Mapping the Suramin-Binding Sites of Human Neutrophil Elastase:  Investigation by Fluorescence Resonance Energy Transfer and Molecular Modeling

Neutrophil elastase (NE), a mediator of inflammation, binds with high affinity numerous anionic molecules including suramin, a polysulfated naphthylurea, which inhibits it with a K i of 0.2 μM and a 4:1 suramin:NE stoichiometry and thus constitutes a potential therapeutic agent. In an attempt to loc...

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Published in:Biochemistry (Easton) 1997-12, Vol.36 (50), p.15624-15631
Main Authors: Mély, Yves, Cadène, Martine, Sylte, Ingebrigt, Bieth, Joseph G
Format: Article
Language:English
Subjects:
Acrylamide
Acrylamides - pharmacology
Amino Acid Chloromethyl Ketones - pharmacology
Binding Sites
Energy Transfer
Enzyme Inhibitors - pharmacology
Humans
Iodides - pharmacology
Kinetics
Leukocyte Elastase - chemistry
Leukocyte Elastase - metabolism
Life Sciences
Models, Molecular
Neutrophils - enzymology
Protein Binding
Protein Conformation
Spectrometry, Fluorescence
Spectrophotometry
Suramin - metabolism
Suramin - pharmacology
Tryptophan - chemistry
Tryptophan - metabolism
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cited_by cdi_FETCH-LOGICAL-a448t-149498cdba59eebec3dec29899699e1e73b955e87868132a2de5c126f67bdfa83
cites cdi_FETCH-LOGICAL-a448t-149498cdba59eebec3dec29899699e1e73b955e87868132a2de5c126f67bdfa83
container_end_page 15631
container_issue 50
container_start_page 15624
container_title Biochemistry (Easton)
container_volume 36
creator Mély, Yves
Cadène, Martine
Sylte, Ingebrigt
Bieth, Joseph G
description Neutrophil elastase (NE), a mediator of inflammation, binds with high affinity numerous anionic molecules including suramin, a polysulfated naphthylurea, which inhibits it with a K i of 0.2 μM and a 4:1 suramin:NE stoichiometry and thus constitutes a potential therapeutic agent. In an attempt to locate the suramin molecules on NE, we investigated the NE−suramin interaction using steady-state and time-resolved fluorescence spectroscopy. The time-resolved intensity decay of NE, a protein with three Trp residues, in positions 27, 141, and 237 (chymotrypsin numbering system) was best described by a three-exponential function with lifetimes ranging from 0.22 to 2.28 ns. Comparison of the accessibility of the three lifetime classes to the fluorescence quenchers acrylamide and iodide with the computed solvent accessibility of the three Trp residues in the crystal structure of NE indicates that the main, if not the sole, contribution to the 2.28 ns lifetime class is brought about by the fully buried Trp 141 residue. The addition of suramin to NE induces a sharp decrease in NE fluorescence and a corresponding increase in suramin fluorescence due to an efficient fluorescence resonance energy transfer (FRET) between the Trp residues of NE, acting as donors, and the naphthalene rings of suramin, behaving as acceptors. From the fate of the longest lifetime class in the presence of variable suramin concentrations, we deduce that two suramins are bound at less than 17 Å from Trp 141, whereas the two others are located at least 29 Å from Trp 141. Moreover, neither the binding of suramin to NE nor the FRET process was modified when NE was complexed with a peptide chloromethylketone inhibitor, suggesting that suramin does not directly interfere with the substrate binding site of NE. These data were used as constraints to model the NE−suramin complex.
