D,L-Threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (DL-PDMP) increases endoplasmic reticulum stress, autophagy and apoptosis accompanying ceramide accumulation via ceramide synthase 5 protein expression in A549 cells

In A549 cells, the addition of D,L-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (DL-PDMP) led to marked autophagy with massive microtubule-associated protein 1 light chain 3B (LC3B)-II protein expression as an indication of autophagy and a steep decrease of p62 protein as a co-indication of autophagy. The addition of DL-PDMP caused massive autophagy with an increase of CAAT/enhancer binding protein homologous protein (CHOP) expression as the marker of endoplasmic reticulum (ER) stress, lactate dehydrogenase (LDH) release without caspase 3 activation and many autophagic vacuoles/devoid of a cell membrane on morphology. On the other hand, the addition of DL-PDMP caused an increase in cellular or subcellular ceramides (Cers), especially palmitoyl-Cer, based on de novo synthesis of Cer, and led to caspase-independent apoptosis. Marked increases of Cer levels in the nuclear envelope were observed 17 h after the addition. The elevations of Cer synthase activity and longevity-assurance homologue (LASS)5 protein expression were observed in subcellular fractions from 30 min until 2 h after the addition. However, the elevations of Cer synthase activity were independent of reactive oxygen species generation or cytochrome P450 4F2 activity. Since an increase in LASS5 protein expression in subcellular fraction occur in preference to the variation of LC3B-II protein expression via CHOP expression after the addition and Cer accumulation induced by the addition contributes to ER stress, it is thought that an elevation of Cer synthase activity via LASS5 protein expression associate to autophagy via CHOP expression (ER stress) with the addition.     

Biological and Biochemical Characterization of Macrophage Activating Factor (MAF) in Murine Lymphocytes: Physicochemical Similarity of MAF to Gamma Interferon (IFN-γ)

During the course of an investigation designed to separate macrophage activating factor (MAF) activity from interferon (IFN) antiviral activity in the lymphokine-rich fraction (LKF) produced by stimulation of murine splenic cells with concanavalin A (Con A), we found molecular evidence for the similarity of the two activities. MAF activity was expressed as the rate of inhibition of intracellular growth of Salmonella typhimurium in macrophages based on the linear correlation between relative MAF activity and LKF concentration. The antiviral substance in LKF was identified as IFN-γ based on the observation that its activity was inactivated at pH 2 and neutralized with anti-mouse IFN-γ serum but not with anti-mouse IFN-α/β serum. MAF and IFN antiviral activities displayed identical sensitivity to pH 2 and temperature. Further, neither activity was affected by β-mercapto-ethanol, but both were inactivated by guanidine hydrochloride and by sodium dodecyl sulfate, suggesting that the structures related to conformation of the protein of the two molecules may be similar. In affinity chromatography of the LKF on a Con A-Sepharose column, MAF and IFN activities were found in both the nonadsorbing (F I) and adsorbing (F II) fractions. However, the rates of F II of MAF and IFN activities increased proportionally when the sample was applied on a column of higher capacity, suggesting that the molecular structure of the mannose-containing glycosyl moiety of the two molecules may also be similar. Moreover, the intact or modified form of MAF and IFN activities of different LKF preparations showed a strong correlation, indicating that the production and denaturation of MAF activity were proportional to those of IFN antiviral activity. The results of this study provide strong evidence that MAF and IFN antiviral activities may reside in virtually the same molecular species.     

Retention of a co-translational translocated mutant protein of carboxypeptidase Y of Saccharomyces cerevisiae in endoplasmic reticulum

Abstract Co-translational translocation of Saccharomyces cerevisiae vacuolar glycoprotein carboxypeptidase Y (CpY) was highly efficient when studied with an in vivo and in vitro homologous system, comparison of limited proteolytic cleavage of immunoprecipitated translational products of CpY and subcellular localisation of a mutant CpY. The efficient segregation of CpY mRNA in highly purified fractions of rough microsomes was characterised. CpY₁ mutant showed retention of core glycosylated material (proCpY₁) in the rough and smooth endoplasmic reticulum fractions. It is suggested that the presence of structures that are incompatible with intercompartmental transport of vacuolar protein leads to retention of the mutated CpY by the endoplasmic reticulum.     

