Studies on rheomelanins. V. Hemolysis associated with the transformation of catechol into rheomelanin in human blood.

Incubation of 2 mg amounts of catechol in 5 ml samples of heparinated blood plasma from four subjects at 38 degrees C for 24 h produced plasma-soluble rheomelanins. These solutions had the brown color and the yellow-green fluorescence in ultraviolet light of 366 nm of other rheomelanins. Their differential ultraviolet and visible spectra showed a rheomelanin absorption maximum at 344 nm. Paper chromatograms of the rheomelanin-plasma solutions in 5% methanol-95% water showed elongated spots of rheomelanins with RF values of 0.82, on Whatman No. 1 paper. Using heparinated distilled water adjusted to pH 7.4 with sodium bicarbonate instead of human blood plasma gave markedly different findings from those obtained with the plasma rheomelanin solutions. Incubation of 4 mg amounts of catechol in 10 ml samples of heparinated whole blood from four subjects for 24, 32 and 48 at 38 degrees C produced rheomelanins as found in the plasma separated from the blood after incubation. The differential ultraviolet and visible spectra of these solutions revealed hemolysis caused by the catechol rheomelanins; this was more marked with longer incubations. The hemolysis was manifested by two absorption peaks at about 270 and 400 nm. Paper chromatography revealed the brown elongated spots of catechol rheomelanins with an RF value of 0.82. Other spots owing to the products of hemolysis were also present.     

Isolation of melanin from human plasma lipofuscin

Human plasma lipofuscin and its melanin component were isolated and quantified. Electron paramagnetic resonance, infrared, ultraviolet and visible spectra of this melanin exhibited absorption characteristics very similar to those of known melanins. The human plasma lipofuscin contained approximately 85% protein, 3% melanin, 0.4% lipid and 0.25% mucoprotein constituents and emitted yellow-green fluorescence in 366-nm light. The ethanol-ether lipid extract obtained after acid hydrolysis from the lipid-melanin fraction of this lipofuscin was also found to fluoresce in yellow-green color in 366-nm light and produced similar fluorescence excitation and emission spectra as those of the human plasma lipofuscin in water solution. The isolated melanin component was not fluorescent.     

High-performance liquid chromatographic determination of urinary catecholamines by pre-column solid-phase dansylation on alumina

Sensitive and selective high-performance liquid chromatographic determination of catecholamines by pre-column solid-phase dansylation is described. After catecholamines are adsorbed on alumina, the amino groups not responsible for adsorption are dansylated by a solid-phase reaction. The excess reagent and fluorescent contaminants are washed out, and the dansylated catecholamines are eluted and separated by reversed-phase high-performance liquid chromatography. The four catecholamine derivatives can be separated within 10 min and no major interfering peak is observed on chromatograms. The response of each catecholamine is linear from 10 to 500 pmol per sample and the detection limit is 0.5 pmol. This method was applied to determination of catecholamines in human urine.     

Increased levels of serum lipofuscin derived from 3-hydroxyanthranilic acid in patients with chronic renal failure

Normal Caucasian male sera incubated with 3-hydroxyanthranilic acid to generate soluble lipofuscin were studied together with unincubated serum samples from uremic Caucasian males, using the methods of Schwertner & Hawthorne in order to identify a fluorescent substance found by them to increase in uremic sera. Ethanol extracts of uremic sera, of normal sera containing this soluble lipofuscin and of same normal serum blanks were prepared. Reversed-phase thin-layer chromatograms of the extracts developed with methanol-water (40:60, v./v.), displayed one significant spot per sample, with RF values of 0.89 +/- 0.02. The spots showed blue fluorescence in 366 nm ultraviolet light. Aqueous solutions of the spots from uremic sera and from 3-hydroxyanthranilic acid-incubated normal sera produced closely similar fluorescence excitation shoulders and maxima at approximately 321 nm and emission maxima at 402 +/- 3 nm with significantly higher intensities than the normal. Thin-layer chromatograms of the ethanol extracts were also prepared on silica gel G developed with ethanol. The uremic, the 3-hydroxyanthranilic acid-incubated normal sera and the normal blank sera showed identical patterns in 366 nm light. The findings demonstrate that serum lipofuscin derived from 3-hydroxyanthranilic acid either in vivo or in vitro yields the fluorescent substance or component separated by ethanol extraction and reversed-phase thin-layer chromatography and that this serum lipofuscin present at low concentration in normal sera increases in uremic sera.     

