Lipid and pigment composition of a chlorophyll b-deficient mutant of Chlamydomonas reinhardii

Lipids and pigments of the chlorophyll b -deficient mutant pg-113 and the parent strain (ps) of Chlamydomonas were analysed and compared. Monogalactosyldiglyceride, digalactosyldiglyceride, diacylglyceryl(N, N, N-trimethyl)homoserine, sulfoquinovosyldiglyceride, phosphatidylglycerol, phosphatidylethanolamine, phosphatidylinositol were found as major lipid components. While the lipid patterns were qualitatively and quantitatively almost the same in the two strains, the C₁₆/C₁₈ fatty acid ratios were different, 0.85 in the mutant and 1.11 in the parent strain. Furthermore, the relative amounts of C₁₆- and C₁₈-monoene fatty acids were slightly enhanced and the C₁₈-trienes slightly reduced in the mutant. In the parent strain, chlorophylls a and b , α- and β-carotene, lutein, violaxanthin, neoxanthin and loroxanthin were detected by HPLC. In the mutant, similar pigments were found, except that only traces of chlorophyll b and a reduced amount of neoxanthin were present. Since no chlorophyll-protein complex CP II could be detected in the mutant by electrophoresis, the possible interrelationships between pigment deficiency and alteration of chlorophyllprotein complexes are discussed.     

The Nutrition of Tetrahymena setifera HZ-1; Sterol and Alcohol Requirements

SYNOPSIS. In a chemically-defined medium Tetrahymena setifera HZ-1 required a sterol, an alcohol, eleven amino acids, a purine, a pyrimidine, and six B-complex vitamins. The sterol requirement was met by a variety of 3β-OH, C₂₇-C₂₉ sterols including cholesterol and stigmasterol, but not by precursors of cholesterol which precede desmosterol or Δ⁷-cholestenol. Some combinations of long-chain fatty acids with a synthetic dipalmitoyl phosphorylethanolamine partly substituted for sterol. Ethyl and methyl alcohols (but not a variety of other alcohols and organic acids) satisfied the alcohol requirement.     

Arabidopsis CER8 encodes LONG-CHAIN ACYL-COA SYNTHETASE 1 (LACS1) that has overlapping functions with LACS2 in plant wax and cutin synthesis

Plant cuticle is an extracellular lipid-based matrix of cutin and waxes, which covers aerial organs and protects them from many forms of environmental stress. We report here the characterization of CER8 / LACS1 , one of nine Arabidopsis long-chain acyl-CoA synthetases thought to activate acyl chains. Mutations in LACS1 reduced the amount of wax in all chemical classes on the stem and leaf, except in the very long-chain fatty acid (VLCFA) class wherein acids longer than 24 carbons (C₂₄) were elevated more than 155%. The C₁₆ cutin monomers on lacs1 were reduced by 37% and 22%, whereas the C₁₈ monomers were increased by 28% and 20% on stem and leaf, respectively. Amounts of wax and cutin on a lacs1-1 lacs2-3 double mutant were much lower than on either parent, and lacs1-1 lacs2-3 had much higher cuticular permeability than either parent. These additive effects indicate that LACS1 and LACS2 have overlapping functions in both wax and cutin synthesis. We demonstrated that LACS1 has synthetase activity for VLCFAs C₂₀–C₃₀, with highest activity for C₃₀ acids. LACS1 thus appears to function as a very long-chain acyl-CoA synthetase in wax metabolism. Since C₁₆ but not C₁₈ cutin monomers are reduced in lacs1 , and C₁₆ acids are the next most preferred acid (behind C₃₀) by LACS1 in our assays, LACS1 also appears to be important for the incorporation of C₁₆ monomers into cutin polyester. As such, LACS1 defines a functionally novel acyl-CoA synthetase that preferentially modifies both VLCFAs for wax synthesis and long-chain (C₁₆) fatty acids for cutin synthesis.     

