Characterization of ATPase Activity Associated with Plasma Membrane from Vigna Hypocotyls

A plasma membrane fraction was isolated from the hypocotylsof cowpea {Vigna unguiculata) by a combination of differentialcentrifugation and sucrose density gradient centrifugation.The ATPase activity of this fraction was dependent on divalentcations (Mn²⁺>Mg²⁺>Co²⁺>Ca²⁺>Fe²⁺>Zn²⁺>Ni²⁺)but was not further stimulated by monovalent cations (K⁺ and/orNa⁺). The pH optimum for the activation of ATPase by Mg²⁺ was7.0. This fraction hydrolyzed ATP or UTP as a substrate andthe ATPase activity obeyed a Michaelis-Menten type of kinetics.The K_m for MgATP ranged from 0.65 to 1.1 mM. The ATPase activitywas inhibited by inhibitors such as N, N'- dicyclohexylcarbodiimide,diethylstilbestrol and triphenyltin chloride, all of which arereported to block proton (H⁺) transport in plant cells, butwas insensitive to those of mitochondrial ATPase such as oligomycinand sodium azide. The ATPase activity was not stimulated bytreatment with ionophores (e.g., carbonyl cyanide p-trifluoromethoxyphenylhydrazone,3,5-di-ter-butyl-4-hydroxybenzilidenemalononitrile and valinomycin⁺KCl)which would be expected to dissipate the electrochemical potentialdifference of H⁺ or the membrane potential difference. The characteristics of the ATPase are compared with those ofplasma membrane ATPases of other plants and its possible rolein H⁺-transport is discussed. ¹ Present address: Institute of Applied Biochemistry, Yagi MemorialPark, Mitake, Gifu 505-01, Japan or Laboratory for Plant EcologicalStudies, Faculty of Science, Kyoto University, Kyoto 606, Japan. (Received April 20, 1984; Accepted August 14, 1984)     

Particle-bound phytochrome: Differential pigment release by surfactants, ribonuclease and phospholipase C

Surfactants and hydrolytic enzymes were used to probe the natureof the constituents) to which phytochrome binds in paniculatefractions from red-irradiated Cucurbita. [¹⁴C]-choline and [³H]-uridinepre-labelled tissue was used to monitor the release of phospholipidsand RNA by these agents. Ribonuclease (RNase) digestion of 20,000xgpellets eliminates both the phytochrome and ribonucleoprotein(RNP) which cosediment at 31S. Little [¹⁴C]-choline occurs inthe 31S fraction and the amount is not changed by RNase digestion.This is further evidence that phytochrome binds directly tothe RNP in the 31S fraction rather than to any membranous materialpresent. The distribution profile of the RNA in a second ( =‘heavy’)phytochrome fraction does not correlate with that of the pigment.This suggests that the phytochrome in this fraction is not boundto RNP. The RNA is of ribosomal origin but much less degradedthan that of the 31S RNP and is resistant to RNase digestion.Phospholipase C releases>80% of the [¹⁴C]-choline from the‘heavy’ fraction without freeing phytochrome. Thisindicates that the pigment does not bind to the polar head groupsof the membrane phospholipids present. Low concentrations ofdeoxycholate dissociate phytochrome from this fraction withoutreleasing substantial quantities of integral membrane proteinsor phospholipids. Some RNP is dislodged by the surfactant butthe phytochrome and RNP are not released as a complex. The datasuggest that the pigment in the ‘heavy’ fractionmay be loosely bound to a protein constituent rather than toRNP or polar phospholipids. ¹This work was done while on sabbatical leave from the WeizmannInstitute of Science, Rehovot, Israel. (Received April 1, 1976; )     

Plasma membrane isolation from freshwater and salt-tolerant species of Chara: antibody cross-reactions and phosphohydrolase activities

