Zeta-crystallin displays strong selectivity for salicylic acid over aspirin

Interaction of camel lens zeta-crystallin with aspirin was investigated by activity and fluorescence measurements. Aspirin minimally inhibited the oxidoreductase activity of the enzyme and weakly quenched its fluorescence. However, significant fluorescence quenching of zeta-crystallin coincided with the appearance of a fluorescence signal characteristic of salicylic acid thereby raising the possibility that salicylic acid might have been the moiety responsible for inhibition and fluorescence quenching. Direct fluorescence measurements showed that zeta-crystallin had a much higher affinity for salicylic acid than aspirin (K(i) of about 24 microM for salicylic acid versus 630 microM for aspirin). Salicylic acid was also far more effective in inhibiting zeta-crystallin than aspirin (K(i) values were 23 microM versus 820 microM, respectively). Inhibition kinetics suggested that salicylic acid interacted with zeta-crystallin via a binding site that was distinct from that of NADPH. Salicylic acid also interacted with and quenched the fluorescence of camel lens alpha-crystallin suggesting a general mode of interaction with lens proteins. Within the normal therapeutic concentrations of salicylic acid or aspirin, only crystallin-salicylic acid interactions might be significant. These results showed that camel lens zeta- and alpha-crystallin exhibited remarkable selectivity for salicylic acid over aspirin, and thus, could be considered as salicylate-binding proteins.     

Detection of acid-beta-galactosidase activity in viable human fibroblasts by flow cytometry

The fluorogenic substrate fluorescein-di-beta-D-galactopyranoside was used to detect acid beta-galactosidase in intact cultured human fibroblasts. The accumulation of intracellular fluorescein, as measured by flow cytophotometry was linear with the incubation time in three control strains. The two fibroblast strains from patients with acid beta-galactosidase deficiency did not show an accumulation of intracellular fluorescence. Within one control cell population there was a positive correlation between the amount of accumulated intracellular fluorescein fluorescence and the specific acid beta-galactosidase activity as measured biochemically on sorted cells from different zones of the fluorescence distribution. No correlation was found between the specific acid beta-galactosidase activity and the fluorescein fluorescence of three different control cell strains.     

Physical properties of murine fibroblasts with altered acyl chain unsaturation.

Murine fibroblasts, LM cells, were cultured in suspension with laurate (12:0), myristate (14:0), palmitate (16:0), palmitoleate (16:1), or palmitate + palmitoleate (16:0 + 16:1) bound to fatty acid-free bovine serum albumin. Supplementation with saturated fatty acids decreased the ratio of unsaturated/saturated fatty acids in membrane phospholipids as much as 3.4-fold (palmitate-enriched cells). Concomitantly fluorescence polarization, absorption-corrected fluorescence, and relative fluorescence efficiency of the fluorescence probe molecule, β-parinaric acid, increased 1.5-, 2.9-, and 1.8-fold, respectively, in the membrane phospholipids. Unsaturated fatty acid (palmitoleate) increased the unsaturated/saturated fatty acid ratio by 20% but did not significantly alter the fluorescence parameters. When the cells were fed mixtures of palmitate and palmitoleate, the unsaturated/saturated fatty acid ratio of the membrane phospholipids and the above fluorescence parameters had values intermediate between those if each fatty acid had been fed separately. All fatty acid supplements caused a loss of two characteristic temperatures in Arrhenius plots of relative fluorescence efficiency. However, no shifts or appearance of new characteristic temperatures occurred. The break points at approximately 42, 37, and 22 °C were essentially un-altered. The data were consistent with the possibility that LM cells were unable to maintain constant fluidity, as indicated by fluorescence polarization, when supplemented with different fatty acids. A good correlation could be made between the phospholipid unsaturated/ saturated fatty ratio, the fluorescence polarization, and the toxicity elicited by different fatty acid supplements.     

