Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner

Alice Coletti; Elisa Bianconi; Sofia Rossini; Alessandra Altomare; Andrea Butticè; Daniele Mazzoletti; Giada Mondanelli; Andrea Carotti; Giancarlo Aldini; Riccardo Miggiano; Ciriana Orabona; Joshua Salafsky; Antonio Macchiarulo

doi:10.1038/s42004-025-01648-2

Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner

Alice Coletti
, Elisa Bianconi
, Sofia Rossini
, Alessandra Altomare
, Andrea Butticè
, Daniele Mazzoletti
, Giada Mondanelli
, Andrea Carotti
, Giancarlo Aldini
, Riccardo Miggiano
, Ciriana Orabona
, Joshua Salafsky
, Antonio Macchiarulo

Department of Pharmaceutical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Indoleamine 2,3-dioxygenase 1 (IDO1) is a moonlight protein endowed with catalytic and signaling functions. It plays a pivotal role in the immune breaking mechanism leading to immunosuppression in cancer microenvironment. Intense research efforts have been devoted to designing catalytic inhibitors for developing immunotherapies, yet neglecting the enzyme’s signaling function. A few IDO1 inhibitors have reached the clinical stage, including navoximod, epacadostat and linrodostat. Using second harmonic generation analysis (SHG) and molecular dynamics simulations, here we show that these clinical inhibitors can induce distinct allosteric motions in the enzyme that affect the stability of the transient signaling complex between IDO1 and Src tyrosine kinase. Next generation sequencing demonstrates that, despite sharing a similar ability to inhibit the enzyme’s catalytic function, all three catalytic inhibitors modulate the IDO1’s signaling function in different ways, regulating distinct transcriptomes in SKOV3 cells. (Figure presented.)

Original language	English
Article number	277
Journal	Communications Chemistry
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s42004-025-01648-2
Publication status	Published - Dec 2025

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10.1038/s42004-025-01648-2

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Coletti, A., Bianconi, E., Rossini, S., Altomare, A., Butticè, A., Mazzoletti, D., Mondanelli, G., Carotti, A., Aldini, G., Miggiano, R., Orabona, C., Salafsky, J., & Macchiarulo, A. (2025). Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner. Communications Chemistry, 8(1), Article 277. https://doi.org/10.1038/s42004-025-01648-2

@article{bc187cb85c7d434d90ed4d89b7388b5f,

title = "Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner",

abstract = "Indoleamine 2,3-dioxygenase 1 (IDO1) is a moonlight protein endowed with catalytic and signaling functions. It plays a pivotal role in the immune breaking mechanism leading to immunosuppression in cancer microenvironment. Intense research efforts have been devoted to designing catalytic inhibitors for developing immunotherapies, yet neglecting the enzyme{\textquoteright}s signaling function. A few IDO1 inhibitors have reached the clinical stage, including navoximod, epacadostat and linrodostat. Using second harmonic generation analysis (SHG) and molecular dynamics simulations, here we show that these clinical inhibitors can induce distinct allosteric motions in the enzyme that affect the stability of the transient signaling complex between IDO1 and Src tyrosine kinase. Next generation sequencing demonstrates that, despite sharing a similar ability to inhibit the enzyme{\textquoteright}s catalytic function, all three catalytic inhibitors modulate the IDO1{\textquoteright}s signaling function in different ways, regulating distinct transcriptomes in SKOV3 cells. (Figure presented.)",

author = "Alice Coletti and Elisa Bianconi and Sofia Rossini and Alessandra Altomare and Andrea Buttic{\`e} and Daniele Mazzoletti and Giada Mondanelli and Andrea Carotti and Giancarlo Aldini and Riccardo Miggiano and Ciriana Orabona and Joshua Salafsky and Antonio Macchiarulo",

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doi = "10.1038/s42004-025-01648-2",

language = "English",

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Coletti, A, Bianconi, E, Rossini, S, Altomare, A, Butticè, A, Mazzoletti, D, Mondanelli, G, Carotti, A, Aldini, G, Miggiano, R, Orabona, C, Salafsky, J & Macchiarulo, A 2025, 'Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner', Communications Chemistry, vol. 8, no. 1, 277. https://doi.org/10.1038/s42004-025-01648-2

TY - JOUR

T1 - Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner

AU - Coletti, Alice

AU - Bianconi, Elisa

AU - Rossini, Sofia

AU - Altomare, Alessandra

AU - Butticè, Andrea

AU - Mazzoletti, Daniele

AU - Mondanelli, Giada

AU - Carotti, Andrea

AU - Aldini, Giancarlo

AU - Miggiano, Riccardo

AU - Orabona, Ciriana

AU - Salafsky, Joshua

AU - Macchiarulo, Antonio

PY - 2025/12

Y1 - 2025/12

N2 - Indoleamine 2,3-dioxygenase 1 (IDO1) is a moonlight protein endowed with catalytic and signaling functions. It plays a pivotal role in the immune breaking mechanism leading to immunosuppression in cancer microenvironment. Intense research efforts have been devoted to designing catalytic inhibitors for developing immunotherapies, yet neglecting the enzyme’s signaling function. A few IDO1 inhibitors have reached the clinical stage, including navoximod, epacadostat and linrodostat. Using second harmonic generation analysis (SHG) and molecular dynamics simulations, here we show that these clinical inhibitors can induce distinct allosteric motions in the enzyme that affect the stability of the transient signaling complex between IDO1 and Src tyrosine kinase. Next generation sequencing demonstrates that, despite sharing a similar ability to inhibit the enzyme’s catalytic function, all three catalytic inhibitors modulate the IDO1’s signaling function in different ways, regulating distinct transcriptomes in SKOV3 cells. (Figure presented.)

AB - Indoleamine 2,3-dioxygenase 1 (IDO1) is a moonlight protein endowed with catalytic and signaling functions. It plays a pivotal role in the immune breaking mechanism leading to immunosuppression in cancer microenvironment. Intense research efforts have been devoted to designing catalytic inhibitors for developing immunotherapies, yet neglecting the enzyme’s signaling function. A few IDO1 inhibitors have reached the clinical stage, including navoximod, epacadostat and linrodostat. Using second harmonic generation analysis (SHG) and molecular dynamics simulations, here we show that these clinical inhibitors can induce distinct allosteric motions in the enzyme that affect the stability of the transient signaling complex between IDO1 and Src tyrosine kinase. Next generation sequencing demonstrates that, despite sharing a similar ability to inhibit the enzyme’s catalytic function, all three catalytic inhibitors modulate the IDO1’s signaling function in different ways, regulating distinct transcriptomes in SKOV3 cells. (Figure presented.)

UR - https://www.scopus.com/pages/publications/105017144148

U2 - 10.1038/s42004-025-01648-2

DO - 10.1038/s42004-025-01648-2

M3 - Article

SN - 2399-3669

VL - 8

JO - Communications Chemistry

JF - Communications Chemistry

IS - 1

M1 - 277

ER -

Ligand-induced conformations and dynamic allosteric motions of IDO1 affecting the recruitment of a protein signaling partner

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