereas dbcAMP was the most potent agent in stimulating secretio of hCG, the N⁶- and O^2′-monobutyryl derivatives of cAMP and phosphodiesterase inhibitors (theophylline, papaverine, 3-isobutyl-1-methylxanthine) also increased the secretion of the hormone. A slight increase in hCG secretion was observed following addition of adenine. By contrast, butyrate, cAMP, cyclic 3′:5′-GMP (cGMP), dbcBMP, 5′-AMP, adenosine, L-epinephrine and prostaglandins E₁, E₂, F_1α and F_2α were ineffective. Particulate fractions from sonicates of malignant trophoblast cultures contained adenylate cyclase activity which was stimulated more than 10-fold by NaF, but not by either catecholamines or prostaglandins. The relatively specific stimulation of hCG secretion suggested that a regulatory process involving cAMP may have physiological significance in the trophoblast. This investigation was supported by Grant Nos. CA14232 and CA16539 awarded by the National Cancer Institute, DHEW.     

Effects of cyclic adenosine 3′:5′-monophosphate-elevating agents and retinoic acid on differentiation in retinoid-deficient tracheal cultures

Summary The ability of cyclic AMP-elevating agents to induce normal differentiation has been investigated in retinoid-deficient hamster tracheal epithelium in organ culture. Dibutyryl cAMP (dbcAMP) and other cAMP-regulating agents alone caused disappearance of keratin and regeneration of normal mucociliary epithelium in retinoid-deficient cultures. Incubation of retinoid-deficient cultures with dbcAMP, isoproterenol, and cholera toxin (CT) (without addition of exogenous retinoid) reversed keratinization in a dose-dependent manner. The ED₅₀ of cultures treated with dbcAMP was 4×10⁻⁶ M; ED₅₀ of isoproterenol was 7×10⁻⁵ M; and CT, 0.6 μg/ml. Phosphodiesterase inhibitors and other cAMP analogs were inactive. Dibutyryl cAMP in combination with theophylline enhanced normal differentiation. Retinoid-deficient tracheas pretreated for 20 h with 10⁻⁹ M all-trans-retinoic acid (RA) responded to 10⁻⁶ M dbcAMP by potentiating normal differentiation; this concentration of dbcAMP alone was inactive. Isoproterenol showed a similar response but to a lesser degree. These cAMP-elevating agents applied in combination with theophylline did not increase activity. This investigation was supported by National Cancer Institute Contract NO1-CP-31012.     

Farnesol and geranylgeraniol modulate the structural properties of phosphatidylethanolamine model membranes

The biological activity of farnesol (FN) and geranylgeraniol (GG) and their isoprenyl groups is related to membrane-associated processes. We have studied the interactions of FN and GG with 1,2-dielaidoyl-sn-glycero-3-phosphoethanolamine (DEPE) membranes using DSC and X-ray diffraction. Storage of samples at low temperature for a long time favors a multidomain system formed by a lamellar crystalline (Lc) phase and isoprenoids (ISPs) aggregates. We demonstrate that ISPs alter the thermotropic behavior of DEPE, thereby promoting a H_II growth in a lamellar Lc phase with a reduced degree of hydration. The H_II phase occurs with the same repeat distance (d_HII=5.4 nm) as the Lc phase and upon heating it expands considerably (δd/δT≈0.22 nm/°C). The dimensional stabilization of this H_II phase coincides with the transition temperature of the Lc to L_α phase. Thereafter, the system DEPE/ISP will progress by increasing the nonlamellar-forming propensity and reaching a single H_II phase at high temperature. The cooling scan followed a similar structural path, except that the system went into a stable gel phase L_β with a repeat distance, d_Lβ=6.5 nm, in co-existence with a H_II phase. The formation of ISP microdomains in model PE membranes substantiates the importance of the isoprenyl group in the binding of isoprenylated proteins to membranes and in lipid–lipid interactions through modulation of the membrane structure.     

