In-vivo formation of xyloglucan nonasaccharide: A possible biologically active cell-wall fragment

The in-vivo formation of a specific nonasaccharide of xyloglucan was investigated. This nonasaccharide has been reported to have biological activity, inhibiting auxin-induced growth in pea stem segments. Cell-suspension cultures of spinach were grown in the presence of [³H]arabinose and [³H]fucose, and the culture-filtrates were examined for oligosaccharides by gelpermeation chromatography and by paper chromatography. Sixteen [³H]pentose-containing oligosaccharides were found, including twelve that contained the sequence [³H]xylosyl-(16)-glucose, which is diagnostic of xyloglucan. In addition, [³H]fucose-containing oligosaccharides of at least three sizes were found. Radiochemical evidence is presented that one of these oligosaccharides was labelled with both [³H]fucose and with [³H]pentose, and was identical with the major xyloglucan-derived nonasaccharide associated with anti-auxin activity. It was largely present in the form of acylated (possibly acetylated) derivatives. It accumulated extracellularly to a steady-state concentration of about 4.3·10^-7M. This is the first report of the production of a biologically-active oligosaccharide by living plant cells.Abbreviations BAB butanone/acetic acid/H₃BO₃-saturated water (9:1:1) - BAW butan-1-ol/acetic acid/water (12:3:5) - BPW butan-1-ol/pyridine/water/(4:3:4) - DP degree of polymerisation - FAW ethyl acetate/acetic acid/water (10:5:6) - EPW ethyl acetate/pyridine/water (8:2:1) - k _av elution volume relative to Blue Dextran (k _av.=0.0) and glucose (k _av.=1.0) - XG7 XG9 minus the fucose and galactose residues - XG9 the particular xyloglucan nonasaccharide illustrated in Fig. 1 - W water-saturated phenol     

Kinetic study of a thermostable beta-glycosidase of Thermus thermophilus. Effects of temperature and glucose on hydrolysis and transglycosylation reactions

A -glycosidase of a thermophile, Thermus thermophilus, belonging to the glycoside hydrolase family 1, was cloned and overexpressed in Escherichia coli. The purified enzyme (Ttgly) has a broad substrate specificity towards -D-glucoside, -D-galactoside and -D-fucoside derivatives. The thermostability of Ttgly was exploited to study its kinetic properties within the range 25–80[emsp4 ]°C. Whatever the temperature, except around 60[emsp4 ]°C, the enzyme displayed non-Michaelian kinetic behavior. Ttgly was inhibited by high concentrations of substrate below 60[emsp4 ]°C and was activated by high concentrations of substrate above 60[emsp4 ]°C. The apparent kinetic parameters (k _cat and K _m ) were calculated at different temperatures. Both k _cat and K _m increased with an increase in temperature, but up to 75[emsp4 ]°C the values of k _cat increased much more rapidly than the values of K _m . The observed kinetics might be due to a combination of factors including inhibition by excess substrate and stimulation due to transglycosylation reactions. Our results show that the substrate could act not only as a glycosyl donor but also as a glycosyl acceptor. In addition, when the glucose was added to reaction mixtures, inhibition or activation was observed depending on both substrate concentration and temperature. A reaction model is proposed to explain the kinetic behavior of Ttgly. The scheme integrates the inhibition observed at high concentrations of substrate and the activation due to transglycosylation reactions implicating the existence of a transfer subsite.     

Characterization of active barley alpha-amylase 1 expressed and secreted by Saccharomyces cerevisiae

Recombinant barley -amylase 1 isozyme was constitutively secreted by Saccharomyces cerevisiae. The enzyme was purified to homogeneity by ultrafiltration and affinity chromatography. The protein had a correct N-terminal sequence of His-Gln-Val-Leu-Phe-Gln-Gly-Phe-Asn-Trp, indicating that the signal peptide was efficiently processed. The purified -amylase had an enzyme activity of 1.9 mmol maltose/mg protein/min, equivalent to that observed for the native seed enzyme. The k _cat/K _m was 2.7 × 10² mM^–1.s^–1, consistent with those of -amylases from plants and other sources.     