The fluorescence of indoles and aniline derivatives

1. The variations in the excitation and fluorescence wavelengths and fluorescence intensities of a number of indole and aniline derivatives over a wide range of acidity and alkalinity (36n-sulphuric acid to 10n-potassium hydroxide) have been studied. 2. The changes in fluorescence with pH of the indoles and anilines had many characteristics in common, and the most fluorescent species were found to be the non-ionized or neutral forms showing fluorescence maxima at about lambda 350mmu. 3. In 10n-potassium hydroxide most of the compounds examined, except those containing a tertiary nitrogen atom, showed a bathochromic shift in fluorescence wavelength attributable to an anion due to a negatively charged nitrogen, but in strong acid (3n-sulphuric acid) these compounds were non-fluorescent, except the anisidines and the 5-hydroxyindoles. 4. p-Anisidine but not the o- and m-isomers showed excited-state ionization in acid solution. 5. Of the hydroxyindoles only the 5-hydroxy derivatives showed a fluorescence (lambda(max.) 520-540mmu) in acid solution. It is suggested that this fluorescence is due to a proton-transfer reaction in the excited state, and various arguments for this suggestion are given. 6. Stokes shifts for the various ionic and neutral species of the indoles and anilines have been calculated, and the large shifts found with indole and p-anisidine may be due to solvent-solute interaction.     

Fluorescence modulation of 1,7‐bis(4‐hydroxy‐3‐methoxyphenyl)‐1,6‐heptadiene‐3,5‐dione by silver nanoparticles and its possible analytical application

The effects of silver nanoparticles on the photophysical properties of 1,7‐bis(4‐hydroxy‐3‐methoxyphenyl)‐1,6‐heptadiene‐3,5‐dione, popularly known as curcumin, have been investigated using optical absorption and fluorescence techniques. Although absorption spectroscopy suggests a ground‐state complex formation, fluorescence quenching data confirms a simultaneous static and dynamic quenching, inferring ground as well as excited‐state complex formation. The recovery of fluorescence quenching of the curcumin–silver nanoparticle complex in the presence of ascorbic acid or uric acid emphasizes a strong interaction between the silver nanoparticles and ascorbic acid/uric acid, suggesting that fluorescence recovery after the quenching of curcumin–silver nanoparticle complexes has potential for ascorbic acid or uric acid assay development. Copyright © 2011 John Wiley & Sons, Ltd.     

2-hydroxystilbamidine isethionate: a new fluorochrome for use in general pathology. I. The selective staining of DNA, mucosubstances and elastic fibres

2 mg of 2-Hydroxystilbamidine isethionate when dissolved in 50 ml 0.1 M citric acid produced nuclear fluorescence in paraffin sections. Pre-hydrolysis in 5N HCl at room temperature increased selectivity of nuclear fluorescence. The addition of 100-200 mg sodium metabisulphite to the fluorochrome solution and preoxidation in periodic acid produced selective fluorescence of mucosubstances. Pre-oxidation with potassium permanganate induced selective fluorescence of elastic fibres. Yellow nuclear fluorescence contrasted clearly with blue/white fluorescence of mucosubstances and elastic fibres when excited with UV light. Unwanted nuclear fluorescence was quenched with 5% iron alum solution. Mast cells selectively fluoresced in acid alcoholic solutions of the fluorochrome. The procedures described were simple and rapid and produced permanent fluorescent preparations. The metachromatic fluorescence of nuclei in contrast to that of mucosubstances and elastic fibres eliminated the need for counterstaining.     

