Constitutive and inducible aspects of nitrate-nitrogen uptake by Chlamydomonas reinhardtii

Similarly to higher plant root systems, Chlamydomonas reinhardtii Dangeard (UTEX 90) cells exhibited biphasic NO₃^? uptake kinetics. The uptake pattern was similar in cells cultured in 10 mM NO₃^? (NO₃^?-grown), 0.25 mM NO₃^? (N-limited) or 10 mM NO₃^? followed by an 18-h period of N-deprivation (N-starved). In all cell types there was an apparent phase transition in uptake at 1.1 mM NO₃^?, although there were variations in the uptake V_max of both isotherms. The rate of uptake via isotherm 0 ([NO₃^?]<1.1 mM) in N-limited cells was higher than that of either NO₃^?-grown or N-starved cells. In contrast, NO₃^?-grown and N-limited cells exhibited comparable V_max values when supplied with 1.1 to 1.8 mM NO₃^? (isotherm 1). When supplied with 1.6 mM NO₃^?, both N-limited and N-starved cells exhibited enhanced linear uptake after 60 min of incubation. We ascribed this to an induction phenomenon. This trend was not observed when NO₃^?-grown cells were supplied with 1.6 mM NO₃^?, or when N-limited and N-starved cells were supplied with 0.6 mM NO₃^?. The ‘inducible’ aspect of uptake by N-limited cells was blocked by cycloheximide (10 mg l^?1), but not by actinomycin D (5 mg l^?1), thus indicating the involvement of a translational or post-translational event. To investigate this phenomenon further, we analysed the cell proteins of N-limited cells supplied with either 0.6 or 1.6 mM NO₃^? for 90 min, using two-dimensional gel electrophoresis. Comparison of protein profiles enabled the identification of a single cell membrane-associated polypeptide (21 kDa, pI ca 5.5) and ten soluble fraction polypeptides (17–73 kDa, pI ca 5.0 to 7.1) unique to the high NO₃^? treatment. We propose that the ‘inducible’ portion of NO₃^? uptake may provide the means by which C. reinhardtii cells regulate uptake in accordance with assimilatory capacity.     

PURIFICATION AND CHARACTERIZATION OF PHOSPHODIESTERASE I FROM Walterinnesia aegyptia VENOM

A phosphodiesterase I (EC 3.1.4.1; PDE-I) was purified from Walterinnesia aegyptia venom by preparative native polyacrylamide gel electrophoresis (PAGE). A single protein band was observed in analytical native PAGE and sodium dodecyl sulfate (SDS)-PAGE. PDE-I was a single-chain glycoprotein with an estimated molecular mass of 158 kD (SDS-PAGE). The enzyme was free of 5′-nucleotidase and alkaline phosphatase activities. The optimum pH and temperature were 9.0 and 60°C, respectively. The energy of activation (Ea) was 96.4, the V_max and K_m were 1.14 µM/min/mg and 1.9 × 10^?3 M, respectively, and the K_cat and K_sp were 7 s^?1 and 60 M ^?1 min^?1 respectively. Cysteine was a noncompetitive inhibitor, with K_i = 6.2 × 10^?3 M and an IC₅₀ of 2.6 mM, whereas adenosine diphosphate was a competitive inhibitor, with K_i = 0.8 × 10^?3 M and an IC₅₀ of 8.3 mM. Glutathione, o-phenanthroline, zinc, and ethylenediamine tetraacetic acid (EDTA) inhibited PDE-I activity whereas Mg²⁺ slightly potentiated the activity. PDE-I hydrolyzed thymidine-5′-monophosphate p-nitrophenyl ester most readily, whereas cyclic 3′-5′-AMP was least susceptible to hydrolysis. PDE-I was not lethal to mice at a dose of 4.0 mg/kg, ip, but had an anticoagulant effect on human plasma. These findings indicate that W. aegyptia PDE-I shares various characteristics with this enzyme from other snake venoms.     