Plasma membranes were isolated using the aqueous polymer two-phasepartition method from the algae Chara corallina and Chara longifolia,algae which differ in their ability to grow in saline environments.Enrichment of plasma membrane and depletion of tonoplast relativeto the microsomal fraction was monitored using phosphohydrolaseassays and crossreactions to antibodies raised against higherplant transporters. Antibodies to the vacuolar ATPase and pyrophosphatasecross-reacted with epitopes in the microsomal fraction, butshowed little affinity for the plasma membrane fraction. Pyrophosphataseactivity also declined in the plasma membrane fraction relativeto the microsomal fraction. The V-type H⁺ -ATPase activity,sensitive to nitrate or bafilomycin, was low in both fractions,though the cross-reaction to the antibody was reduced in theplasma membrane fraction. By contrast, the antibody recognitionof a P-type H⁺-ATPase amino acid sequence from Arabidopsis didnot occur strongly in the anticipated 90–100 kDa range.While there was enhanced recognition of a polypeptide at around140 kDa in the plasma membrane fraction, salt treatment of Charalongifolia resulted in plasma membrane fractions with reducedamounts of this epitope, but no change in vanadate-sensitiveATPase activity, suggesting that it does not represent the onlyP-type ATPase. Microsomal membranes from saltadapted C. longifoliahave higher reactivity with the antibody to the tonoplast ATPase. Key words: Chara, plasma membrane, salt tolerance, ATPase     

Role of Chitinase and Chitin Oligosaccharides in Lignification Response of Cultured Carrot Cells Treated with Mycelial Walls

Chitinase activity was induced in cultured carrot cells by incubationwith mycelial walls of a fungus, Chaetomium globosum. Both intra-and extracellular chitinases were resolved into four componentsby gel filtration chromatography. The extracellular enzymesliberated soluble oligosaccharides of different sizes from insolublechitin, suggesting that these carrot chitinases are endo-hydrolases.The solubilized chitinase digests obtained from insoluble mycelialwalls of C. globosum and chitin were fractionated by gel filtrationchromatography, and the elicitor activity of each fraction forthe accumulation of phenolic acids in cultured carrot cellswas determined. In both solubilized fragments of fungal wallsand of chitin, elicitor-active oligosaccharides were distributedin many fractions, however, potent activity for inducing phenolicacid synthesis was observed in the high molecular weight fractions. (Received October 5, 1987; Accepted February 12, 1988)     

The PLAC1 protein localizes to membranous compartments in the apical region of the syncytiotrophoblast

PLAC1 is a trophoblast-specific gene that maps to a locus on the X-chromosome important to placental development. We have previously shown that PLAC1 gene expression is linked to trophoblast differentiation. The objective of this study was to define the localization of the PLAC1 polypeptide as a prerequisite to understanding its function. Polyclonal antibodies specific for the putative PLAC1 polypeptide were generated. The subcellular localization of PLAC1 in the trophoblast was examined by immunohistochemical analysis of human placenta complemented by immunoblot analysis of subcellular fractions. Brightfield immunohistochemical analysis of placental tissue indicated that the PLAC1 protein localizes to the differentiated syncytiotrophoblast in the apical region of the cell. Deconvlution immunofluorescence microscopy confirmed localization to the apical region of the syncytiotrophoblast. Its distribution included both intracellular compartments as well as loci in close association with the maternal-facing, microvillous brush border membrane (MVM). These findings were supported by immunoblot analysis of subcellular fractions. A 30 kDa band was associated with the microsomal fraction of placental lysates but not the mitochondrial, nuclear, or soluble fractions, suggesting PLAC1 is targeted to a membrane location. Plasma membranes were obtained from the fetal-facing, basal surface (BM) and the maternal-facing, MVM of the syncytiotrophoblast membrane. PLAC1 immunoreactivity was only detected in membrane fractions derived from the apical MVM consistent with immunohistochemical analyses. These data demonstrate that the PLAC1 protein is restricted primarily to the differentiated trophoblast, localizing to intracellular membranous compartment(s) in the apical region of the syncytiotrophoblast and associated with its apical, microvillous membrane surface.     

2-Iminothiolane: a reagent for the introduction of sulphydryl groups into oligosaccharides derived from asparagine-linked glycans

A facile method for introducing reactive sulphydryl groups intooligosaccharides was developed. 1-Amino-oligo-saccharides generatedfrom asparagine-linked glycans by peptide-N⁴(N-acetyl-ß-D-glucosaminyl)asparagine amidase (PNGase F) digestion were monitored by high-performanceanion-exchange chromatography with pulsed amperometric detectionand derivatized under optimal conditions with 2-iminothiolane—HC1.The resulting mercapto-butyramido oligosaccharides, which wereobtained in high yield, were alkylated with a fluorescent reagentand used to selectively assay for endoglycosidases that hydrolysedi-N-acetyl-chitobiose linkages. 1-amino-oligosaccharides fluorescent oligosaccharides 2-iminothiolane mercapto-butyramido oligosaccharides     

Localization and Solubilization of the Iron(III) Reductase of Geobacter sulfurreducens

The iron(III) reductase activity of Geobacter sulfurreducens was determined with the electron donor NADH and the artificial electron donor horse heart cytochrome c. The highest reduction rates were obtained with Fe(III) complexed by nitrilotriacetic acid as an electron acceptor. Fractionation experiments indicated that no iron(III) reductase activity was present in the cytoplasm, that approximately one-third was found in the periplasmic fraction, and that two-thirds were associated with the membrane fraction. Sucrose gradient separation of the outer and cytoplasmic membranes showed that about 80% of the iron(III) reductase was present in the outer membrane. The iron(III) reductase could be solubilized from the membrane fraction with 0.5 M KCl showing that the iron(III) reductase was weakly bound to the membranes. In addition, solubilization of the iron(III) reductase from whole cells with 0.5 M KCl, without disruption of cells, indicated that the iron(III) reductase is a peripheral protein on the outside of the outer membrane. Redox difference spectra of KCl extracts showed the presence of c-type cytochromes which could be oxidized by ferrihydrite. Only one activity band was observed in native polyacrylamide gels stained for the iron(III) reductase activity. Excision of the active band from a preparative gel followed by extraction of the proteins and sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed the presence of high-molecular-mass, cytochrome-containing proteins in this iron(III) reductase activity band. From these experimental data it can be hypothesized that the iron(III) reductase of G. sulfurreducens is a peripheral outer membrane protein that might contain a c-type cytochrome.     

Differential Effects of Sodium Butyrate and Lithium Chloride on Rhesus Monkey Trophoblast Differentiation

Trophoblast differentiation during early placental development is critical for successful pregnancy and aberrant differentiation causes preeclampsia and early pregnancy loss. During the first trimester, cytotrophoblasts are exposed to low oxygen tension (equivalent to~2%-3% O₂) and differentiation proceeds along an extravillous pathway (giving rise to invasive extravillous cytotrophoblasts) and a villous pathway (giving rise to multinucleated syncytiotrophoblast). Interstitial extravillous cytotrophoblasts invade the decidua, while endovascular extravillous cytotrophoblasts are involved in re-modelling uterine spiral arteries. We tested the idea that sodium butyrate (an epigenetic modulator) induces trophoblast differentiation in early gestation rhesus monkey trophoblasts through activation of the Wnt/β-catenin pathway. The results show that syncytiotrophoblast formation was increased by butyrate, accompanied by nuclear accumulation of β-catenin, and increased expression of EnvV2 and galectin-1 (two factors thought to be involved in trophoblast fusion). Surprisingly, the expression of GCM1 and syncytin-2 was not affected by sodium butyrate. When trophoblasts were incubated with lithium chloride, a GSK3 inhibitor that mimics Wnt activation, nuclear accumulation of β-catenin also occurred but differentiation into syncytiotrophoblast was not observed. Instead the cells differentiated to mononucleated spindle-shaped cells and showed molecular and behavioral characteristics of endovascular trophoblasts. Another highly specific inhibitor of GSK3, CHIR99021, failed to induce endovascular trophoblast characteristics. These observations suggest that activation of the Wnt/β-catenin pathway correlates with both trophoblast differentiation pathways, but that additional factors determine specific cell fate decisions. Other experiments suggested that the differential effects of sodium butyrate and lithium chloride might be explained by their effects on TNFα production. The results provide valuable tools to manipulate trophoblast differentiation in vitro and to better understand the differentiation pathways that occur during early gestation.     