The reaction of DNA with lipid oxidation products, metals and reducing agents

The interaction of lipid hydroperoxides and secondary oxidation products with DNA was investigated by evaluating the fluorescence formed in the presence of metals and reducing agents. We also investigated the effect of malonaldehyde, because it has been generally considered responsible for the formation of fluorescence with DNA. However, malonaldehyde usually has been estimated by the notoriously unspecific thiobarbituric acid test. At low concentration of oxidation products (1 mM), fluorescence formation required the presence of metals and ascorbic acid. In contrast, a positive thiobarbituric acid reaction was obtained with many lipid oxidation products without metals or ascorbic acid. Monohydroperoxides from autoxidized methyl linoleate and linolenate produced the highest level of fluorescence. Hydroperoxy epidioxides of linolenate and dihydroperoxides of linoleate and linolenate were among the most active secondary products in forming fluorescence with DNA. In contrast, malonaldehyde produced very little fluorescence under our conditions. The thiobarbituric acid values did not correlate with fluorescence formation. This study showed that, in our model reaction system, DNA forms fluorescent products by the breakdown of lipid oxidation products in the presence of metals and ascorbic acid into reactive materials other than malonaldehyde. Therefore, the importance of malonaldehyde in its crosslinking properties with DNA may have been exaggerated in the literature.     

Relative fluorescence of normal and acid lipase-deficient cultured fibroblasts following administration of pyrene decanoic acid

Skin fibroblasts, derived from normal individuals or patients with Wolman's disease (an autosomal recessive disorder due to acid lysosomal lipase deficiency) were incubated with the fluorescent fatty acid, pyrene-decanoic acid (P10). Measurements of the fluorescence intensities of the total lipid extracts indicated that equal quantities of P10 were incorporated into both cell types. The fluorescence emitted by the intact cells was subsequently recorded in a fluorescence microscope equipped with a microdetector unit, which permitted determination of the fluorescence emitted by the intact cell or by specific regions thereof. The fluorescence intensities emitted by the lipidotic cells exceeded those of their normal counterparts 2- and 5-fold when comparing the entire cells or the perinuclear region, respectively. The cells were then subjected to subcellular fractionation and an analysis of the fractions revealed that up to 85-90% of the fluorescence of the lysosome-mitochondrial pellet was derived from free pyrenedecanoic acid; the latter contributed only 15-18% to the fluorescence of the homogenate or the cytosol. There was no difference in the fluorescence of the lipid extracts from the respective fractions of the lipidotic or normal cells. However, the fluorescence emitted by the intact lysosome-mitochondrial fraction of the lipidotic cells exceeded that of its normal counterpart 2.5-fold. These data suggest that the increased fluorescence intensity of the intact lipidotic cells resulted from a higher quantum yield of free P10 molecules solubilized in the hydrophobic environment of their neutral lipid-containing storage granules.     

Fatty acid-enhanced binding of flavin mononucleotide to bacterial luciferase measured by steady-state fluorescence.

Bacterial luciferase catalyzes the oxidation of reduced flavin mononucleotide and tetradecanal resulting in the emission of light. We have investigated the interactions of a recombinant luciferase from a terrestrial bacterium Xenorhabdus luminescens with the reaction products, FMN and myristic acid, using steady-state fluorescence spectroscopy. Quenching of the intrinsic fluorescence and FMN fluorescence on binding of FMN to luciferase was found to be greatly stimulated in the presence of myristic acid, corresponding to a reduction of more than 30-fold in the FMN dissociation constant of the enzyme. In addition, the FMN-luciferase complex exhibits distinct fatty acid-dependent fluorescence properties. These results indicate that luciferase forms a ternary complex with FMN and myristic acid with a significantly different conformation from that of the binary FMN-luciferase complex.     

Visualization of dynamics of plant-pathogen interaction by novel combination of chlorophyll fluorescence imaging and statistical analysis: differential effects of virulent and avirulent strains of P. syringae and of oxylipins on A. thaliana