Evaluation of extracellular lipid peroxidation in brain cortex of anaesthetized rats by microdialysis perfusion and high-performance liquid chromatography with fluorimetric detection

A method for in vivo evaluation of lipid peroxidation in the extracellular space of anaesthetized rat brain cortex was developed. This method involved the use of microdialysis perfusion and high-performance liquid chromatography. The microdialysates, eluted from implanted probes, were reacted with thiobarbituric acid (TBA) prior to analysis by an HPLC system equipped with a fluorescence detector (excitation and emission wavelengths were 515 and 550 nm, respectively). Lipid peroxidation in the extracellular space was evaluated as the concentration of malondialdehyde, a lipid peroxidation end product which reacts with TBA to form a fluorescent conjugate. Significantly increased production of malondialdehyde following hydrogen peroxide perfusion (0.03%, 0.3% at a flow-rate of 1 μl/min) was observed in the brain cortex of anaesthetized rats.     

Identification of neopterin as a potential indicator of infection in burned patients.

Several fluorescent substances are present in the supernatants of acid-precipitated whole blood or plasma from burned patients. Perchloric acid supernatants of sera from infected, but not uninfected, burned rats contained a fluorescent substance with maximum emission at 420 nm at 355-nm excitation (355 ex/420 em). In this study of serum from burned human patients, several fluorescent substances were resolved by reverse-phase high-pressure liquid chromatography. One of these fluorescent components had an high-pressure liquid chromatography retention time and fluorescent characteristics identical to those of neopterin. The identification of this component as neopterin was verified by thermospray mass spectrometry. Serum neopterin concentrations were then determined in supernatants of patient serum samples having various levels of 355 ex/420 em fluorescence. A correlation was found between the concentrations of neopterin determined by high-pressure liquid chromatography and the presence of bacteremia in burned patients. These findings suggest that neopterin, which is a useful indicator of infection in other clinical settings, may also be an indicator of infection in burned patients.     

Effect of lecithin:cholesterol acyltransferase on distribution of apolipoprotein A-IV among lipoproteins of human plasma

The effect of cholesterol esterification on the distribution of apoA-IV in human plasma was investigated. Human plasma was incubated in the presence or absence of the lecithin:cholesterol acyltransferase (LCAT) inhibitor 5,5-dithiobis(2-nitrobenzoic acid) (DTNB) and immediately fractionated by 6% agarose column chromatography. Fractions were monitored for apoA-IV, apoE, and apoA-I by radioimmunoassay (RIA). Incubation resulted in an elevated plasma concentration of cholesteryl ester and in an altered distribution of apoA-IV. After incubation apoA-IV eluted in the ordinarily apoA-IV-poor fractions of plasma that contain small VLDL particles, LDL, and HDL2. Inclusion of DTNB during the incubation resulted in some enlargement of HDL; however, both cholesterol esterification and lipoprotein binding of apoA-IV were inhibited. Addition of DTNB to plasma after incubation and prior to gel filtration had no effect on the apoA-IV distribution when the lipoproteins were immediately fractionated. Fasting plasma apoE was distributed in two or three peaks; in some plasmas there was a small peak that eluted with the column void volume, and, in all plasmas, there were larger peaks that eluted with the VLDL-LDL region and HDL2. Incubation resulted in displacement of HDL apoE to larger lipoproteins and this effect was observed in the presence or absence of DTNB. ApoA-I was distributed in a single broad peak that eluted in the region of HDL and the gel-filtered distribution was unaffected by incubation either in the presence or absence of DTNB. Incubation of plasma that was previously heated to 56 degrees C to inactivate LCAT resulted in no additional movement of apoA-IV onto lipoproteins, unless purified LCAT was present during incubation. The addition of heat-inactivated LCAT to the incubation, had no effect on movement of apoA-IV. These data suggest that human apoA-IV redistribution from the lipoprotein-free fraction to lipoprotein particles appears to be dependent on LCAT action. The mechanism responsible for the increased binding of apoA-IV to the surface of lipoproteins when LCAT acts may involve the generation of "gaps" in the lipoprotein surface due to the consumption of substrate from the surface and additional enlargement of the core. ApoA-IV may bind to these "gaps," where the packing density of the phospholipid head groups is reduced.     