Differential Activation of Dual Signaling Responses by Human H1 and H2 Histamine Receptors

Abstract

Stimulation of human H₁ and H₂‐histamine receptors (HRs) primarily activates signaling pathways to increase intracellular calcium [Ca²⁺]_i and cyclic AMP (cAMP), respectively. Activation of H₂‐HR in human embryonic kidney (HEK) cells by histamine and dimaprit increases both cAMP formation and [Ca²⁺]_i, as determined by cAMP‐scintillation proximity assays and fluorescence imaging plate reader (FLIPR) assays. In HEK cells expressing relatively high levels of H₂‐HR (B_max = 26 pmol/mg protein), histamine and dimaprit are full agonists in eliciting cAMP responses with pEC₅₀ values of 9.30 and 7.72 that are 1000‐fold more potent than their respective pEC₅₀ values of 6.13 and 4.91 for increasing [Ca²⁺]_i. The agonist potencies decrease for both responses at lower H₂‐HR density (5 pmol/mg protein) and dimaprit exhibits partial agonist behavior for the [Ca²⁺]_i response. The inverse agonists ranitidine and cimetidine more potently inhibit cAMP production in the higher expressing H₂‐HR line. Histamine also activated both signaling pathways via human H₁‐HRs highly expressed (B_max = 17 pmol/mg protein) in HEK cells, with a 1000‐fold greater potency for [Ca²⁺]_i vs. cAMP responses (pEC₅₀ = 7.86 and 4.82, respectively). These studies demonstrate a markedly different potency for activation of multiple signaling pathways by H₁‐ and H₂‐HRs that may contribute to the selectivity of histamine responses in vivo.     

The Kinetics of Non-Lamellar Phase Formation in DOPE-Me: Relevance to Biomembrane Fusion

The mechanism of the lamellar/inverted cubic (Q_II) phase transition is related to that of membrane fusion in lipid systems. N-Monomethylated dioleoylphosphatidylethanolamine (DOPE-Me) exhibits this transition and is commonly used to investigate the effects of exogenous substances, such as viral fusion peptides, on the mechanism of membrane fusion. We studied DOPE-Me phase behavior as a first step in evaluating the effects of membrane-spanning peptides on inverted phase formation and membrane fusion. These measurements show that: a) the onset temperatures for Q_II and inverted hexagonal (H_II) phase formation both are temperature scan rate-dependent; b) longer pre-incubation times at low temperature and lower temperature scan rates favor formation of the Q_II phase; and c) in temperature-jump experiments between 61 and 65°C, the meta-stable H_II phase forms initially, and disappears slowly while the Q_II phase develops. These observations are rationalized in the context of a mechanism for both the lamellar/non-lamellar phase transition and the related process of membrane fusion. Current address for D.P.S.: Givaudan, Cincinnati, OH 45216 Data Deposition: Relevant transition temperatures in this paper have been deposited in the LIPIDAT ( )     

Effects of gramicidin-A on the adsorption of phospholipids to the air-water interface

Prior studies suggest that the hydrophobic surfactant proteins, SP-B and SP-C, promote adsorption of the lipids in pulmonary surfactant to an air-water interface by stabilizing a negatively curved rate-limiting structure that is intermediate between bilayer vesicles and the surface film. This model predicts that other peptides capable of stabilizing negative curvature should also promote lipid adsorption. Previous reports have shown that under appropriate conditions, gramicidin-A (GrA) induces dioleoyl phosphatidylcholine (DOPC), but not dimyristoyl phosphatidylcholine (DMPC), to form the negatively curved hexagonal-II (H_II) phase. The studies reported here determined if GrA would produce the same effects on adsorption of DMPC and DOPC that the hydrophobic surfactant proteins have on the surfactant lipids. Small angle X-ray scattering and ³¹P-nuclear magnetic resonance confirmed that at the particular conditions used to study adsorption, GrA induced DOPC to form the H_II phase, but DMPC remained lamellar. Measurements of surface tension showed that GrA in vesicles produced a general increase in the rate of adsorption for both phospholipids. When restricted to the interface, however, in preexisting films, GrA with DOPC, but not with DMPC, replicated the ability of the surfactant proteins to promote adsorption of vesicles containing only the lipids. The correlation between the structural and functional effects of GrA with the two phospholipids, and the similar effects on adsorption of GrA with DOPC and the hydrophobic surfactant proteins with the surfactant lipids fit with the model in which SP-B and SP-C facilitate adsorption by stabilizing a rate-limiting intermediate with negative curvature.     

