BINDING OF HEMATOPORPHYRIN DERIVATIVE TO HUMAN SERUM ALBUMIN

Abstract Dialysis of hematoporphyrin derivative fraction A (HpD-A) off human serum albumin at 38°C followed the Hill equation for cooperative binding with saturation at 5 to 8. 600 dalton porphyrin units. Approximately 15% of the HpD-A was free for concentrations typical of human serum in photoradiation therapy. Possible structures of the tumor-localizing and -photosensitizing component in HpD-A are considered. Of these, a folded-over, covalent dimer appears to be more consistent with the photophvsical properties.     

PROPERTIES OF THE ULTRAVIOLET-LIGHT-MEDIATED BINDING OF BOVINE SERUM ALBUMIN TO DNA*

Abstract— The binding of DNA to protein mediated by U V (254 nm) radiation has been investigated using binding of the complex to Millipore membrane filters as an assay technique. The reaction proceeds through an activated protein intermediate which then reacts with the DNA. The activated protein has a half-life of about 75 min at 0°C and about 18 min at 37°C. Short wavelengths are more efficient in forming the complex than wavelengths in the 250–280 nm range. N-ethyl maleimide treatment of protein before irradiation markedly inhibits the reaction.     

THERMODYNAMICS OF PORPHYRIN BINDING TO SERUM ALBUMIN: EFFECTS OF TEMPERATURE, OF PORPHYRIN SPECIES and OF ALBUMIN-CARRIED FATTY ACIDS

Abstract Porphyrin binding to serum albumin was studied at the molecular level probing the effects of: porphyrin self-aggregation, porphyrin species, temperature and protein-bound fatty acids. Human serum albumin was found to have a single high-affinity site for porphyrin monomers, with binding constants of 2 x 10⁶, 5 x 10⁷ and 3 x 10⁸ (37^o C, neutral pH, M ⁻¹), for hemato-, deutero- and protoporphyrins, respectively. Three equilibria models for the dimer binding were developed and tested. The data were found to fit best with a model proposing a single high-affinity binding site for the dimer, independent of and different than the monomer site. The binding constants of the hematoporphyrin and deuteroporphyrin dimers to human serum albumin (37^o C, neutral pH, M^−l) being 4 x 10* and 5 x 10⁸ respectively. The temperature dependence (Dp and HSA, 22-37^o C) of the monomer binding showed the process to be entropy-driven (δG^o= -45 kJ mol⁻¹; δS^o=+146 kJ mol⁻¹; δH^o= 0 kJ mol⁻¹). For the dimer binding, the enthalpy change was found to be highly temperature-dependent implying continuous changes in the heat capacity of the system over the entire temperature range, the trend at the 37^o C region fitting an entropy-driven process. The monomer vs dimer differences in temperature dependence strongly support separate and independent binding sites for these species. Similar thermodynamics were determined for fatty-acid carrying as well as for fatty-acid free HSA, with mild quantitative (but not qualitative) shifts.     

THE EFFECT OF pH ON THE FLUORESCENCE OF COMPLEXES OF HUMAN SERUM ALBUMIN AND BOVINE SERUM ALBUMIN WITH BILIRUBIN

Abstract— Fluorescence studies as a function of pH clearly show that the environment and conformation of bilirubin bound to human serum albumin (HSA) are quite different than those for binding to bovine serum albumin (BSA). The visible fluorescence of the bilirubin-BSA complex is maximal at the extremes of pH; in contrast, the bilirubin-HSA complex fluorescence is at a maximum, near physiological pH.     