Alteration of medial-edge epithelium cell adhesion in two Tgf-beta3 null mouse strains

Abstract Although palatal shelf adhesion is a crucial event during palate development, little work has been carried out to determine which molecules are responsible for this process. Furthermore, whether altered palatal shelf adhesion causes the cleft palate presented by Tgf -β₃ null mutant mice has not yet been clarified. Here, we study the presence/distribution of some extracellular matrix and cell adhesion molecules at the time of the contact of palatal shelves in both wild-type and Tgf -β₃ null mutant palates of two strains of mice (C57/BL/6J (C57), and MF1) that develop cleft palates of different severity. We have performed immunohistochemistry with antibodies against collagens IV and IX, laminin, fibronectin, the α₅- and β₁-integrins, and ICAM-1; in situ hybridization with a Nectin-1 riboprobe; and palatal shelf cultures treated or untreated with TGF-β₃ or neutralizing antibodies against fibronectin or the α₅-integrin. Our results show the location of these molecules in the wild-type mouse medial edge epithelium (MEE) of both strains at the time of the contact of palatal shelves; the heavier (C57) and milder (MF1) alteration of their presence in the Tgf -β₃ null mutants; the importance of TGF-β₃ to restore their normal pattern of expression; and the crucial role of fibronectin and the α₅-integrin in palatal shelf adhesion. We thus provide insight into the molecular bases of this important process and the cleft palate presented by Tgf -β₃ null mutant mice.     

Unusual glycoconjugates in the oesophagus of a tilapine polyhybrid

The aim of this work is to elucidate the glycoconjugate composition of the secretory products of the oesophageal mucous cells in a tilapine polyhybrid. Lectin histochemistry gave evidence of the presence of β-galactose, α-N-acetylgalactosamine and sialic acid residues in the terminal position. The majority of sialic acid belongs to short side chains; a few sialic acid residues are acetylated at the C₇ and/or C₈ and/or C₉ level. The heterogeneity of the carbohydrate chains may mask potential receptor sites for micro-organisms and hamper the formation of multiple bonds.     

New butenolides from the photoconductivity screening of Streptomyces antibioticus (Waksman and Woodruff) Waksman and Henrici 1948

Abstract Streptomyces antibioticus strain TÜ 99, from which a wide variety of active compounds had been isolated previously, was reinvestigated using an HPLC photoconductivity screening system. Four new compounds were isolated, characterized and their constitutions determined. All four were α,β-unsaturated γ-lactones; the most abundant compound 3 (C₁₀H₁₆O₄), as well as compound 1 (C₉H₁₄O₄) had a hydroxy group at C(5) of the lactone ring. The four lactones showed antibiotic activity against Pseudomonas aeruginosa and also a weak inhibition of the chitinase from Serratia marcescens .     

VII. Decrease in the Rate of Respiration in the Spermatozoa of the Sea Urchin, Hemicentrotus Pulcherrimus, Caused by Long Chain Fatty Acyl-CoA-induced Inhibition of the Movement

Spermatozoa of the sea urchin, Hemicentrotus pulcherrimus , showed marked decrease in respiration, and arrested movement after interaction with the fixed eggs. Immotile spermatozoa that had reacted with fixed eggs contained higher levels of long chain fatty acyl-CoAs than normal motile spermatozoa. On treatment with carnitine, the immotile spermatozoa became motile again and their intracellular concentrations of long chain fatty acyl-CoAs decreased. On incubation with anti-mycin A or CN⁻ for 20 min, the motility of normal spermatozoa decreased gradually but their long chain fatty acyl-CoA content changed only slightly. The decrease in sperm motility in the latter case was probably due to decrease in the level of ATP, resulting from inhibition of respiration by antimycin A or CN⁻. The motility of spermatozoa extracted with Triton X-100 was restored by ATP and their movement was inhibited by long chain fatty acyl-CoAs, such as myristoly CoA and palmitoyl-CoA, but was not by short chain fatty acyl-CoAs, such as acetyl-CoA, propionyl CoA and butyryl-CoA. Na-palmitate, Na-myristate and CoA did not inhibit the reactivation of extracted spermatozoa by ATP.     