Biosynthesis and maturation of cellular membrane glycoproteins

The biosynthesis and the processing of asparagine-linked oligosaccharides of cellular membrane glycoproteins were examined in monolayer cultures of BHK21 cells and human diploid fibroblasts after pulse-and pulse-chase labeling with [2-³H] mannose. After pronase digestion, radiolabeled glycopeptides were characterized by high-resolution gel filtration, with or without additional digestion with various exoglycosidases and endoglycosidases. Pulse-labeled glycoproteins contained a relatively homogenous population of neutral oligosaccharides (major species: Man₉GlcNAc₂ASN). The vast majority of these asparagine-linked oligosaccharides was smaller than the major fraction of lipid-linked oligosaccharides from the cell and was apparently devoid of terminal glucose. After pulse-chase or long labeling periods, a significant fraction of the large oligomannosyl cores was processed by removal of mannose units and addition of branch sugars (NeuNAc-Gal-GlcNAc), resulting in complex acidic structures containing three and possibly five mannoses. In addition, some of the large oligomannosyl cores were processed by the removal of only several mannoses, resulting in a mixture of neutral structures with 5–9 mannoses. This oligomannosyl core heterogeneity in both neutral and acidic oligosaccharides linked to asparagine in cellular membrane glycoproteins was analogous to the heterogeneity reported for the oligosaccharides of avian RNA tumor virus glycoproteins (Hunt LA, Wright SE, Etchison JR, Summers DF: J Virol 29:336, 1979).     

Structural studies on the tri- and tetrasaccharides isolated from porcine intestinal heparin and characterization of heparinase/heparitinases using them as substrates

We prepared a series of oligosaccharides from porcine intestinalheparin after extensive digestion with a mixture of Flavobacteriumheparinase as well as heparitinases I and II. Previously, wereported the structures of the two glycoserines derived fromthe carbohydrate-protein linkage region [Sugahara et al., J.Biol. Chem., 267, 1528–1533 (1992)] and three tetrasaccharidesderived from the antithrombin III-binding site [Yamada et al.,J. Biol. Chem., 268, 4780–4787 (1993)]. In this study,we determined the structures of 10 other tetrasaccharides anda trisaccharide by enzymatic digestion, fast atom bombardmentmass spectrometry and 500-MHz ¹H NMR spectroscopy. These tetrasaccharidesshare the common disulphated structure,     

Intestinal Peyer’s patch-immunomodulating glucomannans from rhizomes of Anemarrhena asphodeloides Bunge

During screening for intestinal Peyer’s patch-immunomodulating polysaccharides from plant resources including medicinal herbs, a potent modulating activity was observed in a crude polysaccharide fraction (AS-1) from the rhizome of Anemarrhena asphodeloides Bunge. Oral administration of AS-1 (100 mg/kg/day) to aged BALB/c mice enhanced productions of IL-10, IFN-γ and IL-6 from Peyer’s patch immunocompetent cells, and its oral administration to ovalbumin (OVA)-fed B10.A mice led to significant suppression on induction of OVA-specific IgE in systemic immune system. Further fractionation of the polysaccharides in the crude polysaccharide fraction, AS-1, yielded 4 polysaccharide fractions that were potently active, and contained glucomannans. Treatment of these polysaccharide fractions with endo-β-d-(1 → 4)-mannanase significantly decreased their activities. Mannanase digestion of the active glucomannan gave both long and short hexosyl-oligosaccharides, whereas konjac glucomannan, which was inactive, released short oligosaccharides. Structural analysis indicates that the long oligosaccharides from the active glucomannan contain mannanase-resistant complex structure comprising β-d-Man and β-d-Glc.     