Use of cadmium hydroxide gel for isolation of extracellular catalases from Penicillium piceum and characterization of purified enzymes

We optimized the conditions for isolation of extracellular catalases from Penicillium piceum F-648 and P. piceum A3 by means of volume chromatography with cadmium hydroxide gel. Our study showed that 55–57 mg wet gel are sufficient for the maximum sorption of catalase from 1 ml of culture fluid. This gel was formed in 1 ml 70 mM Cd(NO₃)₂ after addition of NaOH (Cd(NO₃)₂/NaOH molar ratio 1: 2.2). The eluting solution contained 50 mM NaH₂PO₄(pH 7.0), 5.0 mM dithiothreitol, and 0.3% sodium cholate and was potent in desorbing catalase from the gel. Subsequent ultrafiltration of the eluate on the membrane with a retention limit of 50 kDa allowed us to concentrate and purify the sample from low-molecular-weight protein impurities. NH₄Cl (1.0 M) containing 0.3% sodium cholate was used to wash the sample from low-molecular-weight aromatic metabolites. Purified catalases included 33–34% antiparallel β-structures and 9%-spirals. Under optimal conditions in the medium of 10 mM phosphate buffered saline (pH 7.0) at 30°C, catalases from P. piceum F-648 were characterized by the following parameters: K _M, 158.8 mM; catalytic constant, 2.83 × 10⁶ s^?1; enzyme inactivation rate constant in H₂O₂ decomposition, 3.5 × 10^?2 s^?1; and constant of the interaction between catalase complex I and second molecule of H₂O₂, 1.8 × 10⁷M^?1 s^?1.     

Characterization and Regulatory Properties of Glucose-6-Phosphate Dehydrogenase from Black Gram (Phaseolus mungo)

Glucose-6-phosphate dehydrogenase (E.C. 1.1.1.49) was partially purified by fractionation with ammonium sulfate and phosphocellulose chromatography. The K_m value for glucose-6-phosphate is 1.6 × 10^?4 and 6.3 × 10^?4M at low (1.0–6.0 × 10^?4M) and high (6.0–30.0 × 10^?4M) concentrations of the substrate, respectively. The K_m value for NADP⁺ is 1.4 × 10^?5M. The enzyme is inhibited by NADPH, 5-phosphoribosyl-1-pyrophosphate, and ATP, and it is activated by Mg²⁺, and Mn²⁺. In the presence of NADPH, the plot of activity vs. NADP⁺ concentration gave a sigmoidal curve. Inhibition of 5-phosphoribosyl-1-pyrophosphate and ATP is reversed by Mg²⁺ or a high pH. It is suggested that black gram glucose-6-phosphate dehydrogenase is a regulatory enzyme of the pentose phosphate pathway.     

Isolation of antibodies to steroid hormones by affinity chromatography on antigen-linked sepharose: An efficient electrophoretic elution procedure

An electrophoretic elution procedure of antibodies retained on affinity columns is described. It afforded a 60% recovery of the binding activity of a high affinity (Ka ～ 10¹⁰ M^?1) antiserum to 5α-dihydrotestosterone retained on antigen-linked Sepharose 4B affinity columns. These purified unbound antibodies, (Ka ～ 10¹⁰ M^?1) when applied again on identical antigen-linked affinity columns, were all retained and totally recovered after a new electrophoretic elution. Comparable results were obtained by elution with 1M NH₄OH.The residual 40% binding activity remaining on the antigen-linked Sepharose gel after electrophoretic elution was totally recovered by elution with an excess of 5α-dihydrotestosterone. It corresponded to antibodies of higher affinity (Ka ～ 10¹¹ M^?1). On the other hand the residual 40% fraction of antibodies resistant to NH₄OH elution was denaturated.     

Streptokinase-polyethylene glycol conjugates with increased stability and reduced side effects

Covalent SK-PEG2 and SK-PEG5 conjugates with various degrees of modification of the protein amino groups were obtained by variation of the duration of streptokinase (SK) incubation with activated polyethylene glycol (M 2 and 5 kDa, PEG2 and PEG5); their properties were studied in comparison with the properties of unmodified SK in vitro. SK-PEG2 and SK-PEG5 conjugates with the highest stability in plasma retaining 80% of initial fibrinolytic activity were formed at modification degrees of 54 and 52%, respectively. Interaction of the conjugates with equimolar plasminogen resulted in the formation of plasmin (Pm) activator complexes Pm·SK-PEG2 and Pm·SK-PEG5 with the maximum amidase activity being the same as that of Pm complex with native SK. Catalytic efficiency of plasminogen activation (k _Pg/K _Pg) was found to be slightly higher (2.84 min^?1 μM^?1) in case of Pm·SK-PEG2 complex and slightly lower, in case of the Pm·SK-PEG5 complex (1.17 min^?1 μM^?1), if compared to that of the unmodified complex Pm·SK (2.1 min^?1 μM^?1). Investigation of lysis kinetics of human plasma clot and depletion of plasminogen and fibrinogen plasma levels under the effect of equal doses of SK in free and conjugated forms demonstrated that SK-PEG2 and SK-PEG5 conjugates possess high thrombolytic activity (89 and 72% to the activity of free SK, respectively) and cause 3.5–4-fold lower side effects than free SK. The SK-PEG2 and SK-PEG5 conjugates with increased stability in plasma and reduced side effects may be used in therapy of thrombotic disorders.     