Pivotal surfaces in inverse hexagonal and cubic phases of phospholipids and glycolipids

Data on the location and dimensions of the pivotal surfaces in inverse hexagonal (H_II) and inverse cubic (Q_II) phases of phospholipids and glycolipids are reviewed. This includes the H_II phases of dioleoyl phosphatidylethanolamine, 2:1 mol/mol mixtures of saturated fatty acids with the corresponding diacyl phosphatidylcholine, and glucosyl didodecylglycerol, and also the Q_II^230/G gyroid inverse cubic phases of monooleoylglycerol and glucosyl didodecylglycerol. Data from the inverse cubic phases are largely compatible with those from inverse hexagonal H_II-phases. The pivotal plane is located in the hydrophobic region, relatively close to the polar–apolar interface. The area per lipid at the pivotal plane is similar in size to lipid cross-sectional areas found in the fluid lamellar phase (L_α) of lipid bilayers.     

Phase equilibria of model milk membrane lipid systems

The phase behaviour of mixtures of recombined milk membrane lipids dioleoylphosphatidylcholine (DOPC), sphingomyelin (SM), dioleoylphosphatidylethanolamine (DOPE), phosphatidylinositol (PI) and dioleoylphosphatidylserine (DOPS) in 60% water was examined as a function of temperature between 5 and 90 degrees C. The aim was to examine under which lipid composition the average properties turn from balanced over to hydrophobic. The phase boundaries were determined by small angle X-ray diffraction (SAXD) and differential scanning calorimetry (DSC). The lamellar phase was dominating in the DOPC/SM/DOPE system. The phase boundary for the reversed hexagonal phase was only observed at high DOPE content within the examined temperature interval. The anionic phospholipids PI and DOPS induced a swollen lamellar phase, but no significant change of the transition between the lamellar phase and the reversed hexagonal phase was observed.     

Fusion Peptides Promote Formation of Bilayer Cubic Phases in Lipid Dispersions. An X-Ray Diffraction Study

Small angle x-ray diffraction revealed a strong influence of the N-terminal influenza hemagglutinin fusion peptide on the formation of nonlamellar lipid phases. Comparative measurements were made on a series of three peptides, a 20-residue wild-type X-31 influenza virus fusion peptide, GLFGAIAGFIENGWEGMIDG, and its two point-mutant, fusion-incompetent peptides G1E and G13L, in mixtures with hydrated phospholipids, either dipalmitoleoylphosphatidylethanolamine (DPoPE), or monomethylated dioleoyl phosphatidylethanolamine (DOPE-Me), at lipid/peptide molar ratios of 200:1 and 50:1. All three peptides suppressed the H_II phase and shifted the L_α–H_II transition to higher temperatures, simultaneously promoting formation of inverted bicontinuous cubic phases, Q_II, which becomes inserted between the L_α and H_II phases on the temperature scale. Peptide-induced Q_II had strongly reduced lattice constants in comparison to the Q_II phases that form in pure lipids. Q_II formation was favored at the expense of both L_α and H_II phases. The wild-type fusion peptide, WT-20, was distinguished from G1E and G13L by the markedly greater magnitude of its effect. WT-20 disordered the L_α phase and completely abolished the H_II phase in DOPE-Me/WT-20 50:1 dispersions, converted the Q_II phase type from Im3m to Pn3m and reduced the unit cell size from ∼38 nm for the Im3m phase of DOPE-Me dispersions to ∼15 nm for the Pn3m phase in DOPE-Me/WT-20 peptide mixtures. The strong reduction of the cubic phase lattice parameter suggests that the fusion-promoting WT-20 peptide may function by favoring bilayer states of more negative Gaussian curvature and promoting fusion along pathways involving Pn3m phase-like fusion pore intermediates rather than pathways involving H_II phase-like intermediates.     

