spacer
spacer

PDBsum entry 1e7c
Go to PDB code: 
protein ligands links
Plasma protein PDB id
1e7c

 

 

 

 

Loading ...

 
JSmol PyMol  
Contents
Protein chain
582 a.a. *
Ligands
MYR ×5
HLT ×7
Waters ×32
* Residue conservation analysis
PDB id:
1e7c
Name: Plasma protein
Title: Human serum albumin complexed with myristic acid and the general anesthetic halothane
Structure: Serum albumin. Chain: a. Engineered: yes
Source: Homo sapiens. Human. Organism_taxid: 9606. Cellular_location: serum. Gene: alb. Expressed in: saccharomyces cerevisiae. Expression_system_taxid: 4932
Resolution:
2.40Å     R-factor:   0.232     R-free:   0.282
Authors: A.A.Bhattacharya,S.Curry,N.P.Franks
Key ref:
A.A.Bhattacharya et al. (2000). Binding of the general anesthetics propofol and halothane to human serum albumin. High resolution crystal structures. J Biol Chem, 275, 38731-38738. PubMed id: 10940303 DOI: 10.1074/jbc.M005460200
Date:
26-Aug-00     Release date:   17-Jan-01    
PROCHECK
Go to PROCHECK summary
 Headers
 References

Protein chain
P02768  (ALBU_HUMAN) -  Albumin from Homo sapiens
Seq:
Struc: 		 
Seq:
Struc: 		609 a.a.
582 a.a.
Key:    Secondary structure  CATH domain

 

 
DOI no: 10.1074/jbc.M005460200 J Biol Chem 275:38731-38738 (2000)
PubMed id: 10940303  
 
 
Binding of the general anesthetics propofol and halothane to human serum albumin. High resolution crystal structures.
A.A.Bhattacharya, S.Curry, N.P.Franks.
 
  ABSTRACT  
 
Human serum albumin (HSA) is one of the most abundant proteins in the circulatory system and plays a key role in the transport of fatty acids, metabolites, and drugs. For many drugs, binding to serum albumin is a critical determinant of their distribution and pharmacokinetics; however, there have as yet been no high resolution crystal structures published of drug-albumin complexes. Here we describe high resolution crystal structures of HSA with two of the most widely used general anesthetics, propofol and halothane. In addition, we describe a crystal structure of HSA complexed with both halothane and the fatty acid, myristate. We show that the intravenous anesthetic propofol binds at two discrete sites on HSA in preformed pockets that have been shown to accommodate fatty acids. Similarly we show that the inhalational agent halothane binds (at concentrations in the pharmacologically relevant range) at three sites that are also fatty acid binding loci. At much higher halothane concentrations, we have identified additional sites that are occupied. All of the higher affinity anesthetic binding sites are amphiphilic in nature, with both polar and apolar parts, and anesthetic binding causes only minor changes in local structure.
 
  Selected figure(s)  
 
Figure 2.
Fig. 2. The propofol binding sites on HSA. A, HSA with propofol showing the locations of the two propofol binding sites. Site PR1, which is within sub-domain IIIA (B), and site PR2, which is within sub-domain IIIB (C) are shown. The dashed lines represent hydrogen bonds. The difference electron density is an F[o] F[c] omit map calculated at 4 . The amino acid side chains that are close to the propofol molecules are shown as ball and stick models (a complete list is given in Table III). 		Figure 4.
Fig. 4. Details of halothane binding sites. A, halothane binding sites at the interface between subdomains IIA and IIB. B, halothane site in subdomain IIIA. C, halothane sites in subdomain IIA. D, halothane site at the interface between subdomains IA and IIA. The difference electron density is an F[o] F[c] omit map calculated at 4 . Some of the amino acid side chains that are close to the halothane molecules are shown as ball and stick models (a complete list is given in Table IV). Note that in D only 11 of the 14 carbon atoms of myristate are shown because, due to disorder, the terminal carbons were not observed in the electron density map.
 
  The above figures are reprinted by permission from the ASBMB: J Biol Chem (2000, 275, 38731-38738) copyright 2000.  
  Figures were selected by the author.  