Evolution of 1, 3, 5-trisubstituted bipyrazole scaffold based platinum(II) complexes as a biological active agent

Abstract

Square planar mononuclear platinum(II) complexes having general formula [Pt(Lⁿ)Cl₂], (where, Lⁿ?=?L^1–4) were synthesized with neutral bidentate heterocyclic 1,3,5-trisubstituted bipyrazole based ligands. The synthesized compounds were characterized by physicochemical method such as TGA, molar conductance, micro-elemental analysis and magnetic moment, and spectroscopic method such as, FT-IR, UV–vis, ¹H NMR, ¹³C NMR and mass spectrometry. Biological applications of the compounds were carried out using in vitro brine shrimp lethality bioassay, in vitro antimicrobial study against five different pathogens, and cellular level cytotoxicity against Schizosaccharomyces pombe (S. Pombe) cells. Pt(II) complexes were tested for DNA interaction activities using electronic absorption titration, viscosity measurements study, fluorescence quenching technique and molecular docking assay. Binding constants (K_b) of ligands and complexes were observed in the range of 0.23–1.07?×?10⁵?M^?1 and 0.51–3.13?×?10⁵?M^?1, respectively. Pt(II) complexes (I–IV) display an excellent binding tendency to biomolecule (DNA) and possess comparatively high binding constant (K_b) values than the ligands. The DNA binding study indicate partial intercalative mode of binding in complex-DNA. The gel electrophoresis activity was carried out to examine DNA nuclease property of pUC19 plasmid DNA.     

Purification and characterization of laccase secreted by Phellinus linteus MTCC-1175 and its role in the selective oxidation of aromatic methyl group

A laccase from the culture filtrate of Phellinus linteus MTCC-1175 has been purified to homogeneity. The method involved concentration of the culture filtrate by ammonium sulphate precipitation and an anion exchange chromatography on DEAE-cellulose. The SDS-PAGE and native-PAGE gave single protein band indicating that the enzyme preparation was pure. The molecular mass of the enzyme determined from SDS-PAGE analysis was 70 kDa. Using 2.6-dimethoxyphenol, 2.2′[azino-bis-(3-ethylbonzthiazoline-6-sulphonic acid) diammonium salt] (ABTS) and 4-hydroxy-3,5-dimethoxybenzaldehyde azine as the substrates, the K _m, k _cat and k _cat/K _m values of the laccase were found to be 160 μM, 6.85 s^?1, 4.28 × 10⁴ M^?1 s^?1, 42 μM, 6.85 s^?1, 16.3 × 10⁴ M^?1 s^?1 and 92 μM, 6.85 s^?1, 7.44 × 10⁴ M^?1 s^?1, respectively. The pH and the temperature optima of the P. linteus MTCC-1175 laccase were 5.0 and 45°C, respectively. The activation energy for thermal denaturation of the enzyme was 38.20 kJ/mole/K. The enzyme was the most stable at pH 5.0 after 1 h reaction. In the presence of ABTS as the mediator, the enzyme transformed toluene, 3-nitrotoluene and 4-chlorotoluene to benzaldehyde, 3-nitrobenzaldehyde and 4-chlorobenzaldehyde, respectively.     

Cholinergic Dilatation and Constriction of Feline Cerebral Blood Vessels Are Mediated by Stimulation of Phosphoinositide Metabolism via Two Different Muscarinic Receptor Subtypes

Abstract: The muscarinic receptors involved in phosphoinositide (PI) hydrolysis have been pharmacologically characterized in cat cerebral blood vessels. Carbachol elicited a concentration-dependent increase in inositol phosphate accumulation [inositol monophosphate, bisphosphate, trisphosphate (IP₃) and tetrakisphosphate] in both major cerebral arteries and small pial vessels, which reached 140–280% of baseline at 10^?3M carbachol (referred to as maximal effect). However, the inositol phosphate accumulation response was found to be biphasic with a submaximal effect (30–50% of the maximal stimulation) obtained at low carbachol concentrations (<10^?5M). Endothelial denudation induced a virtual disappearance of the submaximal PI response without affecting that elicited by high concentrations of carbachol. The pharmacology of the two carbachol-induced PI responses was investigated by comparing the potency of selected muscarinic antagonists to block the IP₃ accumulation induced by 10^?7M (endothelium-dependent submaximal effect) and 10^?4M (endothelium-independent near-maximal effect) carbachol. In both major arteries and pial vessels, the activation of IP₃ production by 10^?4M carbachol was similarly inhibited by muscarinic antagonists with the following averaged rank order of potency (in -log IC₅₀): 4-diphenylacetoxy-N-methylpiperidine methiodide (4-DAMP; 8.65) > pirenzepine (8.28) > 6-chloro-5,10-dihydro-5-[(1-methyl-4-piperidinyl)acetyl]-11H-dibenzo[b,e][1,4]diazepine-11-one (UH-AH 371; 7.87) > 11-[[2-[(diethylamino)methyl]-1-piperidinyl]acetyl]-5,-11-dihydro-6H-pyridol[2,3-b][1,4]benzodiazepine-6-one (AF-DX 116; 6.62), a pharmacological profile compatible with an M₁ receptor subtype. In contrast, the submaximal stimulation of the PI metabolism elicited by 10^?7M carbachol in major arteries was blocked by the same antagonists with the following order of potency (in -log IC₅₀): 4-DAMP (8.38) > pirenzepine (7.25) > UH-AH 371 (6.25) > AF-DX 116 (5.72), which was reminiscent of an M₃ pharmacological profile. These findings indicate that stimulation of cerebrovascular muscarinic receptors is accompanied by PI hydrolysis via two distinct receptors, most probably the M₁ and M₃ subtypes that have been associated with constriction and dilatation, respectively, of cat cerebral arteries. Furthermore, these results provide strong evidence for an endothelial localization of the M₃ dilatatory receptors within the vessel wall.     

Metal complexes of cyclic diamines,dissociation kinetics of bis(1,5-diazacyclo-octane)nickel(II) in acidic and basic solution,and electrochemical studies

The preparation of the planar yellow [Ni([8]aneN₂)₂](ClO₄)₂ is described. The complex dissociates in basic solution, with rate = k_OH[NiL][OH^?] (L = 1,5-diazacyclo-octane). At 25 °C, k_OH = 4.5 x 10^?2 M^?1 s^?1 and the corresponding activation parameters are ΔH^≠ = 69.2 kJ mol^?1 and ΔS₂₉₈^≠ = ?38.6 J K^?1 mol^?1. Acid catalysed dissociation in quite slow even in strongly acidic solutions. The kinetic data in this case can be fitted to the expression K_obs = k_o + K_H[H⁺], where k_o relates to a solvolytic pathway and k_H to the acid catalysed pathway. At 60 °C, K_o = 2 x 10^?5 s^?1 and k_H is 2 x 10^?5 M^?1 s^?1. Possible mechanisms for these reactions are considered.The Ni(II)/Ni(III) redox couple for NiLⁿ⁺ is irreversible on Pt using MeCN as solvent.     

Cooxidation of phenol and 4-aminoantipyrin, catalyzed by polymers and copolymers of horseradish root peroxidase and Penicillium funiculosum 46.1 glucose oxidase

Polymers and copolymers of horseradish root peroxidase (HRP) and Penicillium funiculosum 46.1 glucose oxidase (GO) have been synthesized and their catalytic properties have been characterized (free and immobilized forms of each enzyme were studied). The cooxidation reaction of phenol and 4-aminoantipyrin (4-AAP), performed in an aqueous medium in the presence of equimolar amounts of GO and HRP, was characterized by effective K _M and k _cat of 0.58 mM and 20.9 s^?1 (for phenol), and 14.6 mM and 18.4 s^?1 (glucose), respectively. The catalytic efficiency of polymerization products (PPs) of GO (GO-PPs) depended on the extent of their aggregation. The combinations GO + HRP-PP and HRP + GO-PP, as well as the copolymer HRP*-GO-PP, proved promising as reagents for enzyme-based analytical systems. When adsorbed on aluminum hydroxide gels, GO-PPs exhibited higher catalytic activity than the non-polymeric enzyme. Maximum retention of GO-PP activity on the inorganic carrier was observed in the case of GO-PP copolymers with an activated HRP. Polymerization of HRP in the presence of a zinc hydroxide gel, paralleled by HRP-PP immobilization onto the gel, increased both the activity of the enzyme and its operational stability.     

