Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach

Antonio Cuadrado; Gina Manda; Ahmed Hassan; Maria Alcaraz; Coral Barbas; Andreas Daiber; Pietro Ghezzi; Rafael Leon; Manuela G. Lopez; Baldo Oliva; Marta Pajares; Ana I. Rojo; Natalia Robledinos-Anton; Angela M. Valverde; Emre Guney; Harald H. H. W. Schmidt

doi:10.1124/pr.117.014753

Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach

Antonio Cuadrado^*, Gina Manda, Ahmed Hassan, Maria Alcaraz, Coral Barbas, Andreas Daiber, Pietro Ghezzi, Rafael Leon, Manuela G. Lopez, Baldo Oliva, Marta Pajares, Ana I. Rojo, Natalia Robledinos-Anton, Angela M. Valverde, Emre Guney^*, Harald H. H. W. Schmidt

^*Corresponding author for this work

Pharmacology and Personalised Medicine

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

Systems medicine has a mechanism-based rather than a symptom-or organ-basedapproach to disease and identifies therapeutic targets in a nonhypothesis-driven manner. In this work, we apply this to transcription factor nuclear factor (erythroid-derived 2)-like 2 (NRF2) by cross-validating its position in a protein-protein interaction network (the NRF2 interactome) functionally linked to cytoprotection in low-grade stress, chronic inflammation, metabolic alterations, and reactive oxygen species formation. Multiscale network analysis of these molecular profiles suggests alterations of NRF2 expression and activity as a common mechanism in a subnetwork of diseases (the NRF2 diseasome). This network joins apparently heterogeneous phenotypes such as autoimmune, respiratory, digestive, cardiovascular, metabolic, and neurodegenerative diseases, along with cancer. Importantly, this approach matches and confirms in silico several applications for NRF2-modulating drugs validated in vivo at different phases of clinical development. Pharmacologically, their profile is as diverse as electrophilic dimethyl fumarate, synthetic triterpenoids like bardoxolone methyl and sulforaphane, protein-protein or DNA-protein interaction inhibitors, and even registered drugs such as metformin and statins, which activate NRF2 and may be repurposed for indications within the NRF2 cluster of disease phenotypes. Thus, NRF2 represents one of the first targets fully embraced by classic and systems medicine approaches to facilitate both drug development and drug repurposing by focusing on a set of disease phenotypes that appear to be mechanistically linked. The resulting NRF2 drugome may therefore rapidly advance several surprising clinical options for this subset of chronic diseases.

Original language	English
Pages (from-to)	348-383
Number of pages	36
Journal	Pharmacological Reviews
Volume	70
Issue number	2
DOIs	https://doi.org/10.1124/pr.117.014753
Publication status	Published - 1 Apr 2018

Keywords

NF-KAPPA-B
PROTEIN-PROTEIN INTERACTION
FUMARIC-ACID ESTERS
EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS
TYPE-2 DIABETES-MELLITUS
GLYCOGEN-SYNTHASE KINASE
TUMOR-SUPPRESSOR PTEN
HEME OXYGENASE 1
GENE PROMOTER POLYMORPHISM
PLACEBO-CONTROLLED PHASE-3

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Cite this

Cuadrado, A., Manda, G., Hassan, A., Alcaraz, M., Barbas, C., Daiber, A., Ghezzi, P., Leon, R., Lopez, M. G., Oliva, B., Pajares, M., Rojo, A. I., Robledinos-Anton, N., Valverde, A. M., Guney, E., & Schmidt, H. H. H. W. (2018). Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach. Pharmacological Reviews, 70(2), 348-383. https://doi.org/10.1124/pr.117.014753

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title = "Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach",

abstract = "Systems medicine has a mechanism-based rather than a symptom-or organ-basedapproach to disease and identifies therapeutic targets in a nonhypothesis-driven manner. In this work, we apply this to transcription factor nuclear factor (erythroid-derived 2)-like 2 (NRF2) by cross-validating its position in a protein-protein interaction network (the NRF2 interactome) functionally linked to cytoprotection in low-grade stress, chronic inflammation, metabolic alterations, and reactive oxygen species formation. Multiscale network analysis of these molecular profiles suggests alterations of NRF2 expression and activity as a common mechanism in a subnetwork of diseases (the NRF2 diseasome). This network joins apparently heterogeneous phenotypes such as autoimmune, respiratory, digestive, cardiovascular, metabolic, and neurodegenerative diseases, along with cancer. Importantly, this approach matches and confirms in silico several applications for NRF2-modulating drugs validated in vivo at different phases of clinical development. Pharmacologically, their profile is as diverse as electrophilic dimethyl fumarate, synthetic triterpenoids like bardoxolone methyl and sulforaphane, protein-protein or DNA-protein interaction inhibitors, and even registered drugs such as metformin and statins, which activate NRF2 and may be repurposed for indications within the NRF2 cluster of disease phenotypes. Thus, NRF2 represents one of the first targets fully embraced by classic and systems medicine approaches to facilitate both drug development and drug repurposing by focusing on a set of disease phenotypes that appear to be mechanistically linked. The resulting NRF2 drugome may therefore rapidly advance several surprising clinical options for this subset of chronic diseases.",