The histochemical demonstration of catecholamines and tryptamines by acid- and aldehyde-induced fluorescence: microspectrofluorometric characterization of the fluorophores in models

Synopsis Fluorescence excitation and emission spectra are reported of the fluorophores derived from various catecholamines, tryptamines and related substances treated with vapours of acetaldehyde, glutaraldehyde and acetic acid. In most cases, the excitation maxima were at about 400–410 nm, and emission maxima at about 530 nm (catecholamines) or 560 nm (tryptamines). The microspectrofluorometric differentiation of individual arylethylamines by the relative height of excitation peaks at about 400 and 330 nm after treatment with acetic acid vapour is discussed.     

Molybdenum cofactor from the cytoplasmic membrane of Proteus mirabilis

Molybdenum cofactor was extracted from membranes of Proteus mirabilis by three methods: acidification, heat treatment and heat treatment in the presence of sodium-dodecylsulphate (SDS). Extracts prepared by the latter method contained the highest concentration of molybdenum cofactor. In these extracts molybdenum cofactor was present in a low molecular weight form. It could not penetrate an YM-2 membrane during ultrafiltration suggesting a molecular weight above 1000. During aerobic incubation of cofactor extracts from membranes at least four fluorescent species were formed as observed in a reversed-phase high performance liquid chromatography (HPLC) system. The species in the first peak was inhomogeneous while the species in the others seem to be homogenous. In water, all fluorescent products had an excitation maximum at 380 nm and an emission maximum at 455 nm. Their absorption spectra showed maxima at around 270 nm and 400 nm. Fluorescent compounds present in the first peak could penetrate an YM-2 membrane during ultrafiltration, whereas the compounds in the other peaks hardly did. Using xanthine oxidase from milk as source of molybdenum cofactor apparently identical cofactor species were found. Cytoplasmic nor membrane extracts of the chlorate resistant mutant chl S 556 of P. mirabilis could complement nitrate reductase of Neurospora crassa nit-1 in the presence of 20 mM molybdate. However, fluorescent species with identical properties as found for the wild-type were formed during aerobic incubation of extracts from membranes of this mutant.Non-common Abbreviations HPLC high performance liquid chromatography - I.D. internal diameter - SDS sodium dodecyl sulphate     

Studies on naturally occurring proteinous inhibitor for transmethylation reactions

An inhibitor for S-adenosyl-L-methionine (AdoMet)-dependent methyltransferases has been purified from rat liver particulate fraction to apparent homogeneity, as judged by high-performance liquid chromatography, two-dimensional paper electrophoresis and isoelectric focusing chromatography. This inhibitor molecule, which is composed of 27 amino acid residues with an additional fluorescent chromophore, is rich in glycine, contains no basic amino acid, and has an isoelectric point (pI) of 3.70. A single absorption peak was observed at 248 nm in acidic as well as in neutral media, while two peaks were detected in alkaline medium at 206 nm and 248 nm. The former peak was found to be quite labile. The fluorescent spectra with excitation peak at 285 nm and emission peak at 358 nm are greatly influenced by the pH, being the highest in alkaline medium. The purified inhibitor inhibits all the AdoMet-dependent methyltransferases examined.     

Single photon radioluminescence. I. Theory and spectroscopic properties.

The excitation of a fluorescent molecule by a beta-decay electron (radioluminescence) depends upon the electron energy, the distance between radioactive 'donor' and fluorescent 'acceptor', and the excitation characteristics and solvent environment of the fluorophore. The theory for calculation of single photon radioluminescence (SPR) signals is developed here; in the accompanying paper, measurement methods and biological applications are presented. To calculate the three-dimensional spatial profile for electron energy deposition in an aqueous environment, a Monte Carlo calculation was performed incorporating theories of electron energy distributions, energy loss due to interactions with matter, and deflections in electron motion due to collisions. For low energy beta emitters, 50% of energy deposition occurs within 0.63 micron (3H, 18.5 keV), 22 microns (14C, 156 keV), 25 microns (35S, 167 keV), and 260 microns (36Cl, 712 keV) of the radioisotope. In close proximity to the beta emitter (100 nm, 3H; 10 microns, 14C) the probability for fluorophore excitation is approximately proportional to the inverse square of the distance between the beta emitter and fluorophore. To investigate the other factors that determine the probability for fluorophore excitation, SPR measurements were carried out in solutions containing 3H and a series of fluorophores in different solvents. In water, the probability of fluorescence excitation was nearly proportional to the integrated absorbance over a > 1,000-fold variation in absorbances. The probability of fluorescence excitation was enhanced up to 2,600-fold when the fluorophore was in a "scintillant" aromatic or hydrocarbon solvent. SPR emission spectra were similar to fluorescence emission spectra obtained with photon excitation. The single photon signal due to Bremsstrahlung increased with wavelength in agreement with theory. The distance dependence for the SPR signal predicted by the model was in good agreement with measurements in which a 14C donor was separated by known thicknesses of water from a fluorescently-coated coverglass. Quantitative predictions for radioluminescence signal as a function of donor-acceptor distance were developed for specific radioisotope-fluorophore geometries in biological samples.     

tRNAfMet-induced conformational transition at the intersubunit domain of fluorescent-labeled methionyl-tRNA synthetase

Conformational transition in methionyl-tRNA synthetase upon binding of tRNAfMet, whose binding shows strong negative cooporativity, was analyzed by fluorescence spectroscopy. The fluorescent probe N-[[(iodoacetyl)amino]ethyl]-5-naphthylamine-1-sulfonic acid (1,5-I-AEDANS) reacts with native methionyl-tRNA synthetase in a nearly stoichiometric amount (2 per dimer) without affecting enzyme activity. The probe is shown by controlled trypsinization to be located in a 130 amino acid fragment at the C-terminus joining the subunits. The emission and excitation spectra, rotational freedom, and solvent accessibility of the fluorophore in AEDANS-methionyl-tRNA synthetase are analyzed. The results suggest that the probe is localized in a nonpolar environment, nearly immobile relative to methionyl-tRNA synthetase yet fully accessible to the solvent. Upon binding of tRNAfMet, the fluorescence intensity in AEDANS-methionyl-tRNA synthetase was appreciably reduced without a shift in the emission or excitation spectra. Lifetime measurement shows that a static mechanism accounts for the observed quenching. Furthermore, the remaining emitting AEDANS becomes effectively shielded from solvent molecules. These results suggest an unsymmetric conformational transition at the intersubunit domains of the two subunits in methionyl-tRNA synthetase upon binding one molecule of tRNAfMet.     

Synthesis and properties of a fluorescent derivative of phosphatidylcholine

1-acyl-2-(N-4-nitrobenzo-2-oxa-1,3-diazole)-aminocaproyl phosphatidyl choline, (NBD-PC) was prepared by alkylation of ?-amino caproic acid with 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-C1), followed by esterification of lysophosphatidylcholine. The compound was purified by silicic acid chromatography, and exhibited a single spot on thin layer chromatography using acidic, basic and neutral solvent systems, when visualized by UV, molybdate spray, primuline, or charring. The UV-visible absorption spectrum, and the uncorrected fluorescence excitation spectrum of NBD-PC in absolute ethanol showed maxima at approximately 340 and 460 nm, while the fluorescence emission spectrum showed a single peak at 525 nm. Fluorescence intensity and emission maximum wavelength of NBD-PC are strongly dependent on solvent dielectric constant, and the relative fluorescent intensity of NBD-PC in absolute ethanol is directly proportional to its concentration from 1 ng/ml to approximately 3 μg/ml. Incorporation of NBD-PC into membranes of human lymphocytes cultures in the presence or absence of phytohemagglutinin (PHA) resulted in a marked increase in the relative fluorescent intensity of the bound fluorochrome, and a 15 nm blue shift in its emission maximum wavelength. Fluorescence titration data indicate that the unstimulated lymphocytes bound 912 pmoles NBD-PC/mg protein with an association constant of 3.45 × 10⁷ M, while the PHA stimulated cells bound 1200 pmoles NBD-PC/mg protein with an association constant of 2.82 × 10⁷ M. The temperature dependence of the fluorescent intensity of NBD-PC incorporated in control, and PHA stimulated lymphocytes showed discontinuities at 15 and 24 °C respectively. Fluorescence polarization of NBD-PC incorporated in the membranes of stimulated lymphocytes was greater than the polarization of the fluorochrome in non-stimulated cells, suggesting that the plasma membranes of PHA stimulated lymphocytes contain regions of higher microviscosity.     

Liquid chromatography method for detecting native fluorescent bioamines in urine using post-column derivatization and intramolecular FRET detection

Liquid chromatography (LC) with fluorescence detection is described for simultaneous determination of native fluorescent bioamines (indoleamines and catecholamines). This is based on intramolecular fluorescence resonance energy transfer (FRET) in an LC system following post-column derivatization of native fluorescent bioamines' amino groups with o-phthalaldehyde (OPA). OPA fluorescence was achieved through an intramolecular FRET process when the molecules were excited at maximum excitation wavelength of the native fluorescent bioamines. Bioamines separated by reversed-phase LC on ODS column were derivatized with OPA and 2-mercaptoethanol. This method provides sufficient selectivity and sensitivity for the determination of normetanephrine, dopamine, tyrosine, 5-hydroxytryptamine, tryptamine, and tryptophan in healthy human urine without prior sample purification.     

High resolution dual laser flow cytometry.

Flow cytometers based on optical sensing utilize external light sources and fluorescent dyes to measure one or more specific components or properties of individual cells or subcellular particles in liquid suspension. To provide for independent excitation of two dyes used in double staining experiments we have constructed a high resolution flow cytometer that uses two laser beams to provide two wavelengths of excitation. These beams are separated spatially so that cells flow through them sequentially, with a time separation of about 20 musec. Since the dyes are excited sequentially their emission occurs at different times and their emission spectra may overlap without causing any difficulty in analysis. We have developed new light collection optics that permit up to four measurements to be made on each cell. This approach greatly increases the number of dye combinations that can be used in flow cytometry, thus removing a significant limitation of single illumination instruments.     

Spectral properties of a mixture of fluorescent pigments produced by Pseudomonas aeruginosa

The major chromophore of a mixture of fluorescent pigments produced by Pseudomonas aeruginosa ATCC 9027 had pH-dependent absorption, excitation, and emission spectra, such that two ionic forms existed in the ground state and three in the excited states. The pigments could complex with several metal ions to change fluorescence and absorption spectra. Although the pigments were separable into several components, spectra indicated that the same fluorescent chromophore was present in each component. Hydrolysis of the mixture of pigments gave amino acids which did not include alanine or lysine. These pigments must therefore differ from those described by other workers, even though similarities of the chromophores were evident from comparisons with data in the literature, and from comparisons of a hydrolytic product of the mixture of pigments, termed compound F, with the chromophore of the fluorescent pigment of Azotobacter vinelandii. Drastic hydrolysis of the latter chromophore also yielded compound F.     

Multiphoton excitation fluorescence microscopy and spectroscopy of in vivo human skin

Multiphoton excitation microscopy at 730 nm and 960 nm was used to image in vivo human skin autofluorescence from the surface to a depth of approximately 200 microm. The emission spectra and fluorescence lifetime images were obtained at selected locations near the surface (0-50 microm) and at deeper depths (100-150 microm) for both excitation wavelengths. Cell borders and cell nuclei were the prominent structures observed. The spectroscopic data suggest that reduced pyridine nucleotides, NAD(P)H, are the primary source of the skin autofluorescence at 730 nm excitation. With 960 nm excitation, a two-photon fluorescence emission at 520 nm indicates the presence of a variable, position-dependent intensity component of flavoprotein. A second fluorescence emission component, which starts at 425 nm, is observed with 960-nm excitation. Such fluorescence emission at wavelengths less than half the excitation wavelength suggests an excitation process involving three or more photons. This conjecture is further confirmed by the observation of the super-quadratic dependence of the fluorescence intensity on the excitation power. Further work is required to spectroscopically identify these emitting species. This study demonstrates the use of multiphoton excitation microscopy for functional imaging of the metabolic states of in vivo human skin cells.     