Analysis of the electrophoretic properties of double-stranded DNA and RNA in agarose gels at a finite voltage gradient

The electrophoretic mobilities of double-stranded (ds) DNAs and ds RNAs of various lenths, L, were measured in gels of 0.4–1.8% (w/v) agarose at a voltage gradient of 1.0 V/cm. Differences in the electrophoresis of ds DNA and ds RNA are presented and discussed. A general expression is derived that describes the electrophoretic mobility, M, of either type of ds nucleic acid as a function of the gel concentration and the nucleic acid length: M = M′₁(L/L₀)^?x ? M₂, where M′₁ and L₀ are constants, and x and M₂ depend on the agarose gel concentration. The results obtained by fitting our data with this equation are consistent with the mobilities of nucleic acids in a wide range of gel concentrations, including free electrophoresis in solution and electrophoresis in gles of high agarose concentration in which nuleic acids are expected to reptate through the gel matrix. Finally, various methods of plotting agarose gel electrophoresis data are discussed.     

Biochemical characterization of aspartate aminotransferase allozymes from common wheat

Six allozymes of aspartate aminotransferase (AAT, EC 2.6.1.1): three plastidial (AAT-2 zone) and three cytosolic (AAT-3 zone) were isolated from common wheat (Triticum aestivum) seedlings and highly purified by a five-step purification procedure. The identity of the studied proteins was confirmed by mass spectrometry. The molecular weight of AAT allozymes determined by gel filtration was 72.4±3.6 kDa. The molecular weights of plastidial and cytosolic allozymes estimated by SDS-PAGE were 45.3 and 43.7 kDa, respectively. The apparent Michaelis constant (K _m) values determined for four substrates appeared to be very similar for each allozyme. The values of the turnover number (k _cat) and the k _cat/K _m ratio calculated for allozymes with L-aspartate as a leading substrate were in the range of 88.5–103.8 s^?1/10,412–10,795 s^?1 M^?1 for AAT-2 zone and 4.6–7.0 s^?1/527–700 s^?1 M^?1 for AAT-3 zone. These results clearly demonstrated much higher catalytic efficiency of AAT-2 allozymes. Therefore, partial sequences of cDNA encoding AATs from different zones were obtained using the RT-PCR technique. Comparison of the AAT-2 and AAT-3 amino acid sequences from active site regions revealed five non-conservative substitutions, which impact on the observed differences in the isozymes catalytic efficiency is discussed.     

Binding of imidazole and 2-methylimidazole by hemes in organic solvents. Evidence for five-coordination

By means of absorption spectroscopy we show that in benzene solutions, only one molecule of 2-methylimidazole is bound with a great affinity by deuteroheme (K = 1.25 10⁴ M^?1) and mesotetraphenylheme (K = 2.4 10⁴ M^?1). Besides, two overlapping steps may be distinguished when hemes bind imidazole molecules. The equilibrium constants are K₁ = 4.5 10³ M^?1 and 8.8 10³ M^?1, K₂ = 6.8 10⁴ M^?1 and 7.9 10⁴ M^?1 for deuteroheme and mesotetraphenylheme respectively.     

Thiolysis of O-2,4-dinitrophenyltyrosines. Spectrophotometric monitoring of the reaction and its use in peptide synthesis.