Laser kinetic spectroscopy studies of the bimolecular oxygenation of alpha- and beta-subunits within the R-state of human hemoglobin

Bimolecular oxygenation of tri-liganded R-state human hemoglobin (HbA) is described by bi-exponential kinetics with association rate constants k = 27.2 ± 1.3 (M·sec)^-1 and k = 62.9 ± 1.6 (M·sec)^-1. Both the observed processes have been assigned to the bimolecular oxygenation of - and -subunits of the native tetrameric protein by molecular oxygen. The quantum yields of photodissociation within the completely oxygenated R-state HbA are = 0.0120 ± 0.0017 and = 0.044 ± 0.005 for - and -subunits, respectively. The oxygenation reactions of isolated ^PCMB- and ^PCMB-hemoglobin chains are described by mono-exponential kinetics with the association rate constants k = 44 ± 2 (M·sec)^-1 and k = 51 ± 1 (M·sec)^-1, respectively. The quantum yields of photodissociation of isolated ^PCMB- and ^PCMB-chains (0.056 ± 0.006 and 0.065 ± 0.006, respectively) are greater than that observed for appropriate subunits within the R-state of oxygenated HbA.     

Identification of essential histidine residues in a recombinant alpha-amylase of thermophilic and alkaliphilic Bacillus sp. strain TS-23

To understand the structure-function relationships of a truncated Bacillus sp. strain TS-23 -amylase, each of His-137, His-191, His-239, His-269, His-305, His-323, His-361, His-436, and His-475 was replaced with leucine. The molecular masses of the purified wild-type and mutant enzymes were approximately 54 kDa. The specific activity of His323Leu and His436Leu was decreased by more than 52%, while His239Leu, His305Leu, and His475Leu showed activity similar to that of the wild-type enzyme. As compared with the wild-type enzyme, His323Leu and His436Leu exhibited a 62% decrease in the value of k_cat/K_m. Alterations in His-191, His-239, His-305, and His-475 did not cause a significant change in the K_m or k_cat values. At 70°C, a decreased half-life was observed in His436Leu. These results indicate that His-137, His-269, and His-361 of Bacillus sp. strain TS-23 -amylase are important for proper catalytic activity and that His-436 may contribute to the thermostability of the enzyme.Communicated by K. Horikoshi     

Rna-mediated regulation of Receptor-Ck gene in human platelets

The study addressed to understand the regulation of Receptor-C_k gene atthe translational level revealed that exogenous cholesterol has the inherentcapacity to regulate the endogenous synthesis of Receptor-C_k by initiatingintracellular targeting of the Receptor-C_k to the mRNP pool within humanplatelets and this effect could be reversed when the platelets wereincubated with cholesterol coupled with either dB cAMP or dB cGMP. Basedupon these observations, we propose that Receptor-C_k initiated signalling,which involves second messengers like PA, cAMP and cGMP, may be responsiblefor the autoregulation of Receptor-C_k gene expression at the translationallevel.     

The pharmacodynamic action of the cyclic AMP phosphodiesterase inhibitor rolipram on prolactin producing rat pituitary adenoma (GH4C1) cells

Rolipram (4-(3-cyclopentyloxy-4-methoxyphenyl)-2-pyrrolidone) represents a new class of specific low K_m cAMP phosphodiesterase (PDE) inhibitors. This compound enhances basal, hormone- and forskolin-elicited cAMP accumulation in prolactin (PRL) producing rat pituitary adenoma (GH₄C₁) cells in culture (ED₅₀=5·10^–8 M). This effect is due to a selective inhibition of the low K_m cAMP PDE (type III), since neither basal nor hormone-stimulated adenylate cyclase (AC) nor the Ca²⁺/calmodulin-dependent PDE were affected by rolipram. The drug enhanced vasoactive intestinal polypeptide (VIP)-stimulated PRL-secretion, while thyroliberin (TRH)- and 12-0-tetradecanoyl phorbol-13-acetate (TPA)-elicited PRL egress were slightly reduced indicating a cAMP-mediated reduction of protein kinase C (PK-C) mediated PRL release. Interestingly, inhibition of PRL secretion by somatostatin (SRIH) was completely suppressed suggesting cAMP-mediated inactivation of some GTP-binding protein(s) of the _i family (G _i2 orG _k). Rolipram did not affect phosphoinositide metabolism (i.e. IP₃ accumulation), neither acutely nor after long term administration. Rolipram, like the cAMP PDE inhibitor Ro 20–1724, did not influence AC and PDE I, but dose-dependently inhibited PDE III activity.Long term incubation of GH₄C₁ cells with rolipram in the presence of noradrenaline (NA) exerted a marginal decrease of -receptor number, AC activation and cAMP accumulation, while Ro 20–1724 brought about a marked down-regulation and desensitization of the AC complex.In summary, rolipram selectively interacts with PDE III in rat pituitary adenoma cells in culture and does not result in -adrenoceptor AC downregulation. These features are not shared by the other drugs tested.     