Simultaneous quantitative determination method for ceramide species from crude cellular extracts by high-performance liquid chromatography-thermospray mass spectrometry

I have developed a simple method which enabled simultaneous analysis of ceramides in the subcellular fractions from cultured cells by HPLC-thermospray mass spectrometry. The HPLC-thermospray mass spectra from ceramide standards were characterized by the high intensity of the MNa(+) and MH(+)-H(2)O ions. As the other minor ions, MK(+), MH(+) and m/z 282 ions were detected. Although the preponderance of MNa(+) ions compared with the MH(+)-H(2)O ions was detected in non-hydroxy fatty acid-ceramides, the preponderance of MH(+)-H(2)O ions based on the elimination of the hydroxyl group introduced at the alpha-position of acyl-portion compared with the MNa(+) ions was detected in alpha-hydroxy fatty acid-ceramides. In calibrations for authentic ceramides using N-octanoylsphingosine as an internal standard, an approximately linear relationship existed between the ratios of peak-areas of each ceramide to that of the internal standard and the known amounts of each ceramide. The factor (f) of each ceramide was calculated as follows; N-oleoyl-D-sphingosine (f=0.45), N-palmitoyl-D-sphingosine (f=0.40), N-stearoyl-D-sphingosine (f=0.39), N-nervonoyl-D-sphingosine (f=0.39) and N-lignoceroyl-D-sphingosine (f=0.35). In subcellular fractions from A549 and HepG2 cells, although ceramide species content per mg protein was high in the nuclear envelope fractions, the 7000 g pellet fractions and the 100000 g pellet fractions, a large portion of the ceramide species was concentrated in the nuclear envelope fraction. In addition, this method was applied to a mild alkaline hydrolyzate of total ceramides from pig stratum corneum, and MNa(+)/MH(+)-H(2)O ions corresponding to several omega-hydroxyacyl-ceramides were detected.     

Vaccination against cutaneous leishmaniasis in a murine model. II. Immunologic properties of protective and nonprotective subfractions of soluble promastigote extract

We have previously demonstrated that BALB/c mice can be protected against a fatal infection with Leishmania major by i.p. immunization with a soluble leishmanial antigen (SLA) preparation in conjunction with the adjuvant, Corynebacterium parvum (CP). In this study, SLA was separated into nine distinct fractions by anion exchange liquid chromatography, and the fractions were analyzed for their ability to stimulate T cells obtained from immunized mice, to be recognized by vaccine-induced antibodies, and to induce protective immunity. While all but one of the fractions were recognized by antibodies from SLA + CP immunized mice, only two fractions (fractions 1 and 9) stimulated lymphocytes to produce macrophage-activating factor and elicited significant delayed-type hypersensitivity in vivo. When mice were immunized with the fractions, only fraction 9 stimulated significant immunity (76% protection in seven experiments). Proteins (accounting for 1.3% of the total in SLA) appear to be responsible for the protection elicited with fraction 9, since protease treatment of this fraction destroyed its immunogenicity. Thus, a partially purified protective protein antigen fraction has been obtained and protection with this fraction correlated with cell-mediated immune responses. However, these results also demonstrate that the ability of leishmanial antigens to be recognized by T cells and produce macrophage-activating factor does not in itself predict whether such molecules will induce immunity, suggesting that protective leishmanial antigens may have additional unique properties.     