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author = "Antonio Cuadrado and Gina Manda and Ahmed Hassan and Maria Alcaraz and Coral Barbas and Andreas Daiber and Pietro Ghezzi and Rafael Leon and Lopez, {Manuela G.} and Baldo Oliva and Marta Pajares and Rojo, {Ana I.} and Natalia Robledinos-Anton and Valverde, {Angela M.} and Emre Guney and Schmidt, {Harald H. H. W.}",

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Cuadrado, A, Manda, G, Hassan, A, Alcaraz, M, Barbas, C, Daiber, A, Ghezzi, P, Leon, R, Lopez, MG, Oliva, B, Pajares, M, Rojo, AI, Robledinos-Anton, N, Valverde, AM, Guney, E & Schmidt, HHHW 2018, 'Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach', Pharmacological Reviews, vol. 70, no. 2, pp. 348-383. https://doi.org/10.1124/pr.117.014753

TY - JOUR

T1 - Transcription Factor NRF2 as a Therapeutic Target for Chronic Diseases: A Systems Medicine Approach

AU - Cuadrado, Antonio

AU - Manda, Gina

AU - Hassan, Ahmed

AU - Alcaraz, Maria

AU - Barbas, Coral

AU - Daiber, Andreas

AU - Ghezzi, Pietro

AU - Leon, Rafael

AU - Lopez, Manuela G.

AU - Oliva, Baldo

AU - Pajares, Marta

AU - Rojo, Ana I.

AU - Robledinos-Anton, Natalia

AU - Valverde, Angela M.

AU - Guney, Emre

AU - Schmidt, Harald H. H. W.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Systems medicine has a mechanism-based rather than a symptom-or organ-basedapproach to disease and identifies therapeutic targets in a nonhypothesis-driven manner. In this work, we apply this to transcription factor nuclear factor (erythroid-derived 2)-like 2 (NRF2) by cross-validating its position in a protein-protein interaction network (the NRF2 interactome) functionally linked to cytoprotection in low-grade stress, chronic inflammation, metabolic alterations, and reactive oxygen species formation. Multiscale network analysis of these molecular profiles suggests alterations of NRF2 expression and activity as a common mechanism in a subnetwork of diseases (the NRF2 diseasome). This network joins apparently heterogeneous phenotypes such as autoimmune, respiratory, digestive, cardiovascular, metabolic, and neurodegenerative diseases, along with cancer. Importantly, this approach matches and confirms in silico several applications for NRF2-modulating drugs validated in vivo at different phases of clinical development. Pharmacologically, their profile is as diverse as electrophilic dimethyl fumarate, synthetic triterpenoids like bardoxolone methyl and sulforaphane, protein-protein or DNA-protein interaction inhibitors, and even registered drugs such as metformin and statins, which activate NRF2 and may be repurposed for indications within the NRF2 cluster of disease phenotypes. Thus, NRF2 represents one of the first targets fully embraced by classic and systems medicine approaches to facilitate both drug development and drug repurposing by focusing on a set of disease phenotypes that appear to be mechanistically linked. The resulting NRF2 drugome may therefore rapidly advance several surprising clinical options for this subset of chronic diseases.

AB - Systems medicine has a mechanism-based rather than a symptom-or organ-basedapproach to disease and identifies therapeutic targets in a nonhypothesis-driven manner. In this work, we apply this to transcription factor nuclear factor (erythroid-derived 2)-like 2 (NRF2) by cross-validating its position in a protein-protein interaction network (the NRF2 interactome) functionally linked to cytoprotection in low-grade stress, chronic inflammation, metabolic alterations, and reactive oxygen species formation. Multiscale network analysis of these molecular profiles suggests alterations of NRF2 expression and activity as a common mechanism in a subnetwork of diseases (the NRF2 diseasome). This network joins apparently heterogeneous phenotypes such as autoimmune, respiratory, digestive, cardiovascular, metabolic, and neurodegenerative diseases, along with cancer. Importantly, this approach matches and confirms in silico several applications for NRF2-modulating drugs validated in vivo at different phases of clinical development. Pharmacologically, their profile is as diverse as electrophilic dimethyl fumarate, synthetic triterpenoids like bardoxolone methyl and sulforaphane, protein-protein or DNA-protein interaction inhibitors, and even registered drugs such as metformin and statins, which activate NRF2 and may be repurposed for indications within the NRF2 cluster of disease phenotypes. Thus, NRF2 represents one of the first targets fully embraced by classic and systems medicine approaches to facilitate both drug development and drug repurposing by focusing on a set of disease phenotypes that appear to be mechanistically linked. The resulting NRF2 drugome may therefore rapidly advance several surprising clinical options for this subset of chronic diseases.

KW - NF-KAPPA-B

KW - PROTEIN-PROTEIN INTERACTION

KW - FUMARIC-ACID ESTERS

KW - EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS

KW - TYPE-2 DIABETES-MELLITUS

KW - GLYCOGEN-SYNTHASE KINASE

KW - TUMOR-SUPPRESSOR PTEN

KW - HