Intracellular precursors of endo-β-1,4-glucanase in Trichoderma reesei

Abstract Sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) followed by immunoblotting was employed to detect intracellular precursors of endo-β-1,4-glucanases (EGs) in Trichoderma reesei QM9414 under conditions of de novo induction by sophorose and de novo carbon catabolite derepression by lactose. Secretion of EGs was always preceded by intracellular accumulation of lower M _r precursors, which became processed to larger M _r forms immediately prior to their extracellular appearance. Treatment of the larger M _r forms with α-mannosidase converted them to forms with the same M _r as the smaller forms, whereas Endo H treatment was without effect. These results are consistent with a requirement of O -linked glycosylation for secretion of EGs by T. reesei .     

Molecular characterization of the Pseudomonas putida 2,3-butanediol catabolic pathway

Abstract The 2,3-butanediol dehydrogenase and the acetoin-cleaving system were simultaneously induced in Pseudomonas putida PpG2 during growth on 2,3-butanediol and on acetoin. Hybridization with a DNA probe covering the genes for the E1 subunits of the Alcaligenes eutrophus acetoin cleaving system and nucleotide sequence analysis identified acoA (975 bp), acoB (1020 bp), acoC (1110 bp), acoX (1053 bp) and adh (1086 bp) in a 6.3-kb genomic region. The amino acid sequences deduced from acoA , acoB , and acoC for E1α ( M _r 34639), E1β ( M _r 37268), and E2 ( M _r 39613) of the P. putida acetoin cleaving system exhibited striking similarities to those of the corresponding components of the A. eutrophus acetoin cleaving system and of the acetoin dehydrogenase enzyme system of Pelobacter carbinolicus and other bacteria. Strong sequence similarities of the adh translational product (2,3-butanediol dehydrogenase, M _r 38361) were obtained to various alcohol dehydrogenases belonging to the zinc- and NAD(P)-dependent long-chain (group I) alcohol dehydrogenases. Expression of the P. putida ADH in Escherichia coli was demonstrated. The aco genes and adh constitute presumably one single operon which encodes all enzymes required for the conversion of 2,3-butanediol to central metabolites.     

Isoform-Specific Up-Regulation by Ouabain of Na+,K+-ATPase in Cultured Rat Astrocytes

Abstract: There are two α-subunit isoforms (α1 and α2) and two β-subunit isoforms (β1 and β2) of Na⁺,K⁺-ATPase in astrocytes, but the functional heterodimer composition is not known. Ouabain (0.5–1.0 m M ) increased the levels of α1 and β1 mRNAs, whereas it decreased those of α2 and β2 mRNAs in cultured rat astrocytes. The increases in α1 and β1 mRNAs were observed at 6–48 h after addition of the inhibitor. Immunochemical analyses showed that ouabain increased α1 and β1, but not α2 and β2, proteins, and that the isoforms in control and ouabain-treated cultures were of glial origin. Low extracellular K⁺ and monensin (20 µ M ) mimicked the effect of ouabain on α1 mRNA. The ouabain-induced increase in α1 mRNA was blocked by the protein synthesis inhibitor cycloheximide (10 µ M ), the intracellular Ca²⁺ chelator 1,2-bis(2-aminophenoxy)ethane- N,N,N',N' -tetraacetic acid tetraacetoxymethyl ester (30 µ M ), and the calcineurin inhibitor FK506 (1 n M ). These findings indicate that chronic inhibition of Na⁺,K⁺-ATPase up-regulates the α1 and β1, but not α2 and β2, isoforms in astrocytes, suggesting a functional coupling of α1β1 complex. They also suggest that intracellular Na⁺, Ca²⁺, and calcineurin may be involved in ouabain-induced up-regulation of the enzyme in astrocytes.     