Subcellular Distribution of UDP-Galactose:Ceramide Galactosyltransferase in Rat Brain Oligodendroglia

Oligodendrocytes isolated from 18-19-day-old rat brain were homogenized in 0.32 M sucrose. The homogenate was centrifuged at 100,000 g for 50 min in a gradient containing 0.8, 1.05, and 1.3 M sucrose. Three discrete bands were obtained at the interfaces 0.32-0.8 (F1), 0.8-1.05 (F2), and 1.05-1.3 M (F3). The distribution of UDP-galactose:ceramide galactosyltransferase (CgalT) activity in each fraction was measured using liposomes containing normal fatty acid-containing ceramides (NFA-CgalT activity) or 2-hydroxy fatty acid-containing ceramides (HFA-CgalT activity). Although detection of both CgalT activities was possible in all fractions, HFA-CgalT activity was enriched in F1 and F2 fractions, which also showed an enrichment of Golgi and endoplasmic reticulum markers, respectively. It is interesting that NFA-CgalT activity was significantly enriched in the F2 fraction. These results suggest that hydroxylated and nonhydroxylated galactocerebrosides may be synthesized at different intracellular locations.     

Ceramide composition of the psoriatic scale

This paper investigates the ceramide composition of the psoriatic scale compared with that of normal human SC. A method was optimalized, based on TLC separation followed by densitometry, allowing the provision of good resolution and quantification of ceramide fractions from both normal and pathological specimens. Seven ceramide fractions were isolated and submitted to compositional analysis. The obtained results suggested a revisitation of previous ceramide designation. Therefore a simple classification is suggested, based on grouping ceramides carrying structural similarities under common codes. According to these rules, ceramides were grouped into five classes designated as: (1) Cer[EOS], which contains ester-linked fatty acids, ω-OH fatty acids and sphingosines; (2) Cer[NS], which contains non-OH fatty acids and sphingosines; (3) Cer[NP], which contains non-OH fatty acids and phytosphingosines; (4) Cer[AS], which contains α-OH fatty acids and sphingosines; (5) Cer[AP], which contains α-OH fatty acids and phytosphingosines. Analysis of ceramides from the psoriatic scale, compared to those from normal human SC, resulted in an impairment of the Cer[EOS] content as well as of the ceramides containing phytosphingosine, with concurrent increase in ceramides containing sphingosine, being the total amount maintained identical. Since one of the suggested pathways for phytosphingosine biosynthesis involves the water addition to the corresponding sphingosine double bond, we can speculate that the observed alterarion is due to a deranged water bioavailability, associated with psoriaris.     

Polymorphic serum prealbumin (Pa) of pig, identified as an a!-protease inhibitor

Pig serum proteins were analysed by horizontal polyacrylamide gel electrophoresis, with a discontinuous buffer system (pH 9.0). A 12 % acrylamide concentration in the separation gel was used. Each of the two prealbumin (Pa) alleles gave rise to two closely migrating fractions. The polymorhic Pa was identified as an a,-protease inhibitor as the Pa fractions inhibited the esterolytic activity of both bovine trypsin and chymotrypsin. Therefore, it has been proposed that the locus symbol for this prealbumin be changed to Pi-1. The protease inhibitory spectra and electrophoretic mobility of the Pa (Pi-1) fractions suggested that this protein was probably the same as the pig serum a,-protease inhibitor described in some earlier studies and that it corresponds to human serum a,-protease inhibitor (Pi).     

The hydrophobic mismatch determines the miscibility of ceramides in lipid monolayers

The organization of lipids within membranes strongly depends on the interaction with other lipid and protein molecules. Sphingolipids comprise a structurally diverse family, the ceramides being some of the simplest members. Although small chemical modifications of ceramide structure, such as varying the N-acyl chain length, lead to a complex polymorphism of this lipid, only long acyl chain ceramides have usually been studied and their properties became a putative hallmark for all ceramides. In this work, we studied the mixing behavior of C10:0 Cer, which has the N-acyl chain shorter than that of the sphingosine acyl chain and displays an expanded to condensed phase transition at 25mNm(-1) at 24°C, with ceramides N-acylated with longer fatty acyl chains C12:0, C14:0 and C18:0. The N-acyl chain length determined the miscibility of ceramides in Langmuir monolayers, as it was ascertained by the dependence of the mean molecular area, perpendicular dipole moment, surface topography and film thickness with the mixture composition. We found that, as the hydrophobic mismatch in ceramides increased complete miscibility, partial or complete immiscibility can occur.     