doi_str_mv 10.1021/bi971029r
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In an attempt to locate the suramin molecules on NE, we investigated the NE−suramin interaction using steady-state and time-resolved fluorescence spectroscopy. The time-resolved intensity decay of NE, a protein with three Trp residues, in positions 27, 141, and 237 (chymotrypsin numbering system) was best described by a three-exponential function with lifetimes ranging from 0.22 to 2.28 ns. Comparison of the accessibility of the three lifetime classes to the fluorescence quenchers acrylamide and iodide with the computed solvent accessibility of the three Trp residues in the crystal structure of NE indicates that the main, if not the sole, contribution to the 2.28 ns lifetime class is brought about by the fully buried Trp 141 residue. The addition of suramin to NE induces a sharp decrease in NE fluorescence and a corresponding increase in suramin fluorescence due to an efficient fluorescence resonance energy transfer (FRET) between the Trp residues of NE, acting as donors, and the naphthalene rings of suramin, behaving as acceptors. From the fate of the longest lifetime class in the presence of variable suramin concentrations, we deduce that two suramins are bound at less than 17 Å from Trp 141, whereas the two others are located at least 29 Å from Trp 141. Moreover, neither the binding of suramin to NE nor the FRET process was modified when NE was complexed with a peptide chloromethylketone inhibitor, suggesting that suramin does not directly interfere with the substrate binding site of NE. 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In an attempt to locate the suramin molecules on NE, we investigated the NE−suramin interaction using steady-state and time-resolved fluorescence spectroscopy. The time-resolved intensity decay of NE, a protein with three Trp residues, in positions 27, 141, and 237 (chymotrypsin numbering system) was best described by a three-exponential function with lifetimes ranging from 0.22 to 2.28 ns. Comparison of the accessibility of the three lifetime classes to the fluorescence quenchers acrylamide and iodide with the computed solvent accessibility of the three Trp residues in the crystal structure of NE indicates that the main, if not the sole, contribution to the 2.28 ns lifetime class is brought about by the fully buried Trp 141 residue. The addition of suramin to NE induces a sharp decrease in NE fluorescence and a corresponding increase in suramin fluorescence due to an efficient fluorescence resonance energy transfer (FRET) between the Trp residues of NE, acting as donors, and the naphthalene rings of suramin, behaving as acceptors. From the fate of the longest lifetime class in the presence of variable suramin concentrations, we deduce that two suramins are bound at less than 17 Å from Trp 141, whereas the two others are located at least 29 Å from Trp 141. Moreover, neither the binding of suramin to NE nor the FRET process was modified when NE was complexed with a peptide chloromethylketone inhibitor, suggesting that suramin does not directly interfere with the substrate binding site of NE. 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In an attempt to locate the suramin molecules on NE, we investigated the NE−suramin interaction using steady-state and time-resolved fluorescence spectroscopy. The time-resolved intensity decay of NE, a protein with three Trp residues, in positions 27, 141, and 237 (chymotrypsin numbering system) was best described by a three-exponential function with lifetimes ranging from 0.22 to 2.28 ns. Comparison of the accessibility of the three lifetime classes to the fluorescence quenchers acrylamide and iodide with the computed solvent accessibility of the three Trp residues in the crystal structure of NE indicates that the main, if not the sole, contribution to the 2.28 ns lifetime class is brought about by the fully buried Trp 141 residue. The addition of suramin to NE induces a sharp decrease in NE fluorescence and a corresponding increase in suramin fluorescence due to an efficient fluorescence resonance energy transfer (FRET) between the Trp residues of NE, acting as donors, and the naphthalene rings of suramin, behaving as acceptors. From the fate of the longest lifetime class in the presence of variable suramin concentrations, we deduce that two suramins are bound at less than 17 Å from Trp 141, whereas the two others are located at least 29 Å from Trp 141. Moreover, neither the binding of suramin to NE nor the FRET process was modified when NE was complexed with a peptide chloromethylketone inhibitor, suggesting that suramin does not directly interfere with the substrate binding site of NE. 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ispartof Biochemistry (Easton), 1997-12, Vol.36 (50), p.15624-15631
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1520-4995
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recordid cdi_hal_primary_oai_HAL_hal_02150389v1
source American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects Acrylamide
Acrylamides - pharmacology
Amino Acid Chloromethyl Ketones - pharmacology
Binding Sites
Energy Transfer
Enzyme Inhibitors - pharmacology
Humans
Iodides - pharmacology
Kinetics
Leukocyte Elastase - chemistry
Leukocyte Elastase - metabolism
Life Sciences
Models, Molecular
Neutrophils - enzymology
Protein Binding
Protein Conformation
Spectrometry, Fluorescence
Spectrophotometry
Suramin - metabolism
Suramin - pharmacology
Tryptophan - chemistry
Tryptophan - metabolism
title Mapping the Suramin-Binding Sites of Human Neutrophil Elastase:  Investigation by Fluorescence Resonance Energy Transfer and Molecular Modeling
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