Literature references that cite this PDB file's key reference

  PubMed id Reference
20940056 A.J.Ryan, J.Ghuman, P.A.Zunszain, C.W.Chung, and S.Curry (2011).
Structural basis of binding of fluorescent, site-specific dansylated amino acids to human serum albumin.
  J Struct Biol, 174, 84-91.
PDB codes: 2xsi 2xvq 2xvu 2xvv 2xvw 2xw0 2xw1
21384026 A.Lesarri, A.Vega-Toribio, R.D.Suenram, D.J.Brugh, D.Nori-Shargh, J.E.Boggs, and J.U.Grabow (2011).
Structural evidence of anomeric effects in the anesthetic isoflurane.
  Phys Chem Chem Phys, 13, 6610-6618.  
21205199 A.di Masi, F.Gullotta, A.Bolli, G.Fanali, M.Fasano, and P.Ascenzi (2011).
Ibuprofen binding to secondary sites allosterically modulates the spectroscopic and catalytic properties of human serum heme-albumin.
  FEBS J, 278, 654-662.  
21248852 H.Nury, C.Van Renterghem, Y.Weng, A.Tran, M.Baaden, V.Dufresne, J.P.Changeux, J.M.Sonner, M.Delarue, and P.J.Corringer (2011).
X-ray structures of general anaesthetics bound to a pentameric ligand-gated ion channel.
  Nature, 469, 428-431.
PDB codes: 3p4w 3p50
20865291 P.Ascenzi, A.Bolli, A.di Masi, G.R.Tundo, G.Fanali, M.Coletta, and M.Fasano (2011).
Isoniazid and rifampicin inhibit allosterically heme binding to albumin and peroxynitrite isomerization by heme-albumin.
  J Biol Inorg Chem, 16, 97.  
20505891 A.Lesarri, A.Vega-Toribio, R.D.Suenram, D.J.Brugh, and J.U.Grabow (2010).
The conformational landscape of the volatile anesthetic sevoflurane.
  Phys Chem Chem Phys, 12, 9624-9631.  
19319989 A.Varshney, P.Sen, E.Ahmad, M.Rehan, N.Subbarao, and R.H.Khan (2010).
Ligand binding strategies of human serum albumin: how can the cargo be utilized?
  Chirality, 22, 77-87.  
21203591 F.L.Jourd'heuil, A.M.Lowery, E.M.Melton, S.Mnaimneh, N.S.Bryan, B.O.Fernandez, J.H.Park, C.E.Ha, N.V.Bhagavan, M.Feelisch, and D.Jourd'heuil (2010).
Redox-sensitivity and site-specificity of S- and N- denitrosation in proteins.
  PLoS One, 5, e14400.  
20660787 G.Brannigan, D.N.LeBard, J.Hénin, R.G.Eckenhoff, and M.L.Klein (2010).
Multiple binding sites for the general anesthetic isoflurane identified in the nicotinic acetylcholine receptor transmembrane domain.
  Proc Natl Acad Sci U S A, 107, 14122-14127.  
19908072 J.Li, X.Zhu, C.Yang, and R.Shi (2010).
Characterization of the binding of angiotensin II receptor blockers to human serum albumin using docking and molecular dynamics simulation.
  J Mol Model, 16, 789-798.  
20735416 P.L.Chau (2010).
New insights into the molecular mechanisms of general anaesthetics.
  Br J Pharmacol, 161, 288-307.  
19884191 T.Otosu, E.Nishimoto, and S.Yamashita (2010).
Multiple conformational state of human serum albumin around single tryptophan residue at various pH revealed by time-resolved fluorescence spectroscopy.
  J Biochem, 147, 191-200.  
19332643 H.Zhang, N.S.Astrof, J.H.Liu, J.H.Wang, and M.Shimaoka (2009).
Crystal structure of isoflurane bound to integrin LFA-1 supports a unified mechanism of volatile anesthetic action in the immune and central nervous systems.
  FASEB J, 23, 2735-2740.
PDB codes: 3f74 3f78
19605349 L.S.Vedula, G.Brannigan, N.J.Economou, J.Xi, M.A.Hall, R.Liu, M.J.Rossi, W.P.Dailey, K.C.Grasty, M.L.Klein, R.G.Eckenhoff, and P.J.Loll (2009).
A unitary anesthetic binding site at high resolution.
  J Biol Chem, 284, 24176-24184.
PDB codes: 3f32 3f33 3f34 3f35 3f36 3f37 3f38 3f39
19697903 L.T.Liu, D.Willenbring, Y.Xu, and P.Tang (2009).
General anesthetic binding to neuronal alpha4beta2 nicotinic acetylcholine receptor and its effects on global dynamics.
  J Phys Chem B, 113, 12581-12589.  
19734142 P.Ascenzi, A.di Masi, M.Coletta, C.Ciaccio, G.Fanali, F.P.Nicoletti, G.Smulevich, and M.Fasano (2009).
Ibuprofen impairs allosterically peroxynitrite isomerization by ferric human serum heme-albumin.
  J Biol Chem, 284, 31006-31017.  
19946891 P.Ascenzi, and M.Fasano (2009).
Serum heme-albumin: an allosteric protein.
  IUBMB Life, 61, 1118-1122.  
19274657 R.Peters (2009).
Translocation through the nuclear pore: Kaps pave the way.
  Bioessays, 31, 466-477.  
19265398 S.Balaz (2009).
Modeling kinetics of subcellular disposition of chemicals.
  Chem Rev, 109, 1793-1899.  
19745561 S.Curry (2009).
Lessons from the crystallographic analysis of small molecule binding to human serum albumin.
  Drug Metab Pharmacokinet, 24, 342-357.  
19601929 S.Guo, X.Shi, F.Yang, L.Chen, E.J.Meehan, C.Bian, and M.Huang (2009).
Structural basis of transport of lysophospholipids by human serum albumin.
  Biochem J, 423, 23-30.
PDB code: 3cx9
19273853 S.Koutsopoulos, L.D.Unsworth, Y.Nagai, and S.Zhang (2009).
Controlled release of functional proteins through designer self-assembling peptide nanofiber hydrogel scaffold.
  Proc Natl Acad Sci U S A, 106, 4623-4628.  
19745562 V.T.Chuang, T.Maruyama, and M.Otagiri (2009).
Updates on contemporary protein binding techniques.
  Drug Metab Pharmacokinet, 24, 358-364.  
19239717 X.Zhang, L.Chen, X.C.Fei, Y.S.Ma, and H.W.Gao (2009).
Binding of PFOS to serum albumin and DNA: insight into the molecular toxicity of perfluorochemicals.
  BMC Mol Biol, 10, 16.  
19015777 C.Leggio, L.Galantini, and N.V.Pavel (2008).
About the albumin structure in solution: cigar Expanded form versus heart Normal shape.
  Phys Chem Chem Phys, 10, 6741-6750.  
18713896 C.M.Crowder (2008).
Does natural selection explain the universal response of metazoans to volatile anesthetics?
  Anesth Analg, 107, 862-863.  
  19230595 C.Tesseromatis, and A.Alevizou (2008).
The role of the protein-binding on the mode of drug action as well the interactions with other drugs.
  Eur J Drug Metab Pharmacokinet, 33, 225-230.  
17905844 H.W.Gao, Q.Xu, L.Chen, S.L.Wang, Y.Wang, L.L.Wu, and Y.Yuan (2008).
Potential protein toxicity of synthetic pigments: binding of poncean S to human serum albumin.
  Biophys J, 94, 906-917.  
18713898 L.Yang, and J.M.Sonner (2008).
Anesthetic-like modulation of receptor function by surfactants: a test of the interfacial theory of anesthesia.
  Anesth Analg, 107, 868-874.  
18425091 N.P.Franks (2008).
General anaesthesia: from molecular targets to neuronal pathways of sleep and arousal.
  Nat Rev Neurosci, 9, 370-386.  
18602119 P.A.Zunszain, J.Ghuman, A.F.McDonagh, and S.Curry (2008).
Crystallographic analysis of human serum albumin complexed with 4Z,15E-bilirubin-IXalpha.
  J Mol Biol, 381, 394-406.
PDB codes: 2vue 2vuf
18449184 R.Eckenhoff, W.Zheng, and M.Kelz (2008).
From anesthetic mechanisms research to drug discovery.
  Clin Pharmacol Ther, 84, 144-148.  
18713895 R.G.Eckenhoff (2008).
Why can all of biology be anesthetized?
  Anesth Analg, 107, 859-861.  
  18259051 S.Lejon, J.F.Cramer, and P.Nordberg (2008).
Structural basis for the binding of naproxen to human serum albumin in the presence of fatty acids and the GA module.
  Acta Crystallogr Sect F Struct Biol Cryst Commun, 64, 64-69.
PDB code: 2vdb
18806031 T.Seto, H.Isogai, M.Ozaki, and S.Nosaka (2008).
Noble gas binding to human serum albumin using docking simulation: nonimmobilizers and anesthetics bind to different sites.
  Anesth Analg, 107, 1223-1228.  
17939020 X.Xu, L.Zhang, D.Shen, H.Wu, and Q.Liu (2008).
Oxygen-dependent oxidation of Fe(II) to Fe(III) and interaction of Fe(III) with bovine serum albumin, leading to a hysteretic effect on the fluorescence of bovine serum albumin.
  J Fluoresc, 18, 193-201.  
17242087 E.J.Bertaccini, J.R.Trudell, and N.P.Franks (2007).
The common chemical motifs within anesthetic binding sites.
  Anesth Analg, 104, 318-324.  
17725715 G.Fanali, A.Bocedi, P.Ascenzi, and M.Fasano (2007).
Modulation of heme and myristate binding to human serum albumin by anti-HIV drugs. An optical and NMR spectroscopic study.
  FEBS J, 274, 4491-4502.  
18073542 H.C.Hemmings (2007).
Noble meets nouveau: a shared anesthetic binding site for xenon and isoflurane on a glutamate receptor.
  Anesthesiology, 107, 694-696.  
17226922 Y.Zhang, V.Lukacova, V.Bartus, and S.Balaz (2007).
Structural determinants of binding of aromates to extracellular matrix: a multi-species multi-mode CoMFA study.
  Chem Res Toxicol, 20, 11-19.  
16750385 A.Temple, T.Y.Yen, and S.Gronert (2006).
Identification of specific protein carbonylation sites in model oxidations of human serum albumin.
  J Am Soc Mass Spectrom, 17, 1172-1180.  
16492826 J.C.Sewell, and J.W.Sear (2006).
Determinants of volatile general anesthetic potency: a preliminary three-dimensional pharmacophore for halogenated anesthetics.
  Anesth Analg, 102, 764-771.  
16877516 J.H.Streiff, T.W.Allen, E.Atanasova, N.Juranic, S.Macura, A.R.Penheiter, and K.A.Jones (2006).
Prediction of volatile anesthetic binding sites in proteins.
  Biophys J, 91, 3405-3414.  
16689933 M.Oda, S.Uchiyama, C.V.Robinson, K.Fukui, Y.Kobayashi, and T.Azuma (2006).
Regional and segmental flexibility of antibodies in interaction with antigens of different size.
  FEBS J, 273, 1476-1487.  
16861279 N.El Kadi, N.Taulier, J.Y.Le Huérou, M.Gindre, W.Urbach, I.Nwigwe, P.C.Kahn, and M.Waks (2006).
Unfolding and refolding of bovine serum albumin at acid pH: ultrasound and structural studies.
  Biophys J, 91, 3397-3404.  
16402123 N.P.Franks (2006).
Molecular targets underlying general anaesthesia.
  Br J Pharmacol, 147, S72-S81.  
16807784 P.K.Mandal, J.W.Pettegrew, D.W.McKeag, and R.Mandal (2006).
Alzheimer's disease: halothane induces Abeta peptide to oligomeric form--solution NMR studies.
  Neurochem Res, 31, 883-890.  
16443167 P.Salavej, H.Spalteholz, and J.Arnhold (2006).
Modification of amino acid residues in human serum albumin by myeloperoxidase.
  Free Radic Biol Med, 40, 516-525.  
16871075 S.R.Hameroff (2006).
The entwined mysteries of anesthesia and consciousness: is there a common underlying mechanism?
  Anesthesiology, 105, 400-412.  
16432913 V.T.Chuang, and M.Otagiri (2006).
Stereoselective binding of human serum albumin.
  Chirality, 18, 159-166.  
16336266 A.Bocedi, S.Notari, E.Menegatti, G.Fanali, M.Fasano, and P.Ascenzi (2005).
Allosteric modulation of anti-HIV drug and ferric heme binding to human serum albumin.
  FEBS J, 272, 6287-6296.  
17192019 F.Zsila, P.Molnár, and J.Deli (2005).
Analysis of binding interaction between the natural apocarotenoid bixin and human serum albumin by circular dichroism and fluorescence spectroscopy.
  Chem Biodivers, 2, 758-772.  
16156788 G.Fanali, R.Fesce, C.Agrati, P.Ascenzi, and M.Fasano (2005).
Allosteric modulation of myristate and Mn(III)heme binding to human serum albumin. Optical and NMR spectroscopy characterization.
  FEBS J, 272, 4672-4683.  
16267692 J.Liu, L.Yang, Y.Li, D.Pan, and A.J.Hopfinger (2005).
Prediction of plasma protein binding of drugs using Kier-Hall valence connectivity indices and 4D-fingerprint molecular similarity analyses.
  J Comput Aided Mol Des, 19, 567-583.  
15654894 J.S.Johansson, G.A.Manderson, R.Ramoni, S.Grolli, and R.G.Eckenhoff (2005).
Binding of the volatile general anesthetics halothane and isoflurane to a mammalian beta-barrel protein.
  FEBS J, 272, 573-581.  
16272748 M.Otagiri (2005).
A molecular functional study on the interactions of drugs with plasma proteins.
  Drug Metab Pharmacokinet, 20, 309-323.  
16192769 P.Nagele, J.B.Mendel, W.J.Placzek, B.A.Scott, D.A.D'Avignon, and C.M.Crowder (2005).
Volatile anesthetics bind rat synaptic snare proteins.
  Anesthesiology, 103, 768-778.  
15791110 R.Liu, and R.G.Eckenhoff (2005).
Weak polar interactions confer albumin binding site selectivity for haloether anesthetics.
  Anesthesiology, 102, 799-805.  
15706608 Y.Nishiyama, Y.Mitsuda, H.Taguchi, S.Planque, M.Hara, S.Karle, C.V.Hanson, T.Uda, and S.Paul (2005).
Broadly distributed nucleophilic reactivity of proteins coordinated with specific ligand binding activity.
  J Mol Recognit, 18, 295-306.  
15764669 Z.Liu, Y.Xu, and P.Tang (2005).
Molecular dynamics simulations of C2F6 effects on gramicidin A: implications of the mechanisms of general anesthesia.
  Biophys J, 88, 3784-3791.  
15524207 K.Shikii, S.Sakurai, H.Utsumi, H.Seki, and M.Tashiro (2004).
Application of the 19F NMR technique to observe binding of the general anesthetic halothane to human serum albumin.
  Anal Sci, 20, 1475-1477.  
12598656 A.J.Stewart, C.A.Blindauer, S.Berezenko, D.Sleep, and P.J.Sadler (2003).
Interdomain zinc site on human albumin.
  Proc Natl Acad Sci U S A, 100, 3701-3706.  
12547801 E.Saridakis, and N.E.Chayen (2003).
Systematic improvement of protein crystals by determining the supersolubility curves of phase diagrams.
  Biophys J, 84, 1218-1222.  
12647311 G.Colmenarejo (2003).
In silico prediction of drug-binding strengths to human serum albumin.
  Med Res Rev, 23, 275-301.  
12743361 I.Petitpas, C.E.Petersen, C.E.Ha, A.A.Bhattacharya, P.A.Zunszain, J.Ghuman, N.V.Bhagavan, and S.Curry (2003).
Structural basis of albumin-thyroxine interactions and familial dysalbuminemic hyperthyroxinemia.
  Proc Natl Acad Sci U S A, 100, 6440-6445.
PDB codes: 1hk1 1hk2 1hk3 1hk4 1hk5
12552204 K.B.Ohlson, S.G.Lindahl, B.Cannon, and J.Nedergaard (2003).
Thermogenesis inhibition in brown adipocytes is a specific property of volatile anesthetics.
  Anesthesiology, 98, 437-448.  
12524292 M.S.Abreu, L.M.Estronca, M.J.Moreno, and W.L.Vaz (2003).
Binding of a fluorescent lipid amphiphile to albumin and its transfer to lipid bilayer membranes.
  Biophys J, 84, 386-399.  
12846933 P.A.Zunszain, J.Ghuman, T.Komatsu, E.Tsuchida, and S.Curry (2003).
Crystal structural analysis of human serum albumin complexed with hemin and fatty acid.
  BMC Struct Biol, 3, 6.
PDB code: 1o9x
12202367 P.Tang, P.K.Mandal, and M.Zegarra (2002).
Effects of volatile anesthetic on channel structure of gramicidin A.
  Biophys J, 83, 1413-1420.  
  12617161 S.Curry (2002).
Beyond expansion: structural studies on the transport roles of human serum albumin.
  Vox Sang, 83, 315-319.  
12081132 U.Kragh-Hansen, V.T.Chuang, and M.Otagiri (2002).
Practical aspects of the ligand-binding and enzymatic properties of human serum albumin.
  Biol Pharm Bull, 25, 695-704.  
11506136 J.S.Johansson, and H.Zou (2001).
Nonanesthetics (nonimmobilizers) and anesthetics display different microenvironment preferences.
  Anesthesiology, 95, 558-561.  
11747900 M.D.Krasowski, K.Nishikawa, N.Nikolaeva, A.Lin, and N.L.Harrison (2001).
Methionine 286 in transmembrane domain 3 of the GABAA receptor beta subunit controls a binding cavity for propofol and other alkylphenol general anesthetics.
  Neuropharmacology, 41, 952-964.  
11733017 S.Baroni, M.Mattu, A.Vannini, R.Cipollone, S.Aime, P.Ascenzi, and M.Fasano (2001).
Effect of ibuprofen and warfarin on the allosteric properties of haem-human serum albumin. A spectroscopic study.
  Eur J Biochem, 268, 6214-6220.  
The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB codes are shown on the right.

 

spacer
spacer