Purification and characterization of a feruloyl esterase from the fungus Penicilliumexpansum

An extracellular phenolic acid esterase produced by the fungus Penicillium expansum in solid state culture released ferulic and ρ-coumaric acid from methyl esters of theacids, and from the phenolic-carbohydrate esters O-[5-O-(trans-feruloyl)-α- l -arabinofuranosyl]-(1 → 3)-O-β- d -xylopyranosyl-(1 → 4)- d -xylopyranose (FAXX) and O-[5-O-((E)-ρ-coumaroyl)-α- l -arabinofuranosyl]-(1 → 3)-O-β- d -xylopyranosyl-(1 → 4)- d -xylopyranose(PAXX). The esterase was purified 360-fold in successive stepsinvolving ultrafiltration and column chromatography by gel filtration, anion exchange andhydrophobic interaction. These chromatographic methods separated the phenolic acid esterasefrom α- l -arabinofuranosidase, pectate and pectin lyase, polygalacturonase,xylanase and β- d -xylosidase activities. The phenolic acid esterase had an apparentmass of 65 kDa under non-denaturing conditions and a mass of 57·5 kDa underdenaturing conditions. Optimal pH and temperature were 5·6 and 37 °C,respectively and the metal ions Cu2+ and Fe³+ atconcentrations of 5 mmol l⁻¹ inhibited feruloyl esterase activity by 95% and44%, respectively, at the optimum pH and temperature. The apparent K_m and V_max of the purified feruloyl esterase for methyl ferulate at pH 5·6 and 37 °Cwere 2·6 mmol l⁻¹ and 27·1 μmol min⁻¹ mg⁻¹. The corresponding constants of ρ-coumaroylesterase for methyl coumarate were 2·9 mmol l⁻¹ and 18·6μmol min−1 mg⁻¹.     

CaMKII associates with CaV1.2 L-type calcium channels via selected β subunits to enhance regulatory phosphorylation

Calcium/calmodulin-dependent kinase II (CaMKII) facilitates L-type calcium channel (LTCC) activity physiologically, but may exacerbate LTCC-dependent pathophysiology. We previously showed that CaMKII forms stable complexes with voltage-gated calcium channel (VGCC) β_1b or β_2a subunits, but not with the β₃ or β₄ subunits ( Grueter et al. 2008 ). CaMKII-dependent facilitation of Ca_V1.2 LTCCs requires Thr498 phosphorylation in the β_2a subunit ( Grueter et al. 2006 ), but the relationship of this modulation to CaMKII interactions with LTCC subunits is unknown. Here we show that CaMKII co-immunoprecipitates with forebrain LTCCs that contain Ca_V1.2α₁ and β₁ or β₂ subunits, but is not detected in LTCC complexes containing β₄ subunits. CaMKIIα can be specifically tethered to the I/II linker of Ca_V1.2 α₁ subunits in vitro by the β_1b or β_2a subunits. Efficient targeting of CaMKIIα to the full-length Ca_V1.2α₁ subunit in transfected HEK293 cells requires CaMKII binding to the β_2a subunit. Moreover, disruption of CaMKII binding substantially reduced phosphorylation of β_2a at Thr498 within the LTCC complex, without altering overall phosphorylation of Ca_V1.2α₁ and β subunits. These findings demonstrate a biochemical mechanism underlying LTCC facilitation by CaMKII.     