The role of NADH- and NADPH-linked acetoacetyl-CoA reductases in the poly-3-hydroxybutyrate synthesizing organism Alcaligenes eutrophus

Abstract Two constitutive acetoacetyl-CoA (AcAc-CoA) reductases were purified from Alcaligenes eutrophus . Incorporation of [1-¹⁴C]-acetyl-CoA into poly-3-hydroxybutyrate (PHB) by systems reconstituted from purified preparations of either 3-ketothiolase, AcAc-CoA reductase and PHB synthase, occurred only when NADPH-AcAc-CoA reductase was present. The NADH reductase was active with all of the d (−)- and l (+)-3-hydroxyacyl-CoA substrates tested (C₄-C₁₀), whereas the NADPH reductase was only active with d (−)-3-hydroxyacyl-CoAs (C₄-C₆). The products of AcAc-CoA reduction by the NADH- and NADPH-linked enzymes were l (+)-3-hydroxybutyryl-CoA and d (−)-3-hydroxybutyryl-CoA, respectively. The NADH-linked enzyme had an M _r of 150,000 (containing identical M _r 30,000 sub-units) and the NADPH-linked enzyme appeared to be a tetramer ( M _r 84,000) with identical sub-units ( M _r 23,000). K _m^app values of 22 μM and 5 μM for AcAc-CoA and 13 μM (NADH) and 19 μM (NADPH) for the coenzymes were determined for the NADH- and NADPH-linked enzymes, respectively.     

Different GABAB-Mediated Effects on Protein Kinase C Activity and Immunoreactivity in Neonatal and Adult Rat Hippocampal Slices

Abstract: The effects of GABA on protein kinase C (PKC) were investigated in rat hippocampal slices at various postnatal ages [postnatal day (P) 1-P60]. At P4, GABA (300 µ M ) induced a rapid (in 1–2 min) 40–50% increase of PKC activity in the membrane fraction and a decrease in the cytosol. These effects were mediated by GABA_B receptors because (a) they were neither blocked by 10 µ M bicuculline nor reproduced by 10 µ M isoguvacine and (b) they were mimicked by the GABA_B agonist baclofen (3–30 µ M ), an effect fully antagonized by the GABA_B antagonist 2-hydroxysaclofen (10 µ M ). A baclofen-induced increased PKC activity in the membrane fraction was only present during the early postnatal period (P1–P14); it was associated with a translocation from the cytosol to the membrane of the immunoreactivity of some PKC isoforms (α-, β-, and ε-PKCs). In contrast, after P21, PKC activity and α-, β-, ε-, and γ-PKC immunoreactivities were decreased by baclofen in the membrane fraction and increased in the cytosol. These results suggest that the stimulation of GABA_B receptors differentially modulates PKC activity via distinct second messenger pathways in developing and mature hippocampi.     

Protein Kinase C Activation Potentiates the Rapid Secretion of the Amyloid Precursor Protein from Rat Cortical Synaptosomes

Abstract : In this study we have used the presynaptic-rich rat cerebrocortical synaptosomal preparation to investigate the proteolytic cleavage of the amyloid precursor protein (AβPP) by the α-secretase pathway within the βA4 domain to generate a soluble secreted N-terminal fragment (AβPP_s). AβPP was detected in crude cortical synaptosomal membranes, although at a lower density than that observed in whole-tissue homogenates. Protein kinase C (PKC) activation induced a translocation of the conventional PKC isoform β1 and novel PKCε from cytosol to membrane fractions, but there was no alteration in the proportion of AβPP associated with the Tritonsoluble and -insoluble fractions. AβPP_s was constitutively secreted from cortical synaptosomes, with this secretion being enhanced significantly by the direct activation of PKC with phorbol ester. The PKC-induced secretion of AβPP_s was only partially blocked by the PKC inhibitor GF109203X (2.5 μ M ), whereas the phosphorylation of the myristoylated alanine-rich C kinase substrate (MARCKS) protein was significantly inhibited by GF109203X. The differential sensitivities of the MARCKS phosphorylation and AβPP_s secretion to GF109203X may imply that different PKC isoforms are involved in these two events in the synaptosomal system. These findings strongly suggest that the α-secretase activity leading to the secretion of AβPP_s can occur at the level of the presynaptic terminal.     