PHOTOREACTIONS OF MACROCYCLIC DYES BOUND TO HUMAN SERUM ALBUMIN

The photophysical properties of tetrakis(4-sulfonatophenyl)porphyrin (H2TSPP), its tin (IV) complex (SnTSPP), aluminium(III) trisulfonatophthalocyanine (AIPCS), and the corresponding zinc(II) complex (ZnPCS), have been measured in H2O, D2O, and upon binding to human serum albumin (HSA). The triplet excited states of the various macrocyclic dyes generate singlet molecular oxygen, O2(1 delta g) in high quantum yield upon illumination in O2-saturated solution, even in the presence of HSA. The triplet states also abstract an electron from 4-aminophenol, forming the radical anion of the macrocycle. Quenching rate constants and quantum yields have been measured for the various processes in the presence and absence of HSA. It is found that HSA binds all the dyes at nonspecific sites close to the interface in such a manner that the dyes remain accessible to species residing in the solution phase. Dyes that do not possess axial ligands complexed to the central cation (e.g. H2TSPP, ZnPCS) are able to bind also at a deeper, more specific site on the protein where they are protected from species in solution. Under such conditions, triplet quenching by 4-aminophenol is restricted to long-distance electron tunnelling, for which the rate is relatively slow.     

EVIDENCE FOR A MAJOR STRONG BINDING SITE FOR TETRACHLOROSALICYLANILIDE ON HUMAN SERUM ALBUMIN

Abstract— Solutions of human serum albumin(HSA) monomer were irradiated with UV light(360 nm) in the presence of [₁₄C]-3,3.4'S-tetrachlorosalicylanilide([₁₄C]-T₄CS).The [₁₄C]-T₄ CS-labeiled HSA was cleaved by cyanogen bromide and separated into two fractions. These fractions were reduced carboxymethylated and separated into their seven characteristic peptides and monitored for radioactivity. Tetrachlorosalicylanilide was found to bind mainly to one region of the sequence of HSA and this covalent binding site was located in residues 124 (Cys) to 298 (Met) of the molecule. The binding of 3,5-dichlorosalicylamido-4-(2,2,6.6-tetramethylpiperidine-l-oxyl (DCS-TEMPO),a spin-label analogue of T₄CS, to HSA was studied by electron spin resonance spectroscopy. In the absence of UV light. DCS-TEMPO bound non-covalently (k = 6.1 times 10₆M₁) to one major binding site on HSA. These results are evidence for the existence of a major strong binding site for the photochemical binding of T₄CS to HSA.     

光谱法研究绿原酸与人血清白蛋白的相互作用

利用荧光光谱法研究了绿原酸与人血清白蛋白(HSA)的相互作用,考察了不同温度下绿原酸与HSA的结合常数KA和结合位点数n,并研究了Cu2+、Al3+、Ca2+、Pb2+等金属离子对绿原酸与HSA结合性质的影响。基于Frster偶极-偶极非辐射能量转移机理确定了荧光给体HSA与受体绿原酸间的结合距离。     

SPECTRAL STUDY OF THE PHOTOCHEMISTRY OF DIPYRROLE MODELS FOR BILIRUBIN BOUND TO HUMAN SERUM ALBUMIN

—Dipyrromethenones, which include xanthobilirubinic acid (I), its methyl ester (II) and the endo- vinyl analog of neoxanthobilirubinic acid methyl ester ("half bilirubin" methyl ester) (III) bind to human serum albumin (HSA) and thereby exhibit greatly increased fluorescence as well as induced circular dichroism in their long wavelength transitions. As determined from fluorescence studies, the "tightness" of the binding to HSA is, inter alia , inversely related to the inherent solubility of the dipyrromethenone in aqueous buffer. Fast (ps) configurational isomerization ( Z → E ) is the major pathway for decay of the first excited (singlet) states of the HSA-bound dipyrromethenones. A quantum yield of − 0.4 is associated with the Z → E isomerization. Binding to HSA enhances the lifetimes of the less thermodynamically stable E -isomers. The results of these studies of "half bilirubins" allow a clear evaluation of the effects of protein binding upon the photophysics and photochemistry of bilirubin.     