Glycosides from Roots of Cyathula officinalis Kuan

Abstract: To search for new and bioactive compounds from traditional Chinese medicines, a new glycoside, 3-O-[α- L -rhamnopyranosyl-(1→3)-( n -butyl-β- D -glucopyranosiduronate)]-28-O-β- D -glucopyranosyloleanolic acid ( 1 ), was isolated from the roots of Cyathula officinalis Kuan, along with 3-O-(methyl-β- D -glucopyranosiduronate)-28-O-β- D -glucopyranosyl oleanolic acid ( 2 ), 3-O-β- D -glucopyranosyl oleanolic acid ( 3 ), 3-O-β- D -glucuronopyranosyl oleanolic acid ( 4 ), 3-O-[β- L -rhamnopyranosyl-(1→3)-(β- D -glucuronopyranosyl)] oleanolic acid ( 5 ), 3-O-(β- D -glucuronopyranosyl)-28-O-β- D -glucopyranosyl oleanolic acid ( 6 ), 28-O-β- D -glucuronopyranosyl-(1→4)-β- D -glucopyranosyl hederagenin ( 7 ), 3-O-[β- L -rhamnopyranosyl-(1→3)-β- D -glucuronopyranosyl]-28-O-β- D -glucopyranosyl oleanolic acid ( 8 ), and 3-O-[β- D -glucopyranosyl-(1→2)-α- L -rhamnopyranosyl-(1→3)-β- D -glucuronopyranosyl]-28-O-β- D -glucopyranosyl oleanolic acid ( 9 ). The structures of these compounds were determined based on spectral and chemical evidence. The 50 per cent growth-inhibiting (GI₅₀) of compounds 1 and 5 against MDA-MB-231 (a human breast cancer cell line) was 3.44 × 10^-4 and 4.66 × 10^-4 mol/L, respectively.
(Managing editor: Wei WANG)     

Molecular Determinants of General Anesthetic Action: Role of GABAA Receptor Structure

Abstract: Using receptors expressed from mouse brain mRNA in Xenopus oocytes, we found that enhancement of type A γ-aminobutyric acid (GABA_A) receptor-gated Cl⁻ channel response is a common action of structurally diverse anesthetics, suggesting that the GABA_A receptor plays an important role in anesthesia. To determine if GABA_A receptor subunit composition influences actions of anesthetics, we expressed subunit cRNAs in Xenopus oocytes and measured effects of enflurane on GABA-activated Cl⁻ currents. Potentiation of GABA-activated currents by enflurane was dependent on the composition of GABA_A receptor protein subunits; the order of sensitivity was α₁β₁ > α₁β₁γ_2s=α₁β₁γ_2L > total mRNA. The results suggest that anesthetics with simple structures may act on the GABA_A receptor protein complex to modulate the Cl⁻ channel activity and provide a molecular explanation for the synergistic clinical interactions between benzodiazepines and general anesthetics.     

A novel fluorescent α-conotoxin for the study of α7 nicotinic acetylcholine receptors

Homomeric α7 nicotinic acetylcholine receptors are a well-established, pharmacologically distinct subtype. The more recently identified α9 subunit can also form functional homopentamers as well as α9α10 heteropentamers. Current fluorescent probes for α7 nicotinic ACh receptors are derived from α-bungarotoxin (α-BgTx). However, α-BgTx also binds to α9* and α1* receptors which are coexpressed with α7 in multiple tissues. We used an analog of α-conotoxin ArIB to develop a highly selective fluorescent probe for α7 receptors. This fluorescent α-conotoxin, Cy3-ArIB[V11L;V16A], blocked ACh-evoked α7 currents in Xenopus laevis oocytes with an IC₅₀ value of 2.0 nM. Observed rates of blockade were minute-scale with recovery from blockade even slower. Unlike FITC-conjugated α-BgTx, Cy3-ArIB[V11L;V16A] did not block α9α10 or α1β1δε receptors. In competition binding assays, Cy3-ArIB[V11L;V16A] potently displaced [¹²⁵I]-α-BgTx binding to mouse hippocampal membranes with a K _i value of 21 nM. Application of Cy3-ArIB[V11L;V16A] resulted in specific punctate labeling of KXα7R1 cells but not KXα3β2R4, KXα3β4R2, or KXα4β2R2 cells. This labeling could be abolished by pre-treatment with α-cobratoxin. Thus, Cy3-ArIB[V11L;V16A] is a novel and selective fluorescent probe for α7 receptors.     