Thermotropism and hydration properties of POPE and POPE-cholesterol systems as revealed by solid state2H and31P-NMR

The partial phase diagram and the hydration properties of the 1-palmitoyl-2-oleoyl-phosphatidylethanolamine (POPE)-water system, in the absence and presence of 30 mol% cholesterol, have been investigated by solid state phosphorus NMR of the lipid and deuterium NMR of heavy water. The POPE-D₂O phase diagram resembles other phosphatidylethanolamine (PE)-water systems: below water-to-lipid molar ratios (R_i) of 3 the lamellar gel (L or L_c)-to-hexagonal type II (H_II) phase sequence is observed on increasing the temperature. For R_i3 the thermotropic sequence (L or L_c)-L-H_II is detected. On increasing hydration from R_i=3, the H_II phase is detected from 40°C to 85°C whereas the gel phase is observed from 40°C to 30°C. The limiting hydrations of the gel, L and H_II phases are R_i 3, 17 and 20, respectively. The number of bound water molecules per lipid is ca. 8 in both the La and HII phases. The presence of cholesterol stabilizes the hexagonal phase 20°C below temperatures at which it is observed in its absence and reduces the limiting hydration of the fluid and hexagonal phases to Ri 9 and 14, respectively. The structure and/or dynamics of the water bound to the interface are markedly modified on going from the L to the H_II phase.Abbreviations NMR Nuclear magnetic resonance - DDPE 1,2-Didodecyl-rac-glycerol-3-phosphoethanol-amine - DHPE 1,2-Dihexadecyl-sn-glycerol-3-phosphoethanol-amine - DOPE 1,2-Dioleoyl-sn-glycerol-3-phosphoethanol-amine - POPE 1-Palmitoyl-2-oleoyl-sn-glycerol-3-phosphoetha-nolamine - DAPE 1,2-Diarachinoyl-sn-glycerol-3-phosphoethanol-amine - DMPC 1,2-Dimyristol-sn-glycerol-3-phosphocholine - DPPC 1,2-Dipalmitoyl-sn-glycerol-3-phosphocholine - T_c lamellar gel-to-lamellar fluid transition temperature - T_h lamellar fluid-to-hexagonal transition temperature     

Analysis of the hexagonal II phase and its relations to lipidic particles and the lamellar phase A freeze-fracture study

Model systems of phosphatidylethanolamine (PE) and cardiolipin (DPG), as pure components and in binary mixtures with phosphatidylcholine (PC) have been morphologically analysed. The relation between the hexagonal_II (H_II) phase and lipidic particles as well as between the H_II phase and the lamellar phase has been studied. Moreover, the periodicity of the various H_II tubes was determined. (1) The periodicity of the H_II phase of cardiolipin is dependent on the cation involved. DPG-Ca exhibits the smallest tube to tube distance when compared to Mg²⁺ and Mn²⁺. Moreover, the DPG-Ca tubes are quite straight, in contrast to the Mg²⁺ and Mn²⁺ tubes, which appear to be frequently curved. (2) H_II tubes with two distinct diameters have been observed in H_II phase containing lipid mixtures. The thickness of the H_II tube is related to the composition of the tube. In the cardiolipin-lecithin system, structural separation of the pure cardiolipin H_II phase has been suggested with Mg²⁺ and Mn²⁺, but not with Ca²⁺. (3) Models for the H_II to lamellar phase transition and for the H_II phase to the lipidic particles are presented. (4) Lipidic particles are exclusively found in lipid model systems, which contain H_II phase favouring lipids. Morphological evidence is presented which suggests these lipidic particles represent inverted micelles. These observations include: (${}_{\mathrm{<mtext>i</mtext>}}$) there is a strong topological and quantitative relation between H_II tubes and lipidic particles, (${}_{\mathrm{<mtext>ii</mtext>}}$) lipidic particles occur densely packed in conglomerates without the presence of a smooth layer.     

