Journal:Protein Science:1

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Structural and functional characterization of the interaction of the photosensitizing probe methylene blue with Torpedo californica acetylcholinesterase

Aviv Paz, Esther Roth, Yacov Ashani, Yechun Xu, Valery L. Shnyrov, Joel L. Sussman, Israel Silman, and Lev Weiner^[1]

Molecular Tour
The photosensitizer, (colored in darkmagenta), generates singlet oxygen that irreversibly inhibits Torpedo californica acetylcholinesterase (TcAChE). In the dark, it inhibits reversibly. The TcAChE active site consists of two binding subsites. One of them is the "catalytic anionic site" (CAS), which involves the catalytic triad (colored in orange) and the conserved residues which also participate in ligand recognition. Another conserved residue (colored in cyan) is situated at the second binding subsite, termed the "peripheral anionic site" (PAS), ~14 Å from CAS. (2j3q) is a good example of the PAS-binding AChE inhibitors. of the structure of known CAS-binding inhibitor edrophonium/TcAChE (2ack) on the thioflavin T/TcAChE complex structure (2j3q) shows that these ^[2] ^[3]. MB is a noncompetitive inhibitor of TcAChE, competing with reversible inhibitors directed at both ‘‘anionic’’ subsites, but a single site is involved in inhibition. The crystal structure reveals a , oriented down the gorge toward the CAS (2w9i); it is plausible that irreversible inhibition is associated with photooxidation of this residue and others within the active-site gorge. Superposition of the PAS regions of the MB/TcAChE (2w9i) and thioflavin T/TcAChE (2j3q) complexes reveals . As the conformation of TcAChE in the crystal structures of the two complexes is practically identical, only that of the MB/TcAChE structure (2w9i) is shown. The kinetic and spectroscopic data showing that inhibitors binding at the CAS can impede binding of MB are reconciled by docking studies showing that the , midway down the gorge, in the MB/TcAChE crystal structure, precludes simultaneous binding of a second MB at the CAS (2nd MB is colored blueviolet, Phe330 of the crystal structure is in orange and Phe330 of the modeled structure is in indigo). Conversely, binding of ligands at the CAS dislodges MB from its preferred locus at the PAS. The data presented demonstrate that TcAChE is a valuable model for understanding the molecular basis of local photooxidative damage.

↑ Paz A, Roth E, Ashani Y, Xu Y, Shnyrov VL, Sussman JL, Silman I, Weiner L. Structural and functional characterization of the interaction of the photosensitizing probe methylene blue with Torpedo californica acetylcholinesterase. Protein Sci. 2012 Jun 1. doi: 10.1002/pro.2101. PMID:22674800 doi:10.1002/pro.2101
↑ Ravelli RB, Raves ML, Ren Z, Bourgeois D, Roth M, Kroon J, Silman I, Sussman JL. Static Laue diffraction studies on acetylcholinesterase. Acta Crystallogr D Biol Crystallogr. 1998 Nov 1;54(Pt 6 Pt 2):1359-66. PMID:10089512
↑ Harel M, Sonoda LK, Silman I, Sussman JL, Rosenberry TL. Crystal structure of thioflavin T bound to the peripheral site of Torpedo californica acetylcholinesterase reveals how thioflavin T acts as a sensitive fluorescent reporter of ligand binding to the acylation site. J Am Chem Soc. 2008 Jun 25;130(25):7856-61. Epub 2008 May 31. PMID:18512913 doi:http://dx.doi.org/10.1021/ja7109822