Competition between β-ketothiolase and citrate synthase during poly(β-hydroxybutyrate) synthesis inMethylobacterium rhodesianum

The enzymes -ketothiolase and citrate synthase from the facultatively methylotrophicMethylobacterium rhodesianum MB 126, which uses the serine pathway, were purified and characterized. The -ketothiolase had a relatively highK _m for acetyl-CoA (0.5 mM) and was strongly inhibited by CoA (K _i 0.02 mM). The citrate synthase had a much higher affinity for acetyl-CoA (K _m 0.07 mM) and was significantly inhibited by NADH (K _i 0.15 mM). The intracellular concentration of CoA metabolites and nucleotides was determined inM. rhodesianum MB 126 during growth on methanol. The level of CoA decreased from about 0.6 nmol (mg dry mass)^-1 during growth to the detection limit when poly(-hydroxybutyrate) (PHB) accumulated. Nearly unchanged intracellular concentrations of NADH, NADPH, and acetyl-CoA of about 0.5, 0.6–0.7, and 1.0 nmol (mg dry mass)^-1, respectively, were determined during growth and PHB synthesis. During growth, the -ketothiolase was almost completely inhibited by CoA, and acetyl-CoA was principally consumed by the citrate synthase. During PHB accumulation, the -ketothiolase had about 75% of its maximum activity and showed much higher activity than citrate synthase, which at the actual NADH concentration was about 75% inhibited. NADPH concentration was sufficiently high to allow the unlimited activity of acetoacetyl-CoA reductase (K _mNADPH 18 M). PHB synthesis is probably mainly controlled by the CoA concentration inM. rhodesianum MB 126.Abbreviation PHB Poly(-hydroxybutyrate)     

Role of the pituitary gland in experimental hormonal induction and prevention of benign prostatic hyperplasia in the dog

Summary The antiandrogen, cyproterone acetate (CPA), prevents development of prostatic hyperplasia, induced in castrated dogs by a 6 month-treatment with 5-androstane-3,l 7-diol (A)alone or in combination with 17-oestradiol (E ₂). The immunoperoxidase technique was used to study functional cell types in the pars distalis of the pituitary gland and to detect growth hormone (GH) and prolactin (PRL) target sites in the prostate gland. Homologous radioimmunoassays for estimation of serum canine GH and PRL concentrations were also performed. Treatment with the combinations A + E ₂ and A + E ₂ + CPA resulted in morphological indications of stimulated GH and PRL cells and depressed gonadotrophs. This correlates well with an increase in PRL-dependent staining in glandular epithelium and fibromuscular tissue of the prostate gland. However, basal serum PRL and GH levels were not significantly affected. Treatment with A and A + E₂ stimulated, while additional treatment with CPA clearly suppressed adrenocorticotrophin/melanotrophin (ACTH/MSH) cells. These findings indicate that an endocrine imbalance in hypothalamic-pituitary-adrenal function may be involved in induction and prevention of prostatic hyperplasia in the dog.     

Ultrastructural analysis of mineralized matrix from human osteoblastic cells: Effect of tumor necrosis factor-alpha

The study, addressed to understand whether or not human platelets possess a unique thiol-oxidase whose activity could be modulated by signalling pathway initiated upon the activation of Receptor-C_k revealed the existence of disulphide-dependent oxidation within these cells and this phenomenon was regulated by Receptor-C_k-dependent generation of second messengers especially phosphatidic acid (PA); cAMP and cGMP. Purification of this activity revealed the existence of 47 kDa protein having thiol-oxidase activity. Keeping in view these results we propose that the existence of this novel 47 kDa Thiol-oxidase within human platelets may provide a crucial switch for the regulation of Receptor-C_k-dependent mevalonate pathway in human platelets.     

A kinetic correlation for konjac powder hydrolysis by β-mannanase from Bacillus licheniformis

The kinetics of konjac powder hydrolysis by -mannanase from Bacillus licheniformis was studied for the production of manno-oligosaccharides, a bifidobacteria factor. It is assumed that, during the whole reaction, the substrate has an average degree of polymerization with which the apparent kinetic constants, K _m and k ₊₂, vary and the concentration of substrate remains unchanged. Based on the above assumptions, a set of simple expressions is proposed to correlate the initial concentration of substrate, enzyme concentration, degree of hydrolysis and reaction time. The results predicted are in good agreement with the experimental data.     

Substrate and inhibitor specificity of anion exchangers on the brush border membrane of rabbit ileum

Summary In previous studies we have found that several anions can be transported by an exchange process in rabbit ileal brush border membranes. We demonstrated exchanges of Cl for OH or HCO₃, SO₄ for OH, oxalate for OH, and oxalate for Cl. The purpose of these studies was to determine the number of distinct carriers mediating these exchanges. We utilized substrate and inhibitor specificity studies to distinguish between different anion exchange transporters. We conclude that SO₄OH and oxalate: OH exchange occur on the same carrier because: (i) pH-gradient stimulated transport of both¹⁴C-oxalate and³⁵SO₄ were equally sensitive tocis-inhibition by unlabeled SO₄ or oxalate; and (ii) both were inhibited equally by K. We conclude that oxalate: OH and oxalate: Cl exchanges occur on different carriers because: (i) Cl or SO₄ caused unequalcis-inhibition of these two exchanges; and (ii) as compared to oxalate: Cl exchange, oxalate: OH exchange was more sensitive to inhibition by probenecid and K and less sensitive to inhibition by bumetanide. Finally, we conclude that oxalate: Cl exchange and ClHCO₃ exchange occur on different carriers because: (i) ClHCO₃ exchange was almost completely insensitive tocis-inhibition by oxalate; and (ii) oxalate: Cl exchange was more sensitive to inhibition by DIDS and bumetanide than ClHCO₃ exchange. Thus we have found that there are at least three separate anion exchangers on rabbit ileal brush border: (i) a ClHCO₃ exchanger; (ii) a SO₄OH exchanger, which also transports oxalate; and (iii) an oxalate: Cl exchanger.     

Is Ag(I) an adequate probe for Cu(I) in structural copper–metallothionein studies?

The binding abilities of silver(I) to mammalian MT 1 have been studied and compared with those of copper(I), recently reported [Bofill et al. (2001) J Biol Inorg Chem 6:408–417], with the aim of analyzing the suitability of Ag(I) as a Cu(I) probe in Cu–MT studies. The Zn/Ag replacement in recombinant mouse Zn₇–MT 1 and corresponding Zn₄-MT 1 and Zn₃-MT 1 fragments, as well as the stepwise incorporation of Ag(I) to the corresponding apo-MTs, have been followed in parallel by various spectroscopic techniques including electronic absorption (UV–vis), circular dichroism (CD) and electrospray mass spectrometry coupled to capillary zone electrophoresis (CZE-ESI-MS). A comparative analysis of the sets of data obtained in the titration of Zn₇–MT 1, Zn₄–MT 1 and Zn₃-MT 1 with AgClO₄ at pH 7.5 and 2.5 has led to the reaction pathways followed during the incorporation of silver to these proteins under these specific conditions, disclosing unprecedented stoichiometries and structural features for the species formed. Thus, the Zn/Ag replacement in Zn₇–MT 1 at pH 7.5 has revealed the subsequent formation of Ag₄Zn₅–MT, Ag₇Zn₃–MT, Ag₈Zn₃–MT, Ag₁₀Zn₂–MT, Ag₁₂Zn₁–MT, Ag_x–MT, x=14–19, whose structure consists of two additive domains only if Zn(II) remains coordinated to the protein. A second structural role for Zn(II) has been deduced from the different folding found for the Ag_x–MT species of the same stoichiometry formed at pH 7.5 or 2.5. Comparison of the binding features of Cu(I) and Ag(I) to the entire MT at pH 7.5 shows that, among all the _xZn_y–MT (0y<7) species found, only M^I₄Zn₅–MT [(Zn₄)(₄Zn₁)] and M^I₇Zn₃–MT [(₃Zn₂)(₄Zn₁)], which form during the first stages of the Zn(II)/M(I) metal replacement, show comparable 3D structures; thus, they are the only species where Ag(I) ions can be predicted to be an adequate probe for Cu(I).Electronic Supplementary Material Supplementary material is available in the online version of this article at .     

Thrombin Specificity: Further Evidence for the Importance of the β-Insertion Loop and Trp96. Implications of the Hydrophobic Interaction Between Trp96 and Pro60B Pro60C for the Activity of Thrombin