Isolation and partial characterization of the basal cell membrane of human placental trophoblast

The function of the syncytiotrophoblast in maternal-fetal exchange is related to the properties of its microvillous (maternal-facing) and basal (fetal-facing) plasma membranes. We have previously reported the properties of the microvillous membrane (Smith, C.H., Nelson, D.M., King, B.F., Donohue, T.M., Ruzycki, S.M. and Kelley, L.K. (1977) Am. J. Obstet. Gynecol. 128, 190–196), and now describe the purification and partial characterization of the basal plasma membrane. Sonication and incubation with EDTA were used to isolate selectively the basal cell membrane. These steps were followed by a more conventional purification by centrifugation. The trophoblast was disrupted and its microvillous membrane and cytoplasmic contents were removed by sonication. The exposed basal cell membrane was selectively released from the underlying basal lamina by sonication in the presence of EDTA and further purified by discontinuous Ficoll gradient centrifugation. The material at the 4–10% Ficoll interface consisted of smooth membrane vesicles with internal microfilaments. It was 45-fold enriched in dihydroalprenolol binding activity and 11-fold enriched in ouabain binding activity. Other enzymatic analyses, including alkaline phosphatase, cytochrome-c oxidase, cytochrome-c reductase and galactosyl transferase indicated low contamination by other organelles. This procedure yields a preparation of relatively high purity which should be suitable for investigation of transport and other functions of the basal surface membrane of trophoblast. In principle, the purification procedures used may be applicable to other transporting epithelia.     

Effects of Ascorbate on the Oxidation of Derivatives of Hydroxycinnamic Acid and the Mechanism of Oxidation of Sinapic Acid by Cell Wall-Bound Peroxidases

A cell wall fraction isolated from epicotyls of Vigna angularis,which contained both ionically and covalently bound peroxidases,rapidly oxidized p-coumaric, caffeic and ferulic acids and slowlyoxidized sinapic acid. The oxidation of sinapic acid was greatlyenhanced in the presence of p-coumaric, caffeic or ferulic acid.Ascorbate (20 µM) inhibited the oxidation of ferulic acidby about 70% and completely inhibited the oxidation of p-coumaricand ferulic acids. The cell wall fraction was capable of bindingferulic and sinapic acids but not caffeic acid. p-Coumaric acidbound only slightly to cell walls. The oxidation of p-coumaricand ferulic acids by KCl-washed cell walls was inhibited byabout 60% and 10%, respectively, by 20 µM ascorbate, butthe oxidation of caffeic acid was completely inhibited by ascorbateat less than 20 µM. The oxidation of derivatives of hydroxycinnamicacid by peroxidases released from cell walls by washing with1 M KCl was completely inhibited by ascorbate. These resultssuggest that the inhibition by ascorbate depends on the substituentgroup of the phenyl ring of the derivatives of hydroxycinnamicacid when the oxidation reaction is catalyzed by cell wall-boundperoxidases and that the oxidation of sinapic acid is mediatedby phenoxyl radicals of derivatives of hydroxycinnamic acidother than sinapic acid. (Received December 2, 1993; Accepted March 3, 1994)     

Urokinase binds to a plasminogen activator inhibitor type-2-like molecule in placental microvillous membranes

Placental microvillous membranes exhibited saturable binding of urokinase-type plasminogen activator with plateau achieved by 30 min at 4 degrees C and 10 min at 37 degrees C. The binding was essentially irreversible. The capacity was about 8 pmol urokinase per mg membrane protein. Half-maximal displacement of 125I-labelled urokinase was achieved with about 1.0 nM unlabelled urokinase when using 75 micrograms membrane protein/ml. 125I-labelled urokinase did not bind when treated with diisopropylfluorophosphate to block the catalytic activity. Single-chain urokinase (prourokinase), devoid of catalytic activity, did not bind. Catalytically active tissue-type plasminogen activator did compete with 125I-labelled urokinase for binding although less efficiently than urokinase. Binding activity remained in the 100,000 x g pellet after treatment of the membranes with 3 M KCl, alkaline stripping at pH 12 or extraction by the detergent Triton X-100. The binding was essentially blocked by antibodies against plasminogen activator inhibitor-type-2 (PAI-2). Sodium dodecyl sulfate polyacrylamide gel electrophoresis of solubilized membranes with bound 125I-labelled urokinase showed that the urokinase-PAI-2 complexes largely migrated in fractions corresponding to a very large Mr although no clearly defined peaks were observed. It is suggested that PAI-2 occurs in a form anchored to syncytiotrophoblast microvilli, possibly to the cytoskeleton.     