The thiolytic cleavage of O-2,4-dinitrophenyl (Dnp) derivatives of phenols was applied to the synthesis of tyrosine-containing peptides. This paper describes the preparation and properties of starting materials for such syntheses and illustrates their use in the synthesis of some peptides containing tyrosine at either the C- or N-terminus. A spectrophotometric method for following the thiolytic removal of Dnp groups from O-Dnp-tyrosines was developed and used to establish optimal conditions for quantitative deblockage in aqueous and nonaqueous solvents. The method is based on the fact that upon thiolysis, the colorless solution of O-Dnp-tyrosine (λ_max at 298 nm, pH 8.5) becomes yellow due to the formation of a dinitrophenylated thiol (for S-Dnp-2-mercaptoethanol, λmax at 340 nm, pH 8.5). This gives rise to a difference spectrum with a maximum at 354 nm (Δ?_M = + 8680 M^?1 cm^?1), a minimum at 298 nm (Δ?_M = ?5900 M^?1 cm^?1) and a crossover point at 318 nm, which is different (in the 290–320 nm range) from the difference spectrum obtained upon thiolysis of N^Im-Dnp-histidine. This method provides a useful analytical tool in peptide and polypeptide synthesis as well as in protein chemistry.     

On the Interaction of Anisyl-3,4-Semiquinone with Oxygen

Pulse radiolysis studies of anisyl-3,4-semiquinone, formed in the metabolic activation of 4-hydroxyanisole, a possible melanocytotoxic drug under current assessment as a treatment for malignant melanoma, have shown this semiquinone to be unreactive towards oxygen (k ≤ 10⁵ M^-1 s^-1), although the reverse reaction of O₂^?_? with anisyl-3,4-quinone is very rapid (k = 8.7 × 10⁸M^-1s^-1). Since 1,4 benzoquinone is also unreactive towards anisyl-3,4-serniquinone (k ≤ 10⁵M^-1s^-1), the one-electron reduction potential, E1/7 (anisyl-3,4-quinone/anisyl-3,4-semiquinone), is likely to be considerably more positive than 0.1V. This suggests that the cytotoxicity mechanism does not involve the generation of O₂^?_? and possible subsequent production of H₂O₂ and/or OH·, leading to lipid peroxidation, as previously proposed, but rather involves as yet unknown reactions of anisyl-3,4-quinone. This quinone is unstable in water and its absorption spectrum was measured immediately (< 0.1s) following disproportionation of anisyl-3,4-semiquinone, before significant decay of the quinone had occurred.     

Evaluation of the Antioxidant Actions of Ferulic Acid and Catechins

We have evaluated the abilities of ferulic acid, (±) catechin, (+) catechin and (-) epicatechin to scavenge the reactive oxygen species hydroxyl radical (OH±), hypochlorous acid (HOCl) and peroxyl radicals (RO₂).

Ferulic acid tested at concentrations up to 5 mM inhibited the peroxidation of phospholipid liposomes. Both (±) and (+) catechin and (-) epicatechin were much more effective. All the compounds tested reacted with trichloromethyl peroxyl radical (CCl₃O₂) with rate constants > 1 × 10⁶M^?1s^?1.

A mixture of FeCl₃-EDTA, hydrogen peroxide (H₂O₂) and ascorbic acid at pH 7.4, has often been used to generate hydroxyl radicals (OH.) which are detected by their ability to cause damage to the sugar deoxyribose. Ferulic acid, (+) and (±) catechin and (-) epicatechin inhibited deoxyribose damage by reacting with OH. with rate constants of 4.5 × 10⁹M^?1s^?1, 3.65 × 10⁹M^?1s^?1, 2.36 × 10⁹M^?1s^?1 and 2.84 × 10⁹M^?1s^?1 respectively. (-) Epicatechin, ferulic acid and the (+) and (±) catechins exerted pro-oxidant action, accelerating damage to DNA in the presence of a bleomycin-iron complex. On a molar basis, ferulic acid was less effective in causing damage to DNA compared with the catechins.

A mixture of hypoxanthine and xanthine oxidase generates O₂ which reduces cytochrome c to ferrocytochrome c. (+) Catechin and (-) epicatechin inhibited the reduction of cytochrome c in a concentration dependent manner. Ferulic acid and (±) catechin had only weak effects.

All the compounds tested were able to scavenge hypochlorous acid at a rate sufficient to protect alpha-1-antiproteinase against inactivation. Our results show that catechins and ferulic acid possess antioxidant properties. This may become important given the current search for “natural” replacements for synthetic antioxidant food additives.     