Pathogen infection leads to defence induction as well as to changes in carbohydrate metabolism of plants. Salicylic acid and oxylipins are involved in the induction of defence, but it is not known if these signalling molecules also mediate changes in carbohydrate metabolism. In this study, the effect of application of salicylic acid and the oxylipins 12-oxo-phytodienoic acid (OPDA) and jasmonic acid on photosynthesis was investigated by kinetic chlorophyll fluorescence imaging and compared with the effects of infection by virulent and avirulent strains of Pseudomonas syringae. Both pathogen strains and OPDA caused a similar change in fluorescence parameters of leaves of Arabidopsis thaliana. The response to OPDA appeared faster compared with that to the pathogens and persisted only for a short time. Infiltration with jasmonic acid or salicylic acid did not lead to a localized and distinct fluorescence response of the plant. To capture the faint early symptoms of the plant response, a novel algorithm was applied identifying the unique fluorescence signature-the set of images that, when combined, yield the highest contrast between control and infected leaf segments. Unlike conventional fluorescence parameters, this non-biased approach indeed detected the infection as early as 6 h after inoculation with bacteria. It was posssible to identify distinct fluorescence signatures characterizing the early and late phases of the infection. Fluorescence signatures of both infection phases were found in leaves infiltrated with OPDA.     

2-Hydroxystilbamidine isethionate: A new fluorochrome for use in general pathology

Summary 2 mg of 2-Hydroxystilbamidine isethionate when dissolved in 50 ml 0.1 M citric acid produced nuclear fluorescence in paraffin sections. Pre-hydrolysis in 5N HCl at room temperature increased selectivity of nuclear fluorescence. The addition of 100–200 mg sodium metabisulphite to the fluorochrome solution and preoxidation in periodic acid produced selective fluorescence of mucosubstances. Pre-oxidation with potassium permanganate induced selective fluorescence of elastic fibres. Yellow nuclear fluorescence contrasted clearly with blue/white fluorescence of mucosubstances and elastic fibres when excited with UV light. Unwanted nuclear fluorescence was quenched with 5% iron alum solution. Mast cells selectively fluoresced in acid alcoholic solutions of the fluorochrome. The procedures described were simple and rapid and produced permanent fluorescent preparations. The metachromatic fluorescence of nuclei in contrast to that of mucosubstances and elastic fibres eliminated the need for counterstaining.     

Multiple effects of linolenic acid addition to pea thylakoids

The addition of linolenic acid to thylakoids produces various pH-dependent effects. We have demonstrated a binding site near the Photosystem (PS) II center with a pK_a of 6.5: when linolenic acid is unprotonated it induces in the dark a rise of the initial fluorescence level, the latter being similar to the maximum fluorescence obtained during illumination of untreated thylakoids. The comparison of the fluorescence lifetimes in the presence and absence of linolenic acid leads us to conclude that the charge stabilisation on the primary acceptor, Q, is prevented by linolenic acid. A second binding site on the protein carrying B, the secondary acceptor of PS II, has also been demonstrated for linolenic acid. It has a 3-(3,4-dichlorophenyl)-1,1-dimethylurea-type effect both in the protonated and unprotonated forms. Finally, measurements of electrophoretic mobility of the thylakoids indicate several other sites of linolenic acid inclusion with an average pK_a of 5.7. At alkaline pH the presence of unprotonated linolenic acid increases the charge density on the membrane. As a result a higher concentration of divalent cations is needed to obtain fluorescence and stacking changes than for untreated thylakoids. The presence, at acidic pH values, of the unprotonated form of linolenic acid leads to the inhibition of cation-induced fluorescence changes, probably by preventing the movement of chlorophyll-protein complexes in the membrane.     

A microcomputer-based image analysis system and applications to chlorophyll fluorescence studies

An IBM-PC based software system to quantify images of biological sytems is presented. To illustrate the potential of the imaging system described, UV light-induced chlorophyll fluorescence of Chlorella vulgaris cells was monitored using a video camera interfaced to a microscope. The photoinhibitor, DCMU (30 μM) inhibited the UV-induced fluorescence decay in heterotrophically grown cells but not in autotrophically grown cells. Algal cells were also incubated in various concentrations of ascorbic acid (500, 250, 100, 50, 10 and 0 mM) prior to UV light exposure. In the presence of 500, 250 and 100 mM ascorbic acid, the decay of chlorophyll fluorescence was significantly delayed in both heterotrophically and autotrophically grown cells. Heterotrophically grown cells were more sensitive to ascorbic acid than autotrophically grown cells since 10 nM ascorbic acid delayed fluorescence decay in heterotrophic cultures.     