Proteomic analysis of the 14-3-3 family in Arabidopsis

In this study, various proteomics-based methods were utilized to examine the 14-3-3 protein family in Arabidopsis thaliana. A protein extract was prepared from an Arabidopsis hypocotyl suspension culture and analyzed by two-dimensional gel electrophoresis and immunoblotting with a 14-3-3 monoclonal antibody that recognizes multiple Arabidopsis isoforms. Protein spots that cross-reacted with the monoclonal antibody as well as the surrounding spots were analyzed by high performance liquid chromatography in conjunction with electrospray-tandem mass spectrometry. Nine separate spots contained 14-3-3s and each spot contained multiple 14-3-3 isoforms. Every isoform observed was verified by the identification of at least one isoform-specific peptide. Further analysis by mass spectrometry revealed that the isoforms Chi, Upsilon, Omega, Phi, and Lambda were acetylated on their N termini and no non-acetylated N termini were recovered. These data, together with the distribution of isoforms and the confirmation that 14-3-3s are not complexed during urea denaturing isoelectric focusing, supports the conclusion that Arabidopsis 14-3-3s are acetylated in vivo and are significantly affected by other post-translational modifications.     

Soluble lipofuscin in commercially-available human serum albumin solutions

Two studied commercial human serum albumin solutions had developed yellow colors during storage. These yellow materials were isolated and shown to be soluble lipofuscin. Aqueous solutions of this lipofuscin exhibited fluorescence spectra with 355 nm excitation and 432 nm emission maxima. After acid hydrolysis of this lipofuscin a nonhydrolysable lipid-melanin fraction was obtained. Ethanol-ether extraction yielded a lipid-containing solution. When evaporated and mixed with water, a solution-suspension was obtained that produced very similar fluorescence spectra to those described above, with 368 nm excitation and 432 nm emission maxima. The separated melanin component was not fluorescent. The isolated lipofuscin exhibited a weak electron paramagnetic resonance spectrum and its g-value has been found to be 2.0069 and its line width 9.8 G. The albumin solution contained approximately 0.23 g of melanin precipitate per 9.31 g of soluble lipofuscin isolated from 25 g of albumin. The deleterious cardiac, pulmonary, renal and clotting changes associated with the use of albumin solution might be due to this lipofuscin.     

A new configuration of the Zeiss LSM 510 for simultaneous optical separation of green and red fluorescent protein pairs.

The power and simplicity of genetically encoded fluorophores (fluorescent proteins, FPs) have drawn many molecular biologists to light microscopy. First generation FPs suffered from overlapping excitation and emission spectra, which limited their use together in pairs (Patterson et al., J Cell Sci 2001;114 (Part 5):837-838). Image acquisition and processing techniques, collectively known as linear unmixing, have been developed to separate overlapping fluorescence signals encountered in the imaging of FP pairs and also in FRET. These specialized techniques are not without their potential drawbacks, including limitations on sensitivity and time-resolution for live cell imaging, and the risk of artifact in the hands of nonspecialists. With the advent of a new generation of red-shifted FPs (Shaner et al., Nat Biotechnol 2004;22:1567-1572; Verkhusha and Lukyanov, Nat Biotechnol 2004;22:289-296) careful selection of excitation sources and emission filters obviate the need for linear unmixing when simple two channel imaging of FPs is required. Here we introduce a new configuration of the Zeiss LSM 510 laser scanning confocal microscope, optimized for live cell imaging of green fluorescent protein (GFP) together with spectral variants such as mRFP1 and mCherry using standard photo-multipliers. A 2 mW, 594 nm HeNe laser was chosen as the excitation source for the red FP. This wavelength efficiently excites the aforementioned red variants without limiting the detection range of GFP emission during simultaneous two-channel imaging. Compared to excitation of GFP and mCherry at 488 and 543 nm, excitation at 488 and 594 nm approximately doubles the sensitivity of GFP detection and eliminates bleed-through of GFP into the mCherry channel. However, sensitivity of mCherry detection is decreased by 30%, suggesting the need for red FPs having longer emission peaks. Practical advantages to the simultaneous optical separation of FPs with nonoverlapping emission spectra include simplicity, robustness, reduced risk of artifact, and increased sensitivity during live cell imaging.