光谱法结合分子对接研究沙拉沙星与牛血清白蛋白结合作用

doi:10.16431/j.cnki.1671-7236.2025.09.035

Abstract

Abstract: 【Objective】 The purpose of this experiment was to study the binding mechanism of salafloxacin (SFX) and bovine serum albumin (BSA). 【Method】 The fluorescence spectroscopy method was employed to investigate the fluorescence quenching effect of SFX on BSA,the interaction type,binding mode,and number of binding sites between SFX and BSA.Synchronous fluorescence spectroscopy was used to measure the effect of SFX on the endogenous fluorescence of BSA,the influence of SFX on the fluorescence intensity of tyrosine (Tyr) and tryptophan (Trp) in BSA was analyzed.The three-dimensional fluorescence spectroscopy was employed to analyze the three-dimensional fluorescence characteristics of SFX and BSA,and the effect of SFX on the conformation of BSA was analyzed.Ultraviolet-visible spectroscopy was employed to detect the UV spectral characteristics of BSA upon addition of varying concentrations of SFX，the effect of SFX on the conformation of BSA and the type of quenching was analyzed.The binding sites and binding forces between SFX and BSA were analyzed by molecular docking method，and the effect of metal ions on the binding of SFX and BSA was analyzed by fluorescence spectroscopy. 【Result】 Fluorescence spectroscopy detection results showed that SFX quenched the endogenous fluorescence of BSA,and the quenching type of BSA was static quenching.The binding process between SFX and BSA was exothermic and spontaneous，non radiative energy transfer occurred during the binding process.The interaction between SFX and BSA was primarily mediated by hydrogen bonding and van der Waals forces.The number of binding sites was approximately 1.The molecular binding distance was 3.182 nm.Synchronous fluorescence detection showed that SFX quenched the fluorescence of Tyr and Trp residues as well as the peptide backbone in BSA.Three-dimensional fluorescence spectroscopy demonstrated a decrease in fluorescence intensity of Trp and Tyr residues induced by SFX,and the peptide chain structure of BSA was alterated.Molecular docking showed that SFX formed hydrogen bonds with Pro498,Glu470 and Lys533 residues in BSA,hydrophobic bonds with Val497 and Lys499 residues,and van der Waals forces with Tyr496 residue.The metal ions Ca²⁺,Na⁺,K⁺ and Al³⁺exhibited a promoting effect on the binding of SFX to BSA，Fe²⁺,Mg²⁺ and Cu²⁺ exhibited inhibitory effects. 【Conclusion】 SFX-BSA binding was spontaneous,forming a stable complex,and the combination would change the conformation of BSA.This study provided fundamental data for investigating SFX toxicity,in vivo transport and metabolic mechanisms.

Key words: bovine serum albumin (BSA); salafloxacin (SFX); spectral method; molecular docking; metal ion

CLC Number:

S859.7

MA Quanchao, WU Haigang. Study on the Interaction Between Salafloxacin and Bovine Serum Albumin by Spectroscopic Method Combined with Molecular Docking[J]. China Animal Husbandry & Veterinary Medicine, 2025, 52(9): 4394-4405.