Evidence for the Existence of Differential O-Glycosylated α5-Subunits of the γ-Aminobutyric AcidA Receptor in the Rat Brain

Abstract: Polyclonal antibodies were raised to synthetic peptides having amino acid sequences corresponding with the N- or C-terminal part of the γ-aminobutyric acid_A (GABA_A) receptor α₅-subunit. These anti-peptide α₅(2–10) or anti-peptide α₅(427–433) antibodies reacted specifically with GABA_A receptors purified from the brains of 5–10-day-old rats in an enzyme-linked immunosorbent assay and were able to dose-dependently immunoprecipitate up to 6.3 or 13.1% of the GABA_A receptors present in the incubation, respectively. In immunoblots, each of these antibodies reacted with the same two protein bands with apparent molecular mass of 53 or 57 kDa. After exhaustive treatment of purified GABA_A receptors with N -Glycanase, each of these antibodies identified two proteins with apparent molecular masses of 46 and 48 kDa. Additional treatment of GABA_A receptors with neuraminidase and O -Glycanase resulted in an apparently single protein with molecular mass of 47 kDa, which again was identified by both the anti-peptide α₅(2–10) and the anti-peptide α₅(427–433) antibody. These results indicate the existence of at least two different α₅-sub-units of the GABA_A receptor that differ in their carbohydrate content. In contrast to other α- or β-subunits of GABA_A receptors so far investigated, at least one of these two α₅-subunits contains O-linked carbohydrates.     

Characterization of two 3-ketothiolases possessing differing substrate specificities in the polyhydroxyalkanoate synthesizing organism Alcaligenes eutrophus

Abstract Two constitutive acetyl-CoA acetyltransferases (3-ketothiolases A and B) were purified from Alcaligenes eutrophus . Enzyme A was active with only acetoacetyl-CoA and 3-ketopentanoyl-CoA, whereas enzyme B was active with all the 3-ketoacyl-CoAs (C₄−C₁₀) tested. Enzyme A appeared to be a tetramer ( M _r 70 000) with identical subunits ( M _r 44 000) and enzyme B had a similar M _r of 168 000 (containing M _r 46 000 subunits). Enzymes A and B had isoelectric points of 5.0 and 6.4, respectively. The stoichiometry of the reactions catalysed by each enzyme was confirmed. K _m values of 44 μM and 394 μM for acetoacetyl-CoA, and 16 μM and 93 μM for CoA, were determined with enzymes A and B, respectively. Enzymes A and B gave K _m values of 1.1 mM and 230 μM, respectively, for acetyl-CoA. The condensation reaction was potently inhibited by CoA in both cases.     

A constitutive, plasma-membrane bound β-glucosidase in Trichoderma reesei

Abstract Plasma membranes of Trichoderma reesei QM 9414, isolated from protoplasts by means of the concanavalin A procedure, contained β-glucosidase activity, which appeared constitutively upon growth on glucose. The enzyme had a pH optimum around 6, and was active on p -nitrophenyl-β- d -glucoside, cellobiose and sophorose ( K _m 0.7, 3.9 and 3.1 mM, respectively). Glucose was only weakly inhibitory ( K _i 7 mM). Treatment of the plasma membranes with Triton X-100, Tween 80 or digitonin solubilized more than 60% of the membrane-bound β-glucosidase activity. The enzyme so solubilized exhibited an M _r of 70 000 ± 5000 and an isoelectric point at pH 8.2 ± 0.3.     

Dextran sulphate enhancement of lipopolysaccharide-induced tumour necrosis factor-α production by murine peritoneal macrophages: Correlation with macrophage blockade

Abstract Proteose peptone-induced murine peritoneal macrophages (Mø) were preincubated with 100–800 μg/ml of dextran sulphate (DS) 500 ( M _r 500 000) or DS1000 ( M _r 1 000 000). After 2–24 h of the preincubation, the Mø were stimulated with 1 μg/ml of lipopolysaccharide (LPS) in vitro for 18 h in DS-free culture medium. The culture supernatants were then collected for TNF assay. The LPS-induced TNF activity of Mø supernatant preincubated with DS500 or DS1000 for 6 h was enhanced by up to about ten-fold compared with those preincubated without DS. This enhancing effect was not observed when Mø were preincubated with 100–800 μg/ml of low molecular weight DS5 ( M _r 5000) or neutral dextran (Dex) 500 ( M _r 500 000). The enhancement of LPS-induced TNF-α production from Mø was observed after 2 or 4 h of incubation with DS1000 or DS500, respectively. The phagocytic activity of Mø was determined in vitro by the ingestion index and phagocytic capacity using Saccharomyces cerevisiae . Treatment with DS500 or DS1000 significantly suppressed the phagocytic activity from 2 h after the incubation, but this suppression was not observed in Mø incubated with DS5 or Dex500. Our experiments indicate that DS500 and DS1000 act directly on Mø and enhance LPS-induced TNF-α production from Mø, and that the enhancement is closely related to the suppression of Mø phagocytic function.     