Pyruvate carboxylase in Leptosphaeria michotü. Isolation, properties, intracellular localization and cyclic variations of its activity in relation to polypeptide level

Pyruvate carboxylase (EC 6.4.1.1) was obtained from the fungus Leptosphaeria michotü (West) Sacc. and enriched 543-fold by a 5-step purification procedure as an a4-β4 tetramer of M_r 440000, composedof a M_r 60000 α-subunit, containing bound biotin, and a M_r 50000 β-subunit. The enzyme was active from pH 6.5 to 12.0, with a maximum between pH 8.0 and 8.5. Its specific activity was 125nkat (mg protein)⁻¹: it was not affected by acetyl CoA. A rabbit antiserum raised against the yeast pyruvate carboxylase was specifically reactive against the α-subunits of the L. michotü enzyme. The enzyme was localized into the cytosol by gold-labelled streptavidin and immunogold staining of thin sections of Lowicryl-K4M-embedded colonies. Pyruvate carboxylase and acetylCoA carboxylase in L. michotü had synchronous activity rhythms at constant temperature and in darkness; these rhythms were suppressed by cycloheximide or avidin supply. The pyruvate carboxylase level was quantified along the activity rhythm by gel electrophoresis using ³⁵S-streptavidin. and by enzyme-linked immunosorbent assay (ELISA) using serum against the yeast pyruvate carboxylase. The cyclic variations of pyruvate carboxylase activity were correlated with cyclic variations in the enzyme level. Suppression of pyruvate and acetyl CoA carboxylase activities by avidin had a no important effect on the transaminase rhythms of L. michotü .     

Neurological Mutation Characterized by Dysmyelination in NCTR-Balb/C Mouse with Lysosomal Lipid Storage Disease

Abstract: Morphological and biochemical studies were performed on the CNS of neurologically affected NCTR Balb/C mouse. Histological and electron microscopic techniques demonstrated severe myelin deficiency in the affected brains. Neither the presence of lipid-containing macrophages nor reactive gliosis was apparent. Analysis of myelin-associated lipids and proteins revealed prominent depletion of galactocerebroside, sulfatide, and proteolipid proteins. In contrast to the scarcity of myelin specific constituents a marked accumulation of G_M2 and G_M3 gangliosides and several neutral glycolipids, i.e., glucocerebroside, lactosylceramide, gangliotriaosylceramide, and gangliotetraosylceramide were found in affected CNS. These abnormalities were already apparent in 12-day-old pups as well as in 65-day-old mice. A significant deficit in the proportion of long-chain fatty acids (C₂₄), notable in both normal and α-hydroxy acids of cerebrosides from affected white matter, was measured. The lack of reactive gliosis, the observed depletion of galactocerebroside and sulfatide at the early age of 12 days, and the relative decrease in long-chain fatty acids in affected CNS strongly suggest a defect in myelinogenesis in this mutant rather than a secondary process of myelin breakdown.     

Purification and characterization of an intracellular β-glucosidase from a new strain of Leuconostoc mesenteroides isolated from cassava

The lactic acid bacterium, Leuconostoc mesenteroides, when grown on an arbutin-containing medium, was found to produce an intracellular β-glucosidase. The enzyme was purified by chromatofocusing, ion-exchange chromatography and gel filtration. The molecular mass of the purified intracellular β-glucosidase, as estimated by gel filtration, was 360 kDa. The tetrameric structure of the β-glucosidase was determined following treatment of the purified enzyme with dodecyl sulphate (SDS). The intracellular β-glucosidase exhibited optimum catalytic activity at 50°C and pH 6 with citrate–phosphate buffer, and 5·5 with phosphate buffer. The enzyme was active against glycosides with (1→4)-β, (1→4)-α and (1→6)-α linkage configuration. From Lineweaver–Burk plots, K _m values of 0·07 mmol l⁻¹ and 3·7 mmol l⁻¹ were found for p -nitrophenyl-β- D -glucopyranoside and linamarin, respectively. The β-glucosidase was competitively inhibited by glucose and by D -gluconic acid–lactone and a glucosyl transferase activity was observed in the presence of ethanol. The β-glucosidase of Leuconostoc mesenteroides, with cyanogenic activity, could be of potential interest in cassava detoxification, by hydrolysing the cyanogenic glucosides present in cassava pulp.     