Anesthetic Barbiturates Enhance Gsα-Dependent Cyclic AMP Production in S49 Mouse Lymphoma Cells

Abstract: Cyclic AMP (cAMP) regulates many important physiological processes. Barbiturates influence cAMP regulation, possibly through effects on G proteins. This study used intact S49 mouse lymphoma cells to characterize the role of G proteins in the effect of barbiturates on cAMP regulation. cAMP accumulation was determined in intact S49 WT (wild-type) and S49 cyc^? cells (the G_sα-deficient mutant) by measuring the conversion of [³H]-ATP to [³H]cAMP in cells preloaded with [³H]adenine. Pentobarbital enhanced cAMP accumulation in WT cells in the absence (basal) or presence of isoproterenol but had no effect on the EC₅₀ for isoproterenol. This effect was dose dependent with a 50–60% enhancement at 2 mM pentobarbital. Pentobarbital did not affect forskolin-stimulated cAMP accumulation in WT cells. In cyc^? cells, basal and forskolin-stimulated cAMP accumulation were stimulated only at the highest concentration of pentobarbital used (2 mM). Pentobarbital did not affect the inhibition of cAMP accumulation by somatostatin in WT cells, and pertussis toxin treatment of WT cells did not affect the action of pentobarbital on cAMP accumulation. Pentobarbital did not affect isoproterenol-stimulated adenylyl cyclase activity in whole-cell homogenates or membranes prepared from WT cells. The S-(?)-isomer of pentobarbital enhanced isoproterenol-stimulated cAMP accumulation more than the R-(+)-isomer. Phenobarbital and barbituric acid did not enhance isoproterenol-stimulated cAMP accumulation, whereas the anesthetic barbiturates hexobarbital, pentobarbital, and thiopental all enhanced activity. These results suggest that pentobarbital enhances cAMP accumulation in intact WT cells by a mechanism that is dependent on G_sα but independent of G_i. The properties of barbiturates that are responsible for the enhancement of cAMP accumulation may be related to the properties that are responsible for producing sedation and anesthesia.     

An Improved, Automated Adenylate Cyclase Assay Utilizing Preparative HPLC: Effects of Phosphodiesterase Inhibitors

Abstract: Analysis of adenylate cyclase (ACase) activity in broken cell preparations usually involves conversion of [α-³²P]ATP to [³²P]cyclic AMP (cAMP) followed by purification of cAMP by liquid chromatographic methods. An automated, preparative reverse-phase HPLC procedure was developed that purifies cAMP rapidly and decreases variability and background. It permits the separation procedure to be validated rapidly prior to use with actual samples, and is readily adaptable for assaying guanylate cyclase, phosphodiesterases (PDE), or a variety of other related nucleotide-metabolizing enzymes. For ACase assays, 4.5% ZnSO₄-10% Ba(OH)₂ is added to the incubation mixture, and following centrifugation, the supernatant is injected on an HPLC apparatus fitted with a Waters Z-Module containing a 10-μ C₁₈ reverse-phase cartridge. Using a mobile phase of 0.15 M sodium acetate-20% methanol (pH 5.0) at a flow rate of 4 ml/min, cAMP is eluted at k′ > 1.25, whereas k′ < 0.5 for all other adenine nucleotides, permitting collection of the cAMP fraction after running the other nucleotides to waste. The method was validated by characterizing dopamine-sensitive ACase in homogenates of striatum from Sprague-Dawley rats. Basal activity (177 ± 16 pmol/mg protein/min), the stimulation by dopamine (186 ± 19 pmol/mg/min), the apparent K_m for dopamine (5.0 ± 1.5 μM), and expected effects of varying magnesium, EGTA, and GTP were similar to available data. However, it was found that isobutylmethylxanthine (IBMX) or theophylline, usually included in the incubation mixture as PDE inhibitors, markedly inhibited the synthesis of cAMP in both the presence and absence of dopamine. A consequence of this inhibition was a marked change in the apparent K_m of dopamine calculated from a Lineweaver-Burk plot. The use of IBMX to inhibit PDEs was compared with an alternate strategy, the addition of excess exogenous cAMP. Simultaneous analysis of PDE and ACase activity was accomplished by including [³H]cAMP in the incubation and quantifying the amounts of [³H]cAMP hydrolyzed and [³²P]cAMP synthesized. Without IBMX, a concentration of 1 mM exogenous cAMP was sufficient to prevent significant loss of [³H]cAMP. In the absence of exogenous cAMP, 0.5 mM IBMX did not completely prevent the breakdown of [³H]cAMP, whereas 2.5 mM IBMX did. Although there was 25% less [³H]cAMP recovered in the presence of 0.5 mM IBMX than with 2.5 mM IBMX, there was no difference in the amount of [³²P]cAMP formed (either with or without dopamine). Moreover, in the presence of IBMX, there was a 20–30% lower synthesis of [³²P]cAMP compared with incubations in which only 1 mM cAMP was used to prevent breakdown of [³²P]cAMP. These data suggest that alkylxanthines, possibly through effects on adenosine receptors, may cause unexpected effects on estimations of dopamine-stimulated ACase. The use of exogenous cAMP as an alternate substrate for PDEs may be one way to obviate these problems.     