QUANTUM YIELD and EQUILIBRIUM POSITION OF THE CONFIGURATIONAL PHOTOISOMERIZATION OF BILIRUBIN BOUND TO HUMAN SERUM ALBUMIN*

Abstract— At low fluence rates it is possible to observe a photoequilibrium between Z,Z-bilirubin(BR) and its E isomers(collectively called PBR) bound to human serum albumin(HSA).For excitation centered at 465 nm, the fraction of PBR/HSA in the photoequilibrium mixture was observed to be 0.22 + 0.02. The quantum yield for conversion of BR/HSA to PBR/HSA was found to be 0.20 0.02. The equality of the quantum yield value and the fraction of PBR/HSA in the photoequilibrium mixture is consistent with a simple mechanism for the photoisomerization in which optically excited singlet states of BR and PBR convert rapidly and with virtually total efficiency to a common excited intermediate with twisted geometry that subsequently decays to BR and PBR in the ratio 4:1, respectively. Quantum yields for other photoprocesses of BR bound to HSA are much lower than that for configur-ational isomerization. The central role suggested for configurational isomerization in the phototherapy for neonatal hyperbilirubinemia is supported by these observations.     

RELATIVE CONTRIBUTIONS OF TRYPTOPHAN and TYROSINE TO THE PHOSPHORESCENCE EMISSION OF HUMAN SERUM ALBUMIN AT LOW TEMPERATURES

Abstract— Phosphorescence emission and excitation spectra, as well as decay profiles of human serum albumin, were investigated in the wavelength regions of the tryptophan and tyrosine absorption and emission spectra in potassium phosphate buffer at 77 K. Emission and excitation spectra were found to be linear superpositions of the contributions of the tryptophan and tyrosine residues. It is suggested, therefore, that there is no significant tyrosine to tryptophan energy transfer in this protein at low temperature. The phosphorescence decay is, in general, multiexponential with lifetime components of 5.95, 2.7, and 1.2 s. The longest lifetime is characteristic of tryptophan, whereas the two short components are attributed to two types of tyrosine residues located in different environments within the protein. The latter is confirmed by a detailed analysis of the phosphorescence decay profiles determined at different emission wavelengths, and utilizing different wavelengths of excitation favoring either the tryptophan or tyrosine residues.     

STUDY OF THE ADSORPTION OF HUMAN SERUM ALBUMIN ON REVERSED-PHASE SUPPORTS.

This work examines the adsorption of Human Serum Albumin (HSA) on a Reversed-Phase High Performance Liquid Chromatographic (RPLC) support. The adsorption experiments were performed by frontal analysis. Adsorption isotherms were determined in pure buffer and in the presence of acetonitrile. Saturation is always reached, even at the lower protein concentrations. In view of the pore size of the particles (80 Å), it is assumed that HSA is adsorbed on the external surface of silica

In presence of acetonitrile, a variability in the amount of HSA adsorbed is found showing a maximum at 25% of acetonitrile. Slower adsorption kinetics are observed when the concentration of the organic modifier in the eluent is increased. The reversibility of HSA binding to the surface was investigated by desorbing the protein with 40% acetonitrile. The amount of HSA irreversibly adsorbed depends upon the experimental conditions used during the adsorption step. It is at a maximum when HSA is adsorbed with 25% acetonitrile. As the temperature is raised and only in the presence of acetonitrile, an important increase of the amount of HSA irreversibly adsorbed is observed.     

PHOTOKINETIC AND PHOTOPHYSICAL MEASUREMENTS OF THE SENSITIZED PHOTOOXIDATION OF THE TRYPTOPHYL RESIDUE IN N-ACETYL TRYPTOPHANAMIDE AND IN HUMAN SERUM ALBUMIN

Abstract— The photosensitized oxidation of 10–100 μ M N -acetyl-L-tryptophanamide (NATA) in neutral aqueous solution and in the presence of various dyes proceeds by a pure O₂(¹Δ_g)-involving mechanism. Incorporation of the tryptophyl (Trp) residue into the polypeptide chain of human serum albumin (HSA) has no influence on the mechanism and efficiency of Trp photooxidation when sensitized either by methylene blue, a non-binding dye, or by rose bengal, a dye that gives non-covalent 1: 1 complexes with HSA. This is due to the location of the Trp residue in close proximity of the protein surface and, in the case of rose bengal, to the coincidence of the photophysical properties (including the quantum yield of O₂(¹Δ_g) generation) for the free and HSA-bound dye. Hematoporphyrin also binds to HSA with 1: 1 stoichiometry, although at a different site from rose bengal. Bound Hp again displays photophysical properties very similar with those of free Hp; however, the efficiency of Trp photo-oxidation in HSA is about 5-fold higher than in NATA owing to a limited rearrangement of the protein structure, induced by Hp binding, which enhances the probability of chemical quenching of O₂(¹Δ_g) by the indole ring.     

