The interaction of insulin-degrading enzyme (IDE) with the main intracellular proteasome assemblies (i.e, 30S, 26S and 20S) was analyzed by enzymatic activity, mass spectrometry and native gel electrophoresis. IDE was mainly detected in association with assemblies with at least one free 20S end and biochemical investigations suggest that IDE competes with the 19S in vitro. IDE directly binds the 20S and affects its proteolytic activities in a bimodal fashion, very similar in human and yeast 20S, inhibiting at (IDE) ≤ 30 nM and activating at (IDE) ≥ 30 nM. Only an activating effect is observed in a yeast mutant locked in the "open" conformation (i.e., the α-3ΔN 20S), envisaging a possible role of IDE as modulator of the 20S "open"-"closed" allosteric equilibrium. Protein-protein docking in silico proposes that the interaction between IDE and the 20S could involve the C-term helix of the 20S α-3 subunit which regulates the gate opening of the 20S.

Sbardella, D., Tundo, G.r., Coletta, A., Marcoux, J., Koufogeorgou, E.i., Ciaccio, C., et al. (2018). The insulin-degrading enzyme is an allosteric modulator of the 20S proteasome and a potential competitor of the 19S. CELLULAR AND MOLECULAR LIFE SCIENCES, 75(18), 3441-3456 [10.1007/s00018-018-2807-y].

The insulin-degrading enzyme is an allosteric modulator of the 20S proteasome and a potential competitor of the 19S

Sbardella D.;Tundo G. R.;Ciaccio C.;Cozza P.;Marini S.;Coletta M.
2018-01-01

Abstract

The interaction of insulin-degrading enzyme (IDE) with the main intracellular proteasome assemblies (i.e, 30S, 26S and 20S) was analyzed by enzymatic activity, mass spectrometry and native gel electrophoresis. IDE was mainly detected in association with assemblies with at least one free 20S end and biochemical investigations suggest that IDE competes with the 19S in vitro. IDE directly binds the 20S and affects its proteolytic activities in a bimodal fashion, very similar in human and yeast 20S, inhibiting at (IDE) ≤ 30 nM and activating at (IDE) ≥ 30 nM. Only an activating effect is observed in a yeast mutant locked in the "open" conformation (i.e., the α-3ΔN 20S), envisaging a possible role of IDE as modulator of the 20S "open"-"closed" allosteric equilibrium. Protein-protein docking in silico proposes that the interaction between IDE and the 20S could involve the C-term helix of the 20S α-3 subunit which regulates the gate opening of the 20S.
2018
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/10 - BIOCHIMICA
English
Con Impact Factor ISI
IDE-20S molecular docking; IDE-20S proteasome interaction; Insulin-degrading enzyme; Open-close 20S equilibrium; Allosteric Regulation; Cell Line, Tumor; Chromatography, High Pressure Liquid; HEK293 Cells; Humans; Insulysin; Kinetics; Molecular Docking Simulation; Native Polyacrylamide Gel Electrophoresis; Proteasome Endopeptidase Complex; Protein Binding; Protein Structure, Quaternary; Protein Structure, Tertiary; Tandem Mass Spectrometry; Yeasts
Sbardella, D., Tundo, G.r., Coletta, A., Marcoux, J., Koufogeorgou, E.i., Ciaccio, C., et al. (2018). The insulin-degrading enzyme is an allosteric modulator of the 20S proteasome and a potential competitor of the 19S. CELLULAR AND MOLECULAR LIFE SCIENCES, 75(18), 3441-3456 [10.1007/s00018-018-2807-y].
Sbardella, D; Tundo, Gr; Coletta, A; Marcoux, J; Koufogeorgou, Ei; Ciaccio, C; Santoro, Am; Milardi, D; Grasso, G; Cozza, P; Bousquet-Dubouch, M-; Mar...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/215080
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