Interaction of an organic selenium compound with human serum albumin

The interaction between 4,4'-diselenadibenzoic acid and human serum albumin (HSA) was investigated by fluorescence and absorption spectroscopy. The quenching mechanism of fluorescence of HSA by 4,4'-diselenadibenzoic acid was discussed. It is proved that the fluorescence quenching of HSA by 4,4'-diselenadibenzoic acid is a result of the formation of the HSA-4,4'-diselenadibenzoic acid complex. The binding sites number n, apparent corporation constant K, and corresponding thermodynamic parameters, deltaH(theta), deltaG(theta), and deltaS(theta) were calculated. Results indicate that the electrostatic interactions forces played major role in the reaction.     

Use of actinomycin D for the specific quenching of fluorescence of deoxyribonucleic acid in cells stained with acridine aminoderivatives.

Actinomycin D specifically quenches the fluorescence of acridine orange and quinacrine bound to deoxyribonucleic acid in cytologic preparations, but does not change the fluorescence of these fluorochromes bound to RNA. The following fluorescence-cytochemical applications of techniques based on these findings can be suggested: (a) distinction between deoxyribonucleic acid and ribonucleic acid; (b) detection of double-stranded virus ribonucleic acid; (c) approximate estimation of the lengths of A-T sequences in deoxyribonucleic acid molecules.     

The interaction of 1-anilino-8-naphthalenesulfonate with the membranes of the sarcoplasmic reticulum and various lipid compounds

Summary (1) The enzymatic removal of lipids from the vesicular membranes of the sarcoplasmic reticulum does not interfere with the fluorescence of the 1-anilino-8-naphthalenesulfonate (ANS) vesicular complex. (2) The fluorescence intensity of the ANS vesicular complex is considerably (50%) reduced by oleic acid (0.5mm) because it displaces ANS from its binding sites. (3) Stearic acid, which also combines with the membranes, interferes neither with ANS binding nor with ANS fluorescence. (4) Of all lipid compounds tested, oleylamine produces the most pronounced fluorescence enhancement of ANS. (5) The complexes formed between oleic acid and cetyltrimethyl ammonium salts or between oleic acid and polylysine produce a much higher fluorescence enhancement than the isolated components. (6) Low concentrations of ether added to ANS-containing vesicular suspensions reduce their fluorescence intensity. It returns to the initial intensity when the ether is removed. (7) A small cyclic change of the fluorescence of the vesicular ANS complex takes place during active calcium uptake.     

Endothelial connexin43 mediates acid-induced increases in pulmonary microvascular permeability

Acid aspiration, a common cause of acute lung injury, leads to alveolar edema. Increase in lung vascular permeability underlies this pathology. To define mechanisms, isolated rat lungs were perfused with autologous blood. Hydrochloric acid and rhodamine-dextran 70 kDa (RDx70) were coinstilled into an alveolus by micropuncture. RDx70 fluorescence was used to establish the spatial distribution of acid. Subsequently, FITC-dextran 20 kDa (FDx20) was infused into microvessels for 60 min followed by a 10-min HEPES-buffered saline wash. During the infusion, FITC fluorescence changes were recorded to quantify the ratio of peak to postwash fluorescence. The ratio, termed normalized fluorescence, was low for acid compared with buffer instillation both in microvessels abutting acid-treated alveoli and those located more than 700 μm away. In contrast, the normalized fluorescence was similar to buffer controls when a higher molecular weight tracer (FITC-dextran 70 kDa) was infused instead of FDx20, suggesting that normalized FDx20 fluorescence faithfully represented microvascular permeability. Inhibiting endothelial connexin43 (Cx43) gap junction communication with Gap27 blunted the acid-induced reduction in normalized fluorescence, although scrambled Gap27 did not have any effect. The blunting was evident not only in microvessels away from the site of injury, but also in those abutting directly injured alveoli. Thus the new fluorescence-based method reveals that acid increases microvascular permeability both at acid-instilled and away sites. Inhibiting endothelial Cx43 blocked the permeability increase even at the direct injury sites. These data indicate for the first time that Cx43-dependent mechanisms mediate acid-induced increases in microvascular permeability. Cx43 may be a therapeutic target in acid injury.     