荧光光谱法研究盐酸罂粟碱与牛血清白蛋白作用的热力学特征

用荧光光谱法研究了盐酸罂粟碱与牛血清白蛋白(BSA)结合反应的特征，发现盐酸罂粟碱对BSA有较强的荧光猝灭作用，根据荧光猝灭数据和非辐射能量转移机理，由Sterm-Volmer方程和双倒数方程获得了结合反应的结合常数、结合位置和结合过程的基本热力学参数。     

酸性铬蓝K-蛋白质结合反应体系的极谱分析

酸性铬蓝K(ACBK)在pH3.0Britton Robinson(B R)缓冲溶液中,于-0.41V(vs.SCE)产生一个灵敏的线性扫描二阶导数极谱峰。当在上述溶液中加入人血清白蛋白(HSA)后,由于HSA带正电,而ACBK带负电,两者之间主要通过静电引力形成一种超分子复合物,该复合物无电化学活性,使ACBK在溶液中的游离浓度降低,相应其在-0.41V处的极谱峰电流降低。优化了结合反应的条件和电化学测定条件。在最佳条件下,峰电流的降低值与HSA的加入量在3.0～20.0mg·L-1范围内呈线性关系,应用于人血清样品的测定,试验结果同考马斯亮蓝光度法一致。     

BINDING OF HEMATOPORPHYRIN DERIVATIVE TO BRAIN TUMOR CELLS—A FLUORESCENCE SPECTROSCOPIC STUDY

The binding of hematoporphyrin derivative (HpD) to brain tumor cells and their photosensitivity was studied as a function of HpD concentration, time of incubation and growth phase of cells. Upon binding to cells, HpD showed three fluorescence bands at 616, 636 and 678 nm. In plateau phase cells a fluorescence band at 636 nm was predominant, which was further enhanced by increasing HpD concentration and/or increasing incubation time. In exponential phase cells the maximum fluorescence was exhibited at 616 nm. After 1 h incubation of exponential phase cells with increasing HpD concentration an overall intensity enhancement occurred with no change in the distribution of bands, whereas longer incubation time caused an increase in relative intensity of the 636 nm band similar to that observed in plateau phase cells. After 1 h incubation with HpD plateau phase cells were more photosensitive than exponential phase cells, although cell bound HpD was much less in the former case. Incubation of cells for 24 h drastically enhanced the photosensitivity irrespective of the growth phase. Our results suggest a relationship between the fluorescence emission band of HpD at 636 nm and photosensitivity of cells.     

THE MECHANISM OF ENERGY TRANSFER FROM POLY-p-BENZOYLPHENYLACETIMIDO-BOVINE SERUM ALBUMIN TO SMALL-MOLECULE QUENCHERS

Abstract— Results of a quantitative photochemical study of poly- p -benzoylphenylacetimido-bovine serum albumin in the presence of small-molecule triplet quenchers are reported. The efficiency of quenching by organic salts containing low triplet energy chromophores is shown to be qualitatively dependent on their predicted association constants to the modified protein. In addition, quenching is inhibited by salts of organic acids which possess high binding affinities for the protein but do not contain chromophores of low triplet energy. Quantitative treatment of the quenching and inhibition data yields results which strongly support the operation of an 'affinity controlled' mechanism for triplet energy transfer from the benzophenone moieties of the modified-bovine serum albumin to quenchers such as α-naphthylacetate and trans -cinnamate.     