References

[1] PERIS-VICENTE J,GARCÍA-FERRER D,MISHRA P A,et al.Procedure for the screening of eggs and egg products to detectoxolonic acid,ciprofloxacin,enrofloxacin,and sarafloxacin using micellar liquid chromatography[J].Antibiotics,2019,8(4):226.
[2] WANG Q,ZHAO R,CUI Y,et al.Rapid and simple determination of sarafloxacin and difloxacin in beef by capillary electrophoresis coupled with solid-phase extraction[J].Journal of Analytical Methods in Chemistry,2018,2018:1981436.
[3] JUAN P,JAVIER J M I,JAUME A,et al.A rapid and reliable assay to determine flumequine,marbofloxacin,difloxacin and sarafloxacin in the most consumed meat by micellar liquid chromatography[J].Journal of the Science of Food and Agriculture,2018,99(3):1375-1383.
[4] 傅凤,孟蕾,杨洁,等.超高效液相色谱-串联质谱法测定鸡蛋中沙拉沙星残留的研究[J].中国兽药杂志,2023,57(9):28-35. FU F,MENG L,YANG J,et al.Determination of salafloxacin rseidues in eggs by ultra performance liquid chromatography-tandem mass specrmoetry[J].Chinese Journal of Veterinary Drug,2023,57(9):28-35.(in Chinese)
[5] 罗贤,静丽.超高效液相色谱-串联质谱法测定鱼肉组织中的恩诺沙星、环丙沙星和沙拉沙星残留量[J].现代食品,2020,7:170-171. LUO X,JING L.Determination of enrofloxacin,ciprofloxacin and sarafloxacin in fish tissue by UPLC-MS/MS[J].Modern Food,2020,7:170-171.(in Chinese)
[6] SIDHU A,SINGLA N,LONARE M,et al.Effect of quinestrol on body weight,vital organs,biochemicals and genotoxicity in adult male lesser bandicoot rat,bandicota bengalensis[J].Pesticide Biochemistry and Physiology,2020,165:104544.
[7] QIN P,PAN X,LIU R,et al.Toxic interaction mechanism of two fluoroquinolones with serum albumin by spectroscopic and computational methods[J].Journal of Environmental Science and Health Part B,2017,52(11):833-841.
[8] CSILLA T,ROBERT L,PETRONELA K,et al.Serum protein electrophoretic pattern in piglets during the early postnatal period[J]. Scientific Reports,2021,11(1):17539.
[9] RAHIMIZADEH P,YANG S,LIM I S.Albumin:An emerging opportunity in drug delivery[J].Biotechnology and Bioprocess Engineering,2020,25(6):985-995.
[10] WANG X,SUN J,MA L,et al.Characterization of the interactions between minocycline hydrochloride and trypsin with spectroscopic and molecular docking technology[J].Molecules,2023,28:2656.
[11] RITUPARNA B,KUMAR S V M,GUNANKA H.Assessment of the comparative interactions of cuminaldehyde with bovine serum albumin and human serum albumin through spectroscopic and molecular docking investigation[J].Journal of Solution Chemistry,2024,53(8):1130-1148.
[12] MANEA Y K,BANU A,QASHQOOSH M T A，et al.Interaction of AMOT^@CS NPs and AMOT drug with bovine serum albumin:Insights from spectroscopic and molecular docking techniques[J].Chemical Physics,2021,546:111139.
[13] 闫恳,张燕燕,卞在东,等.1,8-二川芎嗪基大黄酸与牛血清白蛋白相互作用研究[J].分析科学学报,2024,40(3):337-343. YAN K,ZHANG Y Y,BIAN Z D,et al.Study on the interaction between1,8-ditetramethylpyrazine based rhein and bovine serum albumin[J].Journal of Analytical Science,2024,40(3):337-343.(in Chinese)
[14] ROSTAMNEZHAD F,HOSSEIN F M.Comprehensive investigation of binding of some polycyclic aromatic hydrocarbons with bovine serum albumin:Spectroscopic and molecular docking studies[J].Bioorganic Chemistry,2022,120:105656.
[15] MEI Q Z,XIAO H P,JIE W,et al.Potential toxic effects of sulfonamides antibiotics:Molecular modeling,multiple-spectroscopy techniques and density functional theory calculations[J].Ecotoxicology and Environmental Safety,2022,243:113979.
[16] KAUR A,KHAN A I,BANIPAL K P,et al.Deciphering the complexation process of a fluoroquinolone antibiotic,levofloxacin,with bovine serum albumin in the presence of additives[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy,2018,191:259-270.
[17] LIAN S Q,LIAN J,WANG G R,et al.Investigation of binding between fluoroquinolones and pepsin by fluorescence spectroscopy and molecular simulation[J].Luminescence,2019,34(6):595-601.
[18] 王晨雨，陈成诚，甘宇鑫，等.基于多光谱技术对原儿茶酸抑制低密度脂蛋白氧化及其与牛血清白蛋白相互作用的研究[J].光谱学与光谱分析,2024,44(6):1762-1772. WANG C Y,CHEN C C,GAN Y X,et al.The inhibition effect of protocatechuic acid on low-density lipoprotein oxidationand the interaction between this acid with bovine serum albumin based on multi-spectral technique[J].Spectroscopy and Spectral Analysis,2024,44(6):1762-1772.(in Chinese)
[19] SAJID M A,JAYARAMAN M,MONIKA J,et al.Molecular interactions of cefoperazone with bovine serum albumin:Extensive experimental and computational investigations[J].Journal of Molecular Liquids,2021,337:116354.
[20] WANI T A,BAKHEIT A H,AL-MAJED A A,et al.Binding and drug displacement study of colchicine and bovine serum albumin in presence of azithromycin using multispectroscopic techniques and molecular dynamic simulation[J].Journal of Molecular Liquids,2021,333:115934.