Protein kinase C in fibroblasts. Characteristics of its intracellular location during growth and after exposure to phorbol esters and other mitogens

Using an N-bromosuccinimide cleavage fragment of histone H1 as a relatively specific substrate for protein kinase C, we evaluated the partitioning of this kinase activity between soluble and particulate cellular fractions in 3T3-L1 fibroblasts. In confluent, serum-deprived cells, protein kinase C activity was approximately equally divided between soluble and detergent-extractable particulate fractions; both rapidly growing and transformed cells appeared to contain higher levels of particulate enzyme activity. Soluble protein kinase C activity and immunoreactivity decreased to virtually undetectable levels after exposure of the cells to phorbol 12-myristate 13-acetate (PMA), associated with a commensurate increase in particulate kinase activity and immunoreactivity. In intact cells, PMA appeared to cause a shift of immunoreactive protein kinase C from the cytosol to the perinuclear region, as assessed by immunofluorescent microscopy; however; subcellular fractionation revealed that PMA caused increases in the protein kinase C activity associated primarily with non-nuclear membranes. Exposure of the cells to sn-1,2-dioctanoylglycerol resulted in a modest and transient membrane association of protein kinase C, whereas platelet-derived growth factor, fibroblast growth factor, and bombesin caused no detectable increases in the membrane association of the kinase. Activation of protein kinase C by growth factors in fibroblasts may occur without the gross disturbances in intracellular kinase location which occur in response to phorbol esters.     

Long chain ceramides activate protein phosphatase-1 and protein phosphatase-2A. Activation is stereospecific and regulated by phosphatidic acid.

The search for potential targets for ceramide action led to the identification of ceramide-activated protein phosphatases, which include protein phosphatase-2A (PP2A) and protein phosphatase-1 (PP1) with roles in regulating apoptosis and cell growth. Thus far, in vitro studies on ceramide-activated protein phosphatases have been restricted to the use of short chain ceramides, limiting the extent of mechanistic insight. In this study, we show that the long chain D-erythro-C18-ceramide activated PP2A (AB'C trimer), PP2Ac (catalytic subunit of PP2A), and PP1gammac and -alphac (catalytic subunits of PP1gamma and -1alpha isoforms, respectively) 2-6-fold in the presence of dodecane, a lipid-solubilizing agent, with 50% maximal activation achieved at approximately 10 microM D-erythro-C18-ceramide. The diastereoisomers of D-erythroC18-ceramide, D-threo-, and L-threo-C18-ceramide, as well as the enantiomeric L-erythro-C18-ceramide, did not activate PP1 or PP2A, but they inhibited PP1 and PP2A activity. The addition of phosphatidic acid decreased the basal activity of PP1c but also increased the stimulation by D-erythro-C18-ceramide from 1.8- to 2. 8-fold and decreased the EC50 of D-erythro-C18-ceramide to 4.45 microM. The addition of 150 mM KCl decreased the basal activity of PP1 and the dose of D-erythro-C18-ceramide necessary to activate PP1c (EC50 = 6.25 microM) and increased the ceramide responsiveness up to 10-17-fold. These studies disclose stereospecific activation of PP1 and PP2A by long chain natural ceramides under near physiologic ionic strengths in vitro. The implications of these studies for mechanisms of ceramide action are discussed.     

Bifunctional α-amylase/trypsin inhibitor activity previously ascribed to the 22 KDa TL protein, resided in a contaminant protein of 14 KDa

The previously reported inhibitory activity of a 22 KDa protease and α-amylase inhibitor extracted from maize seeds, was re-investigated in order to confirm or rectify its ability to inactivate protease and α-amylase activities. The same inhibition was detected when the 22 KDa protein was purified following the original methodology (Richardson et al. 1987). However, when a new ion-exchange chromatography step was introduced after the RP-HPLC, the apparently homogeneous 22 KDa protein was further resolved into five different fractions. Four of them corresponded to different isoforms of the 22 KDa protein, all of which lacked inhibitory activity. The other small band corresponded to a contaminant protein, which was identified as the 14 KDa α-amylase/trypsin inhibitor. This protein was responsible for the reported double inhibition (protease and α-amylase inhibition), previously assigned to the 22 KDa protein. With this result, it was then possible to settle the question concerning the ability of this 22 KDa protein to inhibit those enzymatic activities. Interestingly, the four isoforms of the 22 KDa protein fractions showed anti-fungal activity when tested in vitro. In summary, we suggest that both the PR-proteins, as well as the inhibitor's family classification, should now be corrected. Thus, the 22 KDa protein should no longer be considered as a member of either the protease or of the amylase inhibitor families. Similarly, the inhibitory activity assigned to the PR-proteins should no longer be considered.     