FLUORESCENCE SPECTRAL CHANGES OF HEMATOPORPHYRIN DERIVATIVE UPON BINDING TO LIPID VESICLES, Staphylococcus aureus AND Escherichia coli CELLS

Abstract— The binding of hematoporphyrin derivated (Hpd) to lipid vesicles and bacterial membranes was determined by fluorescence spectroscopy. The fluorescence measurements of Hpd in aqueous solutions showed two bands at 613 and 677 nm. In lipid environments of lecithin vesicles the fluorescence spectrum was shifted to 631 and 692 nm, respectively. Hpd was rapidly bound to the cell membrane of Staphylococcus aureus while much less binding occurred in the presence of Escherichia coli. At the same time, spheroplasts of both bacteria were shown to bind Hpd to a similar extent. These results are well correlated with the photoinactivation of the gram positive bacteria with Hpd while the gram negative cells were shown to be resistant. The pH dependence of both Hpd binding to S. aureus as well as the photodynamic inhibitory effect of the same bacteria are similar. It is concluded that the segregation of Hpd to the cell membrane is a prerequisite for its photodynamic effect.     

染料壳聚糖微球的制备及其对人血清白蛋白吸附性能研究

人血清白蛋白(Human Serum Albumin,HSA)是血浆中含量最丰富的蛋白质,约占血浆总蛋白的60%.在人体内,HSA有许多重要的生理功能[1],临床上广泛应用于手术输血和危重病人补液,治疗创伤休克、烧伤、水肿和低白蛋白血症等,而且能增强人体抵抗能力,是迄今为止产量最大、临床用量最大     

水溶性星型卟啉高分子的合成表征及其与牛血清白蛋白的相互作用

利用琥珀酸酐修饰四(p-氨基苯基)卟啉,再与聚乙二醇单甲醚酯化,制备了亲水性卟啉高分子,用IR、UV-Vis、1H NMR、元素分析等方法对其结构进行了表征.利用紫外可见光谱研究了卟啉高分子与牛血清白蛋白(BSA)之间的相互作用.实验结果显示,卟啉高分子与BSA之间不仅存在卟啉与BSA之间的相互作用,而且存在高分子侧臂与BSA之间体积排斥作用,二者综合结果导致卟啉的可见吸收峰表现出不同于小分子卟啉的特征,最大吸收峰位置没有改变,但是吸收强度表现为增色作用.锌离子与卟啉环络合后,增色作用明显,说明络离子可通过配位键增强对BSA的结合.     

BIOLOGICAL ACTIVITIES OF PHTHALOCYANINES. XIII. THE EFFECTS OF HUMAN SERUM COMPONENTS ON THE in vitro UPTAKE AND PHOTODYNAMIC ACTIVITY OF ZINC PHTHALOCYANINE

Abstract— The effect of human serum components on the photodynamic activity of zinc phthalocyanine (ZnPc) toward Chinese hamster fibroblasts (lineV–79) was studied. Photodynamic activities were correlated with cellular uptake of radiolabeled [⁶⁵Zn]ZnPc, which allowed corrections to be made for the amount of sensitizer present in the cells at the time of irradiation and to express photodynamic efficiences on a cellular dye concentration basis. All serum components, with the exception of high-density lipoproteins, inhibit uptake of ZnPc byV–79 cells, when compared to incubation of ZnPc with the same cells in serum-free medium. High-density lipoproteins increased ZnPc uptake by 23%, but the photodynamic efficiency corrected for the cellular ZnPc concentration was unaffected. Very low-density lipoprotein and globulins decreased ZnPc cell uptake but likewise did not affect the cellular photodynamic efficiency of the dye. In contrast low-density lipoprotein and albumin, while inhibiting ZnPc cell uptake, increased the cellular photodynamic efficiency of ZnPc, suggesting that these proteins facilitate localization of the dye at cellular targers sensitive to photodynamic damage and vital to cell survival. We conclude from these results that association of ZnPc with serum components can have important, and widely differing, effects on both degree of uptake and cellular distribution of the photosensitizer.