模拟酸雨对龙眼叶片气体交换和叶绿素a荧光参数的影响（英文）

 研究了模拟酸雨对龙眼(Dimorcarpus longana)叶片气体交换和叶绿素a荧光参数的影响,结果表明：酸雨胁迫抑制龙眼光合作用,受胁迫叶片光补偿点上升。pH 3.0的酸雨处理6 h后叶片气体交换和叶绿素a荧光参数下降,停止处理后72 h可以恢复。pH 2.5的酸雨处理6 h后净光合速率（Pn）、气孔导度(Cs)、蒸腾速率（Tr）,叶绿素a荧光参数Fv/Fo、Fv/Fm、PSII非环式电子传递的量子产量（ΦPSⅡ）、荧光下降比值（Rfd）、非光化学猝灭系数（qN）和光化学猝灭系数（qP）急剧下降,停     

Flow cytometric measurement of lipid peroxidation in vital cells using parinaric acid.

A method for measuring lipid peroxidation using time resolved flow cytometry is described. Because of its chemical nature, the naturally fluorescent fatty acid cis-parinaric acid is readily consumed in lipid peroxidation reactions. It could be loaded into Chinese hamster ovary cells in a time and concentration dependent manner at 37 degrees C, with 5 microM for 60' giving consistent, bright fluorescence without evidence of cytotoxicity. Examination of cells by fluorescence microscopy showed diffuse staining of surface and internal membranes. Cells were maintained at 37 degrees C while being examined in an Epics Elite flow cytometer equipped with a 325 nm HeCd laser, and parinaric acid fluorescence at 405 nm was measured over time. Addition of the oxidant tert-butyl hydroperoxide resulted in a burst of intracellular oxidation, shown by simultaneously loading the cells with dichlorofluorescein, and loss of parinaric fluorescence over time. This was followed by cell death, indicated by loss of forward light scatter and uptake of propidium iodide. Pretreatment of the cells with the antioxidant alpha-tocopherol, 200 microM, reduced the rate of loss of parinaric acid fluorescence and delayed the onset of cell death. Simultaneous biochemical determination of the lipid peroxidation breakdown product malondialdehyde confirmed a close temporal relationship with loss of parinaric acid fluorescence, both with and without alpha-tocopherol pretreatment and suggested that the flow cytometric assay for lipid peroxidation is of comparable sensitivity. The mitochondrial stain dodecyl acridine orange and the cyanine dye DiOC(6)3 were combined with cis-parinaric acid staining and could be excited by the latter using resonance energy transfer.(ABSTRACT TRUNCATED AT 250 WORDS)     

Response of Substituted Indoleacetic Acids in the Indolo-α-pyrone Fluorescence Determination

The method of indolo-α-pyrone fluorescence-determination of indoleacetic acid was investigated to study possible interference from 4-chloro-indoleacetic acid and 5-hydroxyindoleacetic acid, which occur naturally. Both compounds show about 40% of the fluorescence of indoleacetic acid after conversion into their a-pyrones. Other halogenated indoleacetic acids show between zero and 60% of the fluorescence of indoleacetic acid. It is concluded that the concentration of indoleacetic acid cannot be determined in crude extracts in the presence of 4-chloro- or 5-hydroxy-indoleacetic acid, because separate determinations of each of these compounds are not possible by changing the excitation or fluorescence wave-lengths of the testing equipment.