A number of thrombin mutants have been constructed to investigate the role of Trp⁹⁶ and the -insertion loop for the specificity of thrombin. Thrombin(60D) consists of the replacement of the -insertion loop (14 amino acid residues from 59 to 63, including a 9-residue insertion at position 60) with the corresponding four residues in trypsin, Tyr-Lys-Ser-Gly; thrombin(GGG) is a smaller loop mutation in which the residues Tyr^60APro^60BPro^60CTrp^60D Asp^60ELys^60F of the -insertion loop were replaced by Gly-Gly-Gly; thrombin(96S) consists of a point mutation Trp⁹⁶Ser; and thrombin(GGG/96S) is the double mutant incorporating both changes. Thrombin(96S) clots fibrinogen ~3 times more slowly than thrombin, with the two -insertion loop mutants, thrombin(GGG) and thrombin(GGG/96S), reacting ~3000- and 1300-fold more slowly, respectively. The specificity constant k _cat/K _m for the cleavage of fibrinopeptide A and fibrinopeptide B by thrombin(96S) was 2.6 and 0.35 M^–1 s^–1 respectively, compared to 10 and 2.5 M^–1 s^–1 for wild-type recombinant thrombin, respectively. Kinetic constants were determined for the hydrolysis of H-D-phenylalanyl-L-pipecolyl-L-arginine-p-nitroaniline. The Michaelis constant K _m increased ~6-fold for thrombin(96S) and >200-fold for thrombin(GGG) and thrombin(GGG/96S) when compared to wild-type recombinant thrombin, while the catalytic constant k _cat remained approximately the same. All mutants were more susceptible to inhibition by BPTI than wild-type recombinant thrombin. Clearly, the -insertion loop is important for thrombin activity. But the mutation of Trp⁹⁶Ser can compensate somewhat for the loss of binding at the -insertion loop. The deletion of the hydrophobic interaction between Trp⁹⁶ and Pro^60BPro^60C appears to decrease the stability of the -insertion loop, thereby causing a decrease in binding efficiency.     

Intracellular calcium activity in split frog skin epithelium: Effect of cAMP

Summary Measurement of intracellular calcium activity (a _Ca ^c ) by ion-selective microelectrodes has previously been technically limited to relatively large cells (20 m). We now report results obtained with this technique in the small epithelial cells (10 m) of split frog skin using microelectrodes having an outer tip diameter of <0.2 m. The basolateral membrane potential was measured with Ca²⁺-selective microelectrodes (E _Ca ^sc ) and with reference micropipettes ( ^sc ) either sequentially or simultaneously in 15 successful experiments. Under baseline conditions,a _Ca ^c was measured to be 215±39nm (mean±se), in close agreement with the mean values estimated from published data obtained withNecturus proximal tubule. Stimulation of Na⁺ transport across six skins with 1mm serosal 8p-chlorophenylthio-3,5 cyclic AMP (CPTcAMP) increaseda _Ca ^c by a factor of 2.6±0.6. The increase ina _Ca ^c preceded the CPTcAMP-induced increase inI _sc. The results of the present study indicate that electrometric determination of intracellular calcium activity is now feasible in a much wider range of cell systems than heretofore possible. CPT cAMP elevates intracellular Ca²⁺ activity; this phenomenon is an early event, preceding the natriferic effect of CPTcAMP.     

Effects of Zn(II) on galactosyltransferase activity

The enzyme -4-galactosyltransferase (GT) catalyzes the transfer of a galactosyl group from UDP-galactose to N-acetylglucosamine (GlcNAc) on glycoproteins. In the presence of -lactalbumin (-LA), galactosyltransferase catalyzes the transfer of galactose to glucose to yield lactose. It is known that, in the absence of -lactalbumin, Zn(II) competes with Mn(II) for the same binding site(s) in galactosyltransferase, resulting in an increase in the apparent Michaelis constant,K _m (app), for Mn(II)-activation of N-acetyllactosamine synthesis. In the presence of -lactalbumin (i.e., lactose synthase), the Mn(II)-activation is biphasic and the initial phase is inhibited by increasing concentrations of Zn(II). The Zn(II) inhibition of lactose synthase plateaus at [Zn(II)]:[-lactalbumin] 1:1, while for N-acetyllactosamine synthesis there is no plateau at all. The results suggest that Zn(II) binding to -lactalbumin effects lactose synthase. Kinetically, Zn(II) induces a decrease in both theK _m (app) andV _m for Mn(II), which results in an apparent increase, followed by a decrease, in lactose synthase activity at Mn(II) concentrations below saturation of the first [Mn(II)] binding site. Increasing Zn(II) also decreasesK _m (app) andV _m for both glucose and UDP-galactose in the lactose synthase reaction with either both Ca(II)- or apo--lactalbumin, further suggesting novel interactions between Zn(II)--lactalbumin and the lactose synthase complex, presumably mediated via a Zn(II)-induced conformational change upon binding to -lactalbumin. On the other hand, in N-acetyllactosamine synthesis, Zn(II) only slightly effectsK _m (app) for N-acetylglucosamine and has essentially no effect onK _m (app) orV _m for UDP-galactose.On leave from the Institute of Theoretical and Experimental Biophysics, Russian Academy of Sciences, Pushchino, Moscow Region, 142292, Russia