High-performance liquid chromatographic identification and quantitation of cyclic adenosine 3':5'-monophosphate in higher (Phaseolus vulgaris L.) and lower (Chlorella sp.) plants

Cyclic adenosine 3':5'-monophosphate (cAMP) was extracted from Phaseolus vulgaris L. cv. Limburg seedlings and Chlorella sp. The cAMP was purified by charcoal adsorption, polyvinylpyrrolidone (PVP) and Dowex 50 W × 8 column chromatography and by preparative high-performance liquid chromatography (HPLC). Quantitation was achieved by combining phosphodiesterase (PDE) treatment with analytical HPLC (reversed phase ion-pair partition chromatography) and cAMP-dependent protein kinase activation. This provided a very specific, accurate and sensitive assay for cAMP determinations. The cAMP content found in Chlorella (70–90 pmol/g dry wt) was comparable with previous reports using other quantitation methods, whereas the endogenous concentration found in bean seedlings (92 pmol/g dry wt) was considerably lower than previously reported data.     

Differentiation of adenine non-planarity in valence molecular orbitals

Two molecular orbitals: MO7 (29a) and MO13 (23a) have been identified using dual space analysis (DSA) as the signatures of adenine non-planarity (C₁ point group symmetry). The non-planarity of adenine has been demonstrated to be from the attachment of the amino group (NH₂) to purine rings as well as the non-rigid deformability of the purine ring of adenine. Orbital 29a (3a″ in the planar case), a π-like orbital, is the direct result of the attachment of the amino group to the purine ring. Orbital 23a (23a′ in the planar case) is the result of the deformability of the purine ring in non-planar adenine (NP) and will be experimentally challenging to resolve.     

The effects of hydration and divalent cations on lamellar-nonlamellar phase transitions in membranes and total lipid extracts from Acholeplasma laidlawii A-EF22 – a 2H NMR study

Acholeplasma laidlawii strain A-EF22 was grown in a medium supplemented with 75 μm α-deuterated palmitic acid (16:0-d ₂) and 75 μm α-deuterated oleic acid (18:1c-d ₂), or with 150 μm 18:1c-d ₂. The fatty acids were incorporated into the membrane lipids and ²H NMR spectra were recorded from intact membranes, total lipid extracts, and the combined glucolipid and neutral lipid fractions of a total lipid extract. The lipids in intact membranes form a bilayer structure up to at least 70 °C. The same result was obtained with membranes digested with pronase, which removes a large fraction of the membrane proteins. A reversed hexagonal liquid crystalline (H_II) phase was formed below 70 °C by the total lipid extracts hydrated with 20 and 30% (w/w) water; in the presence of 40% (w/w) water only one of the extracts formed an H_II phase below 70 °C. The H_II phase was formed at higher temperatures with an increasing water content. However, only a lamellar liquid crystalline (L _α ) phase was formed up to 70 °C by the total lipid extracts when the water concentrations were 50% (w/w) or higher. The temperature (T _LH) for the L _α to H_II phase transition in the combined glucolipid and neutral lipid fractions was only 2–3 °C lower than for the total lipids, and the phospholipids thus have a very modest influence on the T _LH value. Physiologically relevant concentrations of Ca²⁺ and Mg²⁺ ions did not affect the phase equilibria of total lipid extracts significantly. It is concluded from comparison with published data that the membrane lipids of the cell wall-less bacterium A. laidlawii have a smaller tendency to form reversed nonlamellar phases than the membrane lipids of three bacterial species surrounded by a cell wall. Received: 10 March 1997 / Accepted: 4 July 1997     

Effect of cyclic 3':5'-AMP derivatives prostaglandins and related agents on human chorionic gonadotropin secretion in human malignant trophoblast in culture.