[21] GOURANGA J,SHUKDEB S,ARINDAM D,et al.Interaction of food colorant indigo carmine with human and bovine serum albumins:A multi-spectroscopic,calorimetric,and theoretical investigation[J].International Journal of Biological Macromolecules,2024,259(P1):129143.
[22] MAHMOUDPOUR M,JAVAHERI-GHEZELDIZAJ F,YEKTA R,et al.Thermodynamic analysis of albumin interaction with monosodium glutamate food additive:Insights from multi-spectroscopic and molecular docking approaches[J].Journal of Molecular Structure,2020,1221:128785.
[23] QIN P F,PAN X R,LIU R T,et al.Experimental and computational characterization on the binding of two fluoroquinolones to bovine hemoglobin[J].Journal of Molecular Recognition,2017,30(12):e2647.
[24] 范金波,周素珍,闫泳,等.分子对接结合荧光光谱法探究单宁酸与血清蛋白结合的pH依赖性[J].中国食品学报,2021,21(10):23-33. FAN J B，ZHOU S Z，YAN Y,et al. pH dependence of binding of tannic acid to serum protein by molecular docking and fluorescence spectroscopy[J].Journal of Chinese Institute of Food Science and Technology,2021,21(10):23-33.(in Chinese)
[25] EL GAMMAL R N,ELMANSI H,EL-EMAM A A,et al.Exploring the molecular interaction of mebendazole with bovine serum albumin using multi-spectroscopic approaches and molecular docking[J].Scientific Reports,2022,12(1):11582.
[26] YAN X G,PENG F Q,CHAO Y W,et al.Characterization on the toxic mechanism of two fluoroquinolones to trypsin by spectroscopic and computational methods[J].Journal of Environmental Science and Health PartB,2020,55(3):230-238.
[27] 汤小玉,罗云敬,魏安琪,等.同步与三维荧光光谱法研究日落黄和人血清蛋白的相互作用[J].光谱学与光谱分析,2018,38(10):3129-3135. TANG X Y,LUO Y J,WEI A Q,et al.Application of synchronous and the-dimensional fluorescent spectrometry in studies on interaction between sunset yellow and human serum albumin[J].Spectroscopy and Spectral Analysis,2018,38(10):3129-3135.(in Chinese)
[28] ZHENG S J,ZHENG N,ZHANG M L,et al.Probing the binding mechanism of the verbascoside and human serum albumin by fluorescence spectroscopy and molecular docking approach[J].Monatshefte Für Chemie-Chemical Monthly,2023,154:151-158.
[29] 付娌丽,饶璐,王智俊,等.荧光光谱法与分子模拟研究氨苄西林钠与牛血清蛋白相互作用及构象变化[J].湖北科技学院学报(医学版),2023,37(1):21-25. FU Z L,RAO L,WANG Z J,et al.Study on the interaction and conformational changes between ampicillin sodium and bovine serum albumin by fluorescence spectrometry and molecular simulation[J].Joural of Hubei University of Scinence and Technology (Medical Sciences),2023,37(1):21-25.(in Chinese)
[30] YUAN Y Y,QI M T,YI Y G,et al.Comparison of the interactions of fanetizole with pepsin and trypsin:Spectroscopic and molecular docking approach[J].Journal of Molecular Liquids,2022,365:120095.
[31] SOLTANABADI O,ATRI S M,BAGHERI M.Spectroscopic analysis,docking and molecular dynamics simulation of the interaction of cinnamaldehyde with human serum albumin[J].Journal of Inclusion Phenomena and Macrocyclic Chemistry,2018,91(3-4):189-197.
[32] ANJU S,SINHA K D,MEENAKSHI V,et al.Exploration of interaction existing between methyl chavicol and bovine serum albumin using spectroscopic and molecular modelling techniques[J].Chemical Papers,2023,78(4):2537-2548.
[33] 卞在东,文峻,张辉兰,等.基于光谱学和分子对接方法的藤黄酸与牛血清蛋白的相互作用研究[J].现代中药研究与实践,2023,37(6):22-28. BIAN Z D,WEN J,ZHANG H L,et al.Interaction between gambogic acid and bovine serum albumin based on spectroscopy and molecular docking[J].Methods Research and Practice on Chinese Medicines,2023,37(6):22-28.(in Chinese)
[34] QURESHI M A,AKBAR M,AMIR M,et al.Molecular interactions of esculin with bovine serum albumin and recognition of binding sites with spectroscopy and molecular docking[J].Journal of Biomolecular Structure and Dynamics,2022,41(7):2630-2644.
[35] SKRABKOVA H S,CHERNYSHEVA M G,BAYGILDIEV T M,et al.Lysozyme binding with amikacin and levofloxacin studied by tritium probe,fluorescence spectroscopy and molecular docking[J].Archives of Biochemistry and Biophysics,2024,751:109848.
[36] WANG B,PAN D,KOU S,et al.Exploring the binding interaction between bovine serum albumin and perindopril as well as influence of metal ions using multi-spectroscopic,molecular docking and DFT calculation[J].Chemical Physics,2020,530:110641.
[37] MANJUSHREE M,REVANASIDDAPPA H D.Detailed investigation of effects of Zn^2＋,Fe²⁺ and Cu²⁺ metal ions on the binding interaction between eletriptan hydrochloride an anti-migraine headache drug and bovine serum albumin by various spectrometric techniques and molecular docking studies[J].Journal of Molecular Liquids,2017,237:23-37.
[38] 刘里,赵娅娟.三磷酸腺苷二钠和金属离子对洛索洛芬钠与牛血清白蛋白结合的影响[J].曲靖师范学院学报,2024,43(6):1-12. LIU L,ZHAO Y J.The influence of adenosine 3'-triphosphate disodium salt and metal ions on the binding of loxoprofen sodium to bovine serum albumin[J]. Journal of Qujing Normal University,2024,43(6):1-12.(in Chinese)

Study on the Interaction Between Salafloxacin and Bovine Serum Albumin by Spectroscopic Method Combined with Molecular Docking

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