Mechanisms of the acido- and thermo-phily of Cyanidium caldarium Geitler II. Physiological role of the cell wall

1) A partially disintegrated cell preparation of Cyanidium caldarium(i.e. the 100G fraction; cells from which the outer parts ofthe cell wall had been removed) was obtained by differentialcentrifugation of a cell suspension treated with a French press.2) The 100G fraction cells had completely lost the outer partsof their cell walls, but retained their subcellular structureunchanged and had Hill activity that was equally as high asthat of the intact cells. 3) The Hill activity of the 100G fractionshowed an optimum at pH 7.0 and at 35°C. This activity waslost under acid and high temperature conditions (e.g. pH 3,50°C) under which intact cells showed high activity. 4)The Hill activity of the 100G fraction was lost by heat treatment(55°C, 10min), acid-treatment (pH 3.0, 10 min) or pre-illumination(3xl0⁵lux, 30 min) though intact cells were not inactivatedby these treatments. However, no remarkable difference in sensitivitytowards inhibitors was found between the 100G fraction and intactcells. 5) We thus concluded that the cell wall plays an importantrole in the acido- and thermo-phily of Cyanidium cells. (Received August 19, 1974; )     

Transient Cytoplasmic pH Change and Ion Fluxes through the Plasma Memberan in Suspension-Cultured Rice Cells Triggered by N-Acetylchitooligosaccharide Elicitor

N-Acetylchitooligosaccharides, fragments of a main backbonepolymer of fungal ceil wall, elicit defense responses includingphytoalexin production in suspension-cultured rice cells. Thepurified oligosaccharide triggers rapid, transient membranedepolarization. Ion fluxes induced by the oligosaccharides wereanalyzed by using ion-selective electrodes. Treatment of thecells with the oligosaccharides induced transient efflux ofK⁺ and influx of H⁺ immediately after the elicitation. To monitorthe pH values of the cytoplasm and the vacuoles noninvasivelyunder a physiological condition, in vivo ³¹P-nuclear magneticresonance spectroscopy was applied to the cells to which oxygenatedgrowth medium was perfused continuously. The cytoplasmic pHshowed significant transient decrease, correspondingly. Onlythe N-acetylchitooligosaccharides with a degree of polymerizationhigher than 5 were active, whereas deacetylated chitosan oligomerscaused no effect. Less than 1 nM of N-acetylchitoheptaose wassufficient to induce rapid flux of ions. Such strict structuralrequirements for the induction of ion fluxes were similar tothose of specific binding to the putative plasma membrane receptoras well as a series of signaling events specifically inducedby the oligosaccharides, suggesting the involvement of transientchanges in cytoplasmic ion concentration in oligosaccharidesignaling for defense responses. (Received March 10, 1997; Accepted June 25, 1997)     

Studies on the Hill reaction of membrane fragments of blue-green algae V. A correlation between the solubilization of a photochemically active chromoprotein (ACP) and the inactivation of photosystem II activity in membrane fragments of Anabaena cylindrica