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@@ Line 1: / Line 1: @@
-<StructureSection load='2W9Ial.pdb' size='500' side='right' scene='Journal:Protein_Science:1/Cv/2' caption=''>
+<StructureSection load='' size='500' side='right' scene='Journal:Protein_Science:1/Cv/2' caption=''>
 === Structural and functional characterization of the interaction of the photosensitizing probe methylene blue with ''Torpedo californica'' acetylcholinesterase ===
 <big>Aviv Paz, Esther Roth, Yacov Ashani, Yechun Xu, Valery L. Shnyrov, Joel L. Sussman, Israel Silman, and Lev Weiner</big><ref >doi 10.1002/pro.2101</ref>
 <hr/>
 <b>Molecular Tour</b><br>
-The photosensitizer, <scene name='Journal:Protein_Science:1/Cv/3'>methylene blue (MB)</scene>, generates singlet oxygen that irreversibly inhibits Torpedo californica acetylcholinesterase (''Tc''AChE). In the dark, it inhibits reversibly.
+The photosensitizer, <scene name='Journal:Protein_Science:1/Cv/3'>methylene blue (MB)</scene> <font color='darkmagenta'><b>(colored in darkmagenta)</b></font>, generates singlet oxygen that irreversibly inhibits Torpedo californica acetylcholinesterase (''Tc''AChE). In the dark, it inhibits reversibly.
-The ''Tc''AChE active site consists of two binding subsites. One of them is the '''"catalytic anionic site" (CAS)''', which involves the catalytic triad <scene name='Journal:Protein_Science:1/Cv/6'>Ser200, His440, and Glu327</scene> <font color='orange'><b>(colored orange)</b></font> and the conserved residues <scene name='Journal:Protein_Science:1/Cv/8'>Trp84 and Phe330</scene> which also participate in ligand recognition. Another conserved residue <scene name='Journal:Protein_Science:1/Cv/9'>Trp279</scene> <font color='cyan'><b>(colored cyan)</b></font> is situated at the second binding subsite, termed the '''"peripheral anionic site" (PAS)''', ~14 Å from CAS. <scene name='Journal:Protein_Science:1/Cv/10'>Thioflavin T</scene> ([[2j3q]]) is a good example of the '''PAS-binding''' AChE inhibitors. <scene name='Journal:Protein_Science:1/Cv/11'>Superposition</scene> of the structure of known '''CAS-binding''' inhibitor <font color='crimson'><b>edrophonium</b></font>/''Tc''AChE  ([[2ack]]) on the <font color='magenta'><b>thioflavin T</b></font>/''Tc''AChE complex structure ([[2j3q]]) shows that these <scene name='Journal:Protein_Science:1/Cv/12'>ligands' positions do not overlap</scene>. Of note is that Phe330, which is part of the CAS, is the single residue interacting with <font color='magenta'><b>thioflavin T</b></font>.  This residue is the only one which significantly <scene name='2j3q/Active_site/9'>changes its conformation</scene> to avoid clashes in comparison to other CAS residues of the <font color='red'><b>edrophonium</b></font>/''Tc''AChE complex <ref name="Ravelli">PMID:10089512</ref> <ref name="Sonoda">PMID:18512913</ref>.
+The ''Tc''AChE active site consists of two binding subsites. One of them is the '''"catalytic anionic site" (CAS)''', which involves the catalytic triad <scene name='Journal:Protein_Science:1/Cv/6'>Ser200, His440, and Glu327</scene> <span style="color:orange;background-color:black;font-weight:bold;">(colored in orange)</span> and the conserved residues <scene name='Journal:Protein_Science:1/Cv/8'>Trp84 and Phe330</scene> which also participate in ligand recognition. Another conserved residue <scene name='Journal:Protein_Science:1/Cv/9'>Trp279</scene> <span style="color:cyan;background-color:black;font-weight:bold;">(colored in cyan)</span> is situated at the second binding subsite, termed the '''"peripheral anionic site" (PAS)''', ~14 Å from CAS. <scene name='Journal:Protein_Science:1/Cv/10'>Thioflavin T</scene> ([[2j3q]]) is a good example of the '''PAS-binding''' AChE inhibitors. <scene name='Journal:Protein_Science:1/Cv/11'>Superposition</scene> of the structure of known '''CAS-binding''' inhibitor <font color='crimson'><b>edrophonium</b></font>/''Tc''AChE  ([[2ack]]) on the <font color='magenta'><b>thioflavin T</b></font>/''Tc''AChE complex structure ([[2j3q]]) shows that these <scene name='Journal:Protein_Science:1/Cv/12'>ligands' positions do not overlap</scene><ref name="Ravelli">PMID:10089512</ref> <ref name="Sonoda">PMID:18512913</ref>.
+MB is a noncompetitive inhibitor of ''Tc''AChE, competing with reversible inhibitors directed at both ‘‘anionic’’ subsites, but a single site is involved in inhibition. The crystal structure reveals a <scene name='Journal:Protein_Science:1/Cv1/2'>single MB stacked against Trp279 in the PAS</scene>, oriented down the gorge toward the CAS ([[2w9i]]); it is plausible that irreversible inhibition is associated with photooxidation of this residue and others within the active-site gorge. Superposition of the '''PAS regions''' of the <font color='darkmagenta'><b>MB</b></font>/''Tc''AChE ([[2w9i]]) and <font color='magenta'><b>thioflavin T</b></font>/''Tc''AChE ([[2j3q]]) complexes reveals <scene name='Journal:Protein_Science:1/Cv1/4'>similarity between positions of these ligands</scene>. As the conformation of ''Tc''AChE in the crystal structures of the two complexes is practically identical, only that of the <font color='darkmagenta'><b>MB</b></font>/''Tc''AChE structure ([[2w9i]]) is shown. The kinetic and spectroscopic data showing that inhibitors binding at the '''CAS''' can impede binding of MB are reconciled by docking studies showing that the <scene name='Journal:Protein_Science:1/Cv2/5'>conformation adopted by Phe330</scene>, midway down the gorge, in the MB/''Tc''AChE crystal structure, precludes simultaneous binding of a second MB at the CAS (<font color='blueviolet'><b>2nd MB is colored blueviolet</b></font>, <span style="color:orange;background-color:black;font-weight:bold;">Phe330 of the crystal structure is in orange</span> and <font color='indigo'><b>Phe330 of the modeled structure is in indigo</b></font>). Conversely, binding of ligands at the '''CAS''' dislodges MB from its preferred locus at the '''PAS'''. The data presented demonstrate that TcAChE is a valuable model for understanding the molecular basis of local photooxidative damage.
+</StructureSection>
 <references/>
 __NOEDITSECTION__

Journal:Protein Science:1

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Structural and functional characterization of the interaction of the photosensitizing probe methylene blue with Torpedo californica acetylcholinesterase

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