Substance P-Evoked Calcium Mobilization and Ionic Current Activation in the Human Astrocytoma Cell Line U 373 MG: Pharmacological Characterization

Abstract— In the human astrocytoma cell line U 373 MG, application of substance P (SP) leads to a transient increase in cytosolic calcium concentration and to a biphasic current response in voltage-clamped cells. Using these two functional assays we have characterized pharmacologically the SP response in U 373 MG cells. SP and [l -Pro⁹]SP displayed high potencies in both assays with EC₅₀values of 2.5 ± 10^?9M and 1 ± 10^?9M on calcium responses and 110^?9M and 510^?9M on ion current responses, respectively. The high potency of SP and [l -Pro⁹]SP as well as the low potency of [Lys⁵,MeLeu⁹,N-Leu¹⁰]neurokinin A_(4-10) and the inactivity of senktide demonstrate the NK₁-type pharmacology of these responses. Furthermore, the NK₁ antagonists (±)-CP 96,345, its chloro analogue, (±)-cis-3-(2-chlorobenzylamino)-2-benz-hydrylquinuclidine, and RP 67580 were potent antagonists of both SP responses. For the calcium mobilization induced by SP (1 (10^?7M), the IC₅₀ values for the three antagonists were 4 ± 10^?10M, 4 ± 10^?9M, and 9 ± 10^?9M, respectively, whereas on the current response evoked by SP 10^?8M), the IC₅₀ values were 8 ± 10^?9M, 2.4 ± 10^?8M, and 1.2 10^?7M, respectively. Despite differences in the absolute IC₅₀ values obtained with both techniques, the relative potencies of the three antagonists correlate fairly well. The U 373 MG cell line provides a useful model system for studies of the pharmacology of the human NK₁receptor and its transduction mechanisms at the level of second messengers and modulation of ion currents.     

Physicochemical properties of (1 → 6)-branched (1 → 3)-β-D-glucans. 1. Physical dimensions estimated from hydrodynamic and electron microscopic data

The physical dimensions of several (1 → 6) branched (1 → 3) -β-D -glucan samples obtained from different organisms and their derivatives have been studied by electron microscopy, light scattering measurements, viscometry, and gel permeation chromatography. The electron micrographs indicate that in most samples these biopolymers are adequately described as linear worm-like coils. A sample reconstituted from alkaline media appeared as a blend of the linear, circular, and aggregated polymer morphologies. The average mass per unit length, M_L = M_w/L_w for the macroscopically linear samples, was estimated to be 2100 ± 200 g mol^?1 nm^?1. The parameter m_L was determined from the contour lengths obtained by electron microscopy and the molecular weight by light scattering measurements. The observed M_L was consistent with the triple-helical structure reported from x-ray diffraction studies and observed degree of side-chain substitution. From the molecular snapshots shown in the electron micrographs, the persistence lengths of these β-D -glucans were determined to be 140 ± 30 nm. The experimentally determined intrinsic viscosities were consistent with these estimates of M_L and persistence length. Comparison of the molecular weight distributions obtained from gel permeation chromatography and those deduced from the electron micrographs indicates that number and weight average contour lengths are more reliable than z and z + 1 averages. © 1993 John Wiley & Sons, Inc.     

Kinetics of nucleotide binding to chloroplast coupling factor (CF1)

Studies of the kinetics of association and dissociation of the formycin nucleotides FTP and FDP with CF₁ were carried out using the enhancement of formycin fluorescence. The protein used, derived from lettuce chloroplasts by chloroform induced release, contains only 4 types of subunit and has a molecular weight of 280 000.In the presence of 1.25 mM MgCl₂, 1 mol of ATP or FTP is bound to the latent enzyme, with K_d = 10^?7 or 2 · 10^?7, respectively. The fluorescence emission (λ_max 340 nm) of FTP is enhanced 3-fold upon binding, and polarization of fluorescence is markedly increased. The fluorescence changes have been used to follow FTP binding, which behaves as a bimolecular process with K₁ = 2.4 · 10⁴ M^?1 · s^?1. FTP is displaced by ATP in a process apparently involving unimolecular dissociation of FTP with k_?1 = 3 · 10^?3 s^?1. The ratio of rates is comparable to the equilibrium constant and no additional steps have been observed.The protein has 3 sites for ADP binding. Rates of ADP binding are similar in magnitude to those for FTP. ADP and ATP sites are at least partly competitive with one another.The kinetics of nucleotide binding are strikingly altered upon activation of the protein as an ATPase. The rate of FTP binding increases to at least 10⁶ M^?1 · s^?1. This suggests that activation involves lowering of the kinetic barriers to substrate and product binding-dissociation and has implications for the mechanism of energy transduction in photophosphorylation.