Ceramide Induces Apoptosis in Cultured Mesencephalic Neurons

Abstract: The death of dopaminergic and other neurons in primary cultures of the mesencephalon could be induced by treatment with ceramide, as in lymphocytes where it mediates activation by the cytokines tumor necrosis factor-α and interleukin-1β of a novel sphingomyelin-dependent signaling pathway leading to apoptosis. The morphological hallmarks of this form of cell death—bleb formation, cell body shrinkage, nuclear chromatin condensation, and fragmentation—were observed in degenerating neurons. Internucleosomal DNA degradation could also be evidenced by gel electrophoresis. The C₂ and C₆ analogues as well as native ceramide, administered in a dodecane suspension, had a similar effect, whereas the closely related C₂-dihydroceramide, which lacks the 4–5 trans double bond in the sphingosine chain, failed to induce apoptosis. Neuronal death could be delayed by serum factors, dibutyryl cyclic AMP, and the protein synthesis inhibitor cycloheximide.     

SPHINGOGLYCOLIPIDS IN THE NERVOUS SYSTEM IN FABRY'S DISEASE

Abstract— Two glycolipids, accumulated in the spinal ganglia of a patient with Fabry's disease were identified as: galactosyl (α1 → 4) galactosyl (β1 → 4) glucosyl(1 → 1) ceramide (CTH) and galactosyl (α1 → 4) galactosyl(1 → 1) ceramide (CDG). Only one glycolipid which had the same structure as the CTH in the spinal ganglia accumulated in the sympathetic ganglia of the patient. In the nervous system, CTH contained behenic acid (C_22:0) as the major fatty acid. In the spinal ganglia, CDG also contained behenic acid as the major fatty acid.     

Inhibition of Inducible Nitric Oxide Synthase Expression by Endothelin in Rat Glial Cells Prepared from the Neonatal Rat Brain

Abstract: In primary cultured rat glial cells, a combination of inflammatory cytokines such as tumor necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) stimulates production of nitrite via expression of the inducible form of nitric oxide synthase (iNOS). In these cells, simultaneous addition of endothelin (ET) decreased iNOS expression and nitrite accumulation induced by TNF-α/IL-1β. The inhibitory effect of ET on TNF-α/IL-1β-stimulated iNOS expression appears to be mediated by ET_B receptors, because (1) both ET-1 and ET-3 inhibited the effects of TNF-α/IL-1β on iNOS expression and nitrite accumulation, (2) a selective ET_B receptor agonist, Suc-[Glu⁹,Ala^11,15]-ET-1 (8–21) (IRL1620), decreased the effects of TNF-α/IL-1β, and (3) a selective ET_B receptor antagonist, N-cis -2,6-dimethylpiperidinocarbonyl- l -γ-methylleucyl- d -1-methoxycarbonyltryptophanyl- d -norleucine, abolished the inhibitory effects of ETs and IRL1620. Incubation of glial cells with lipopolysaccharide (LPS) caused an increase in iNOS expression. Simultaneous addition of ET-3 decreased the effects of LPS (10 and 100 ng/ml) on iNOS expression. Furthermore, cyclic AMP-elevating agents (dibutyryl cyclic AMP and forskolin) inhibited TNF-α/IL-1β-induced and LPS-induced iNOS expression and nitrite accumulation. These findings suggest that ETs can decrease TNF-α/IL-1β-induced and LPS-induced iNOS expression via ET_B receptors and that cyclic AMP may be involved in this process.