Purification and characterisation of a novel 34,000-Mr cell-associated proteinase from the dermatophyte Trichophyton rubrum

Abstract A novel cell-associated proteinase was purified to homogeneity from cytoplasmic antigen preparations of Trichophyton rubrum by sequential isoelectric focusing and gel filtration chromatography. The enzyme exhibited relative molecular masses of 34,000- M _r (non-reduced sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE)), 15,000- M _r (reduced SDS-PAGE) and 37,000- M _r (substrate SDS-PAGE). It had a pH optimum of 7.5 and a p I of 4.5. The proteinase exhibited broad substrate specificity and it was strongly inhibited by the serine proteinase inhibitors phenylmethylsulfonyl fluoride and chymostatin. The N-terminal amino acid sequence of the 34,000- M _r proteinase shared 50% homology with the deduced amino acid sequence of a Coccidioides immitis wall-associated chymotrypsin-type serine proteinase. This is the first cell-associated proteinase to be purified and characterised from T. rubrum and it would appear to be related to the chymotrypsin-type serine proteinases, a class of enzymes that have rarely been isolated from fungi. The function of the proteinase remains speculative although it may play a role in the development and subsequent proliferation of the fungus in vivo.     

Purification of Clostridium perfringens enterotoxins by high performance liquid chromatography

Abstract Treatment of Saccharomyces cerevisiae a cells with α-factor partially inhibits mannosylation of the high M _r mannoproteins, although there is an increase in the total amount of these molecules present in the wall. They show a similar mobility in SDS-acrylamide gels to those from untreated mnn2 cells. No other significant effects on wall mannoproteins have been observed, except a decrease in the amount of the 29 kDa species.     

Two membrane-bound b-type cytochromes in Nitrosomonas europaea

Abstract Membranes from Nitrosomonas europaea were found to contain two b -type cytochromes. One had an α-band centred at 562 nm and E _m,7=+ 155 mV; the other had an α-band maximum close to 558 nm and E _m,7=+ 40 mV. A b -type cytochrome ran at an apparent M _r of 32000 on lithium dodecyl sulphate/polyacrylamide gels at 4°C.     

Isolation and identification of β 1 → 2-d-glucans in extracellular polysaccharides of Rhizobium meliloti strain L5-30

Abstract Exopolysaccharides have been found as bound to R. meliloti cells (strain L5-30) or free in the culture medium; they consist of acidic and neutral polysaccharides. Bound and soluble neutral polysaccharides were identified as β 1 → 2 linked glucans with an average M _r value of 4000 to 6000.     

Structural stability of Sclerotium rolfsii ATCC 201126 β-glucan with fermentation time: a chemical, infrared spectroscopic and enzymatic approach

Aims:  Sclerotium rolfsii ATCC 201126 exopolysaccharides (EPSs) recovered at 48 h (EPS I) and 72 h (EPS II) of fermentation, with differences in rheological parameters, hydrogel topography, salt tolerance, antisyneresis, emulsifying and suspending properties, were subjected to a polyphasic characterization in order to detect structural divergences.
Methods and Results:  Fermenter-scale production led to productivity ( P _r) and yield ( Y _P/C) values higher at 48 h ( P _r = 0·542 g l⁻¹ h⁻¹; Y _P/C = 0·74) than at 72 h ( P _r = 0·336 g l⁻¹ h⁻¹; Y _P/C = 0·50). Both EPSs were neutral glucose-homopolysaccharides with a β-(1,3)-glycosidic backbone and single β-(1,6)-glucopyranosyl sidechains regularly attached every three residues in the main chain, as revealed by chemical analyses. The infra-red diagnostic peak at 890 cm⁻¹ confirmed β-glycosidic linkages, while gentiobiose released by β-(1,3)-glucanases confirmed single β-1,6-glycosidic branching for both EPSs.
Conclusions:  The true modular repeating unit of S. rolfsii ATCC 201126 scleroglucan could be resolved. Structural stability was corroborated and no structural differences could be detected as to account for the variations in EPSs behaviour.
Significance and Impact of the Study:  Recovery of S. rolfsii ATCC 201126 scleroglucan at 48 h might be considered based on better fermentation kinetic parameters and no detrimental effects on EPS structural features.     