Alterations in total serum proteins and protein fractions in Biomphalaria glabrata parasitized by Schistosoma mansoni

Samples of serum from healthy Biomphalaria glabrata and from those infected with the larval stages of Schistosoma mansoni were subjected to quantitative electrophoretic analysis and total protein determinations. In the case of the infected snails, samples of serum were taken at 14 time intervals post-exposure to 5 miracidia ranging from 1 hr to 70 days.A total of 34 serum protein fractions have been identified in the hemolymph of uninfacted B. glabrata, although all these fractions usually do not occur in every snail. In infected snails, there is a gradual reduction in the staining intensity of the serum protein fractions until day 35 post-exposure to miracidia, and this is correlated with a reduction in the total serum protein concentration. By day 70 post-exposure to the parasite, the total protein concentration had declined to one-third of that in uninfected snails.Although the decrease in the amount of serum protein fractions as a result of parasitization by S. mansoni is generally nonselective; i.e., almost all the fractions are reduced, three fractions, 7, 9, and 10, do not appear to be reduced in quantity. These remain essentially unaltered in their intensity to staining for up to 70 days, the duration of this experiment.It is postulated that the reduction of serum protein is due to utilization by sporocysts of S. mansoni.     

Ceramide 1-phosphate inhibits serine palmitoyltransferase and blocks apoptosis in alveolar macrophages

We previously reported that incubation of bone-marrow derived macrophages in the absence of macrophage-colony stimulating factor (M-CSF), a cytokine that is essential for their growth and survival, resulted in stimulation of acid sphingomyelinase, accumulation of ceramides, and induction of apoptosis [A. Gomez-Munoz et al. 2004. Ceramide 1-phosphate blocks apoptosis through inhibition of acid sphingomyelinase in macrophages. J Lipid Res 45: 99–105]. Here, we show that alveolar NR8383 macrophages, which are not dependent on M-CSF for viability, undergo apoptosis when they are incubated in the absence of serum. NR8383 cells showed increased levels of ceramides under apoptotic conditions, but in contrast to bone marrow macrophage acid and neutral sphingomyelinases were only slightly activated. We found that the major mechanism for ceramide generation in NR8383 macrophages was stimulation of their synthesis de novo. This action involved activation of serine palmitoyltransferase (SPT), the key regulatory enzyme of this pathway. A relevant finding was that ceramide 1-phosphate (C1P) inhibited SPT activity and ceramide accumulation leading to inhibition of apoptosis. Furthermore, C1P enhanced the activity of antiapoptotic protein kinase B and its downstream effector nuclear factor kappa B. These observations add a new dimension to the understanding of the pro-survival actions of C1P in mammalian cells.     

Uterine-specific proteins in luminal secretions of swine leukocyte antigen-inbred miniature swine with cystic endometrial hyperplasia