The secretion of human chorionic gonadotropin (hCG) is stimulated by addition of N6, O2'-dibutyryl cyclic 3':5'-AMP (dbcAMP) or theophylline to normal term placenta and human malignant trophoblast cells in vitro. To understand better the specificity of this process, malignant trophoblast cultures were incubated with 3':5'-cyclic AMP (cAMP) derivatives, prostaglandins and other agents for 1 to 3 days, and the secretion of radioimmunoassayable hCG was measured. Whereas dbcAMP was the most potent agent in stimulating secretion of hCG, the N6--and O2'-monobutyryl derivatives of cAMP and phosphodiesterase inhibitors (theophylline, papaverine, 3-isobutyl-1-methylxanthine) also increased the secretion of the hormone. A slight increase in hCG secretion was observed following addition of adenine. By contrast, butyrate, cAMP, cyclic 3':5'-GMP (cGMP), dbcGMP, 5'-AMP, adenosine, L-epinephrine and prostaglandins E1, E2, F1a and F2a were ineffective. Particulate fractions from sonicates of malignant trophoblast cultures contained adenylate cyclase activity which was stimulated more than 10-fold by NaF, but not by either catecholamines or prostaglandins. The relatively specific stimulation of hCG secretion suggested that a regulatory process involving cAMP may have physiological significance in the trophoblast.     

Docosahexaenoic acid-containing phosphatidylethanolamine enhances HL-60 cell differentiation by regulation of c-jun and c-myc expression

18:1/docosahexaenoic acid (DHA)-containing phosphatidylethanolamine (PE) enhanced cell differentiation and growth inhibition of HL-60 induced by dibutyryl cAMP (dbcAMP) in a dose-dependent manner. The combined treatment of 200 μM dbcAMP and 50 μM 18:1/DHA-PE increased the NBT reducing activity, which is as an indicator of cell differentiation, to more than 75% from 40% of cells treated with 200 μM dbcAMP alone. In HL-60 cells treated with 50 μM 18:1/DHA-PE and 200 μM dbcAMP for 24 h, the expression level of c-jun mRNA and c-Jun protein were remarkably elevated compared to cells treated with dbcAMP alone. In contrast, there was no difference in the expression levels of c-fos mRNA and c-Fos protein between the combination of 18:1/DHA-PE + dbcAMP or dbcAMP alone. On the other hand, the combine treatment of 18:1/DHA-PE and dbcAMP markedly reduced the expression level of c-myc oncogene during 48 h incubation. The decreases of c-myc mRNA by 18:1/DHA-PE and/or dbcAMP was correlated with growth inhibition effect. Thus, 18:1/DHA-PE might enhance dbcAMP-induced HL-60 cell differentiation and growth inhibition by regulation of c-jun and c-myc mRNA and their products.     

Induction of a hexagonal phase in phospholipid-surfactant bilayers

The possibility of modifying the curvature of lipid bilayers by mixing them with additives is demonstrated and the evolution of geometrical parameters with composition is discussed. X-ray diffraction patterns of the POPC/C₁₂EO₂/²H₂O system were observed as a function of the relative humidity. The formation of an unexpected hexagonal phase indicates peculiar behaviour in these mixtures. The cylinder radius of this phase is considerably smaller than previously observed in cubic phases. A discussion of the head group interactions is presented. We have also been able to show that the uptake of water by the L _β gel phase is higher as a single phase than in the L _β +H_II two phase region. The water content is important for the stabilization of H_II phase and determination of its characteristic dimensions. However, it is argued that the interaction between the surfactant and the lipid is the key factor for its formation and that the EO₂ head groups displace water from the inner parts of the polar region of the mesogenic units. Received: 22 September 1997 / Revised version: 31 December 1997 / Accepted: 10 February 1998