Iron-regulated outer membrane proteins and non-siderophore-mediated iron acquisition by Paracoccus denitrificans

Abstract Deprivation of Paracoccus denitrificans of iron in sodium molybdate-containing medium caused a slower rate of growth and lower final cell yield, in contrast to our previous studies in non-sodium molybdate-containing medium, where iron deprivation had little effect on growth rate. Five high M _r outer membrane proteins and catechol production were induced in iron-deprived cultures. The fifth protein, M _r 72 000, was produced later than the others. Growth of iron-deprived cells in medium containing 20 μM ferric citrate repressed siderophore and iron deprivation-induced protein production, and led to production of an M _r 23 000 outer membrane protein (half maximum production after 5 h). Synthesis of the M _r 23 000 and high M _r proteins appeared to be mutally exclusive, and to be regulated by the cell's iron status. Cells inoculated into medium containing 20 μM ferric citrate took up 92% of the iron within 1 h, suggesting the occurrence of a nonsiderophore mediated, 'low affinity' iron uptake pathway.     

Generation and Regulation of β-Amyloid Peptide Variants by Neurons

Abstract: Studies of processing of the Alzheimer β-amyloid precursor protein (βAPP) have been performed to date mostly in continuous cell lines and indicate the existence of two principal metabolic pathways: the "β-secretase" pathway, which generates β-amyloid (Aβ_1–40/42; ∼4 kDa), and the "α-secretase" pathway, which generates a smaller fragment, the "p3" peptide (Aβ_17–40/42; ∼3 kDa). To determine whether similar processing events underlie βAPP metabolism in neurons, media were examined following conditioning by primary neuronal cultures derived from embryonic day 17 rats. Immunoprecipitates of conditioned media derived from [³⁵S]methionine pulse-labeled primary neuronal cultures contained 4- and 3-kDa Aβ-related species. Radiosequencing analysis revealed that the 4-kDa band corresponded to conventional Aβ beginning at position Aβ(Asp¹), whereas both radio-sequencing and immunoprecipitation-mass spectrometry analyses indicated that the 3-kDa species in these conditioned media began with Aβ(Glu¹¹) at the N terminus, rather than Aβ(Leu¹⁷) as does the conventional p3 peptide. Either activation of protein kinase C or inhibition of protein phosphatase 1/2A increased soluble βAPP_α release and decreased generation of both the 4-kDa Aβ and the 3-kDa N-truncated Aβ. Unlike results obtained with continuously cultured cells, protein phosphatase 1/2A inhibitors were more potent at reducing Aβ secretion by neurons than were protein kinase C activators. These data indicate that rodent neurons generate abundant Aβ variant peptides and emphasize the role of protein phosphatases in modulating neuronal Aβ generation.     

Gene sequence and analysis of protein domains of EGB, a novel family E endoglucanase from Fibrobacter succinogenes S85

Abstract The endoglucanase gene ( endB ) of Fibrobacter succinogenes S85 encodes a protein of 555 amino acids (EGB) with a M _r of 62500. EGB shows homology with cellulases belonging to family E. Residues involved in the catalytic activity of CelD from Clostridium thermocellum are also found in EGB. Structure predictions suggest that EGB, like CelD, comprises a large α-helical catalytic domain plus a β-strand domain of unknown function located in the N-terminal part of the protein. Construction of a phylogenetic tree of family E catalytic domains revealed that EGB is closest to a cellodextrinase from Butryrivibrio fibrisolvens .     

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.