Uterine-specific proteins were evaluated in luminal secretions of Swine Leukocyte Antigen (SLA)-inbred miniature swine with cystic endometrial hyperplasia (CEH) by polyacrylamide gel electrophoresis (PAGE) and Sephacryl S-200 chromatography. CEH and non-CEH (NCEH) pigs (n = 23) were killed on Days 4, 9, and 15 of the estrous cycle (estrus = Day 0) and reproductive tracts were excised for collection of serum and uterine luminal protein. Uterine luminal protein was greater (p less than 0.05) on Day 9 than on Days 4 and 15 (42.9 vs. 6.1 and 29.4 mg, respectively) for CEH pigs and Days 4, 9, and 15 (8.5, 10.1, and 25.6 mg, respectively) for NCEH pigs. The presence of the uterine-specific acidic and basic proteins, as revealed by PAGE, was affected (p less than 0.025) by day of the cycle and CEH condition. All Day 15 NCEH pigs (4 of 4) produced the complete profile of these proteins, whereas none of the uterine protein samples representing other treatment groups contained them. Some minor acidic protein components were present in cystic fluids from CEH pigs, but these fluids lacked the typical uterine-specific proteins. PAGE analysis of Sephacryl S-200 fractions from uterine fluids of Day 15 NCEH pigs revealed the uterine-specific proteins in fractions IV (Mr 40,000) and V (Mr 15,000). The results of the investigation demonstrate an impairment in the secretion of uterine-specific proteins in cyclic SLA miniature swine with cystic endometrial hyperplasia.     

Osteopontin inhibits interleukin-1beta-stimulated increases in matrix metalloproteinase activity in adult rat cardiac fibroblasts: role of protein kinase C-zeta

We have shown that osteopontin (OPN), an extracellular matrix protein, plays an important role in post myocardial infarction (MI) remodeling by promoting collagen synthesis and accumulation. Interleukin-1beta (IL-1beta), increased in the heart following MI, increases matrix metalloproteinase (MMP) activity in cardiac fibroblasts in vitro. Here, we show that OPN alone has no effect on MMP activity or expression. However, it reduces IL-1beta-stimulated increases in MMP activity and expression in adult rat cardiac fibroblasts. Pretreatment with bovine serum albumin had no effect on MMP activity or protein content, whereas GRGDS (glycine-arginine-glycine-aspartic acid-serine)-pentapeptide (which interrupts binding of RGD-containing proteins to cell surface integrins) and monoclonal antibody m7E3 (a rat beta3 integrins antagonist) inhibited the effects of OPN. Inhibition of PKC using chelerythrine inhibited the activities of both MMP-2 and MMP-9. Stimulation of cells using IL-1beta increased phosphorylation and translocation of PKC to membrane fractions, which was inhibited by OPN. OPN inhibited IL-1beta-stimulated increases in translocation of PKC-zeta from cytosolic to membrane fractions. Furthermore, the levels of phospho-PKC-zeta were lower in the cytosolic fractions of OPN knock-out mice hearts as compared with wild type 6 days post-MI. Inhibition of PKC-zeta using PKC-zeta pseudosubstrate inhibited IL-1beta-stimulated increases in MMP-2 and MMP-9 activities. These observations suggest that OPN, acting via beta3 integrins, inhibits IL-1beta-stimulated increases in MMP-2 and MMP-9 activity, at least in part, via the involvement of PKC-zeta. Thus, OPN may play a key role in collagen deposition during myocardial remodeling following MI by modulating cytokine-stimulated MMP activity.     

Enzymatic deoxyglucosylation of ceramides by microsomes of BHK-21 cells. The effect of deoxyglucose treatment and herpesvirus infection

The microsomal fractions of cultured hamster fibroblasts (BHK-21 cells) catalyze the incorporation of glucose from UDPglucose or of deoxyglucose from UDPdeoxyglucose into a reaction mixture with liposomes consisting of ceramide and phosphatidylcholine. The microsomal fractions also catalyze the transfer of glucose from UDPglucose to endogenous acceptors. The specific activity of ceramide deoxyglucoside or ceramide glucoside formation was significantly higher when microsomal preparations obtained from deoxyglucose-treated or herpesvirus-infected BHK-21 cells were used as the glucosyltransferase source. Deoxyglucose was incorporated from UDPdeoxyglucose into hydroxy- and nonhydroxy-fatty acid-containing ceramides at approximately the same rate. Competitive inhibition of deoxyglucosylation of ceramides by UDPglucose suggests that both reactions were catalyzed by the same enzyme, viz. UDPglucose:ceramide glucosyltransferase. This inhibition of glycosphingolipid synthesis may account, in part, for the inhibitory effect of deoxyglucose on lipid-containing viruses.     