The relationship between a photochemically active chromoprotein(ACP) (cf. ref. 1) and photosystem II was investigated withmembrane fragments of Anabaena cylindrica, A. variabilis andP. boryaman. ACP was solubilized from membrane fragments of A. cylindricabut not from those of A. variabilis or P. boryanum, when themembrane fragments had been incubated in a dilute buffer andhad lost their Hill or photosystem II activity. In A. cylindrica,ACP-solubilization always occurred, independent of photosystemII inactivation, on incubation of the membrane fragments inmedia without PEG. However, the amount of ACP solubilizationaccompanying photosystem II inactivation was twice that withoutphotosystem II inactivation. The increase in ACP solubilizationaccompanying photosystem II inactivation. The kinetics resembledthose for the decrease in 695 nm fluorescence emitted by membranefragments at — 196?C (cf. 2). The ACP solubilized independent of photosystem II inactivationwas assumed to have been released during disruption of intactcells in the preparation of membrane fragments. The slow ACPsolubilization upon the inactivation of photosystem II was attributedto the pigment being bound to membranes. We assume that thephoto-reactive component of ACP, P690 (cf. 3, 4), is releasedfrom the membranes during photosystem II inactivation, and thatP690 is a component of photosystem II which emits the 695 nmfluorescence at — 196?C. (Received March 22, 1974; )     

Effects of enzymatically digested microsome fractions on red-light-enhanced pelletability of pea phytochrome in vitro in the presence of calcium ion

The 130,000 ?g supernatant of Sephadex G-50 filtrate and a 78,000?g microsomal fraction were prepared separately from homogenatesof etiolated pea (Pisum sativum L. cv. Alaska) shoots. The pelletabilityof phytochrome increased ca. 10-fold by exposure of the filtrateto red light and mixing the filtrate with the microsomal fractionin the dark at ca. 0?C. The increase of pelletable phytochromewas inhibited by 84% when the microsomal fraction digested withtrypsin was used. Phospholipase C (Clostridium welchii) digestionof the microsome inhibited no more than 13% of the pelletability.Although phospholipase A₂ (Crotalus terrificus terrificus) digestioninhibited 43% of the pelletability, addition of defatted albuminduring the enzymatic digestion completely restored the levelof the pelletability. The decrease of RNA content of the microsomalfractions by ribonuclease A digestion did not result in a proportionalinhibition of the pelletability. These results indicate thatproteinaceous component in the microsomal fraction is essentialfor phytochrome pelletability in vitro, that RNA and polar headsof phospholipids are unlikely to be the partner for the binding,and that products of phospholipase A₂ digestion inhibit thepelletability partially. (Received September 12, 1979; )     

Epidermal growth factor and sphingosine-1-phosphate stimulate Na+/H+ exchanger activity in the human placental syncytiotrophoblast

The Na+/H+ exchanger (NHE) has a key role in intracellular pH ([pH]i) regulation of the syncytiotrophoblast in the human placenta and may have a role in the life cycle of this cell. In other cells the NHE (actually a family of up to 9 isoforms) is regulated by a variety of factors, but its regulation in the syncytiotrophoblast has not been studied. Here, we tested the hypotheses that EGF and sphingosine-1-phosphate (S1P), both of which affect trophoblast apoptosis and, in other cell types, NHE activity, stimulate syncytiotrophoblast NHE activity. Villous fragments from term human placentas were loaded with the pH-sensitive dye, BCECF. NHE activity was measured by following the recovery of syncytiotrophoblast [pH]i following an imposed acid load, in the presence and absence of EGF, S1P, and specific inhibitors of NHE activity. Both EGF and S1P caused a dose-dependent upregulation of NHE activity in the syncytiotrophoblast. These effects were blocked by amiloride 500 microM (a nonspecific NHE blocker) and HOE694 100 microM (NHE blocker with NHE1 and 2 isoform selectivity). Effects of EGF were also reduced by the NHE3 selective blocker S3226 (used at 1 microM). These data provide the first evidence that both EGF and S1P stimulate NHE activity in the syncytiotrophoblast; they appear to do so predominantly by activating the NHE1 isoform.     

Integrin-linked kinase can facilitate syncytialization and hormonal differentiation of the human trophoblast-derived BeWo cell line

Background  

In the fusion pathway of trophoblast differentiation, stem villous cytotrophoblast cells proliferate and daughter cells differentiate and fuse with existing syncytiotrophoblast to maintain the multi-nucleated layer. Integrin-linked kinase (ILK) is highly expressed in 1st and 2nd trimester villous cytotrophoblast cells, yet barely detectable in syncytiotrophoblast, thus we examined the potential role of ILK in aiding trophoblast fusion.