Ceramide inhibition of mammalian phospholipase D1 and D2 activities is antagonized by phosphatidylinositol 4,5-bisphosphate

Ceramides inhibit phospholipase D (PLD) activity in several mammalian cell types. These effects have been related to preventing activation by ARF1, RhoA, and protein kinase C-alpha and -beta and therefore indicate that PLD1 is inhibited. In the present work, we investigated the effects of ceramides in inhibiting both PLD1 and PLD2 and the interaction with another activator, phosphatidylinositol 4,5-bisphosphate (PIP2). PLD1 and PLD2 were overexpressed separately in Sf9 insect cells using baculovirus vectors. In our cell-free system, PLD1 activity was inhibited completely by C2-ceramide at sub-optimum concentrations of PIP2 (3 and 6 microM), whereas at supra-optimum PIP2 concentrations (18 and 24 microM) C2-ceramide did not inhibit PLD1 activity. Partially purified PLD2 exhibited an absolute requirement for PIP2 when the activity was measured using Triton X-100 micelles. Ceramides inhibited PLD2 activity, and this inhibition was decreased as PIP2 concentrations increased. However, C2-ceramide also reversibly inhibited the activity of PLD1 and PLD2 mutants in which binding of PIP2 was decreased, indicating that ceramides are interacting with the catalytic core of the mammalian PLDs. By contrast, C2-ceramide failed to produce a significant inhibition of PLDs from bacteria and plants. Our results provide a novel demonstration that ceramides reversibly inhibit mammalian PLD2 as well as PLD1 activities and that both of these actions are more pronounced when PIP2 concentrations are rate-limiting.     

Development and characteristics of myrosinase in Brassica napus during early seedling growth

Myrosinase (β-thioglucoside glucohydroase, E. C. 3.2.3.1) proteins with different physical, but similar kinetic characteristics exist in oilseed rape ( Brassica napus L. cv. Bienvenu) seedlings. Two protein fractions have been described which are immunologically, and therefore likely to be structurally, related. Myrosinase I, a dimeric 156 kDa glycosylated protein was purified to apparent homogeneity, and polyclonal antibodies were raised against this protein. Myrosinase II, in comparison, was significantly less glycosylated. The native protein had a molecular weight of approximately 188 kDa, with subunit M_r's of mainly 62 kDa and also 68 kDa. Total 'potential'enzyme activity (assayed in the presence of ascorbic acid activator) increased during early seedling growth. Immunoblot analysis of seedling proteins showed that this is directly related to an increase in the amount of myrosinase protein itself , predominantly myrosinase II proteins, which are not present in the dry seed. Myrosinase II protein is located exclusively in the cotyledons of 5-day-old seedlings, whilst myrosinase I is distributed throughout the seedling.     

Immunosuppressive Activity of the Ethanol Extract of Sedum sarmentosum and Its Fractions on Specific Antibody and Cellular Responses to Ovalbumin in Mice

The immunosuppressive activity of the ethanol extract of Sedum sarmentosum (EESS) and its fractions was studied with respect to specific antibody and cellular response to ovalbumin (OVA) in mice. ICR Mice were immunized subcutaneously with OVA on days 0 and 14. Beginning on the day of immunization, the mice were administered intraperitoneally (ip) with EESS and it fractions at a single dose of 0.25, 0.5, and 1.0 mg, and cyclosporin A at a single dose of 0.1 mg at intervals of 7 days. On day 28, splenocyte proliferation and specific antibody level in serum were measured. EESS significantly suppressed concanavalin A (Con A)‐, lipopolysaccharide (LPS)‐, and OVA‐induced splenocyte proliferation in the immunized mice in a dose‐dependent manner. The OVA‐specific serum IgG, IgG1, and IgG2b levels in the immunized mice were also markedly reduced by EESS. Among four fractions of EESS, the BuOH fraction consisting mainly of flavonoid glycosides showed the highest suppressive activity. The results suggest that EESS could suppress the cellular and humoral immune response in mice, and deserve further research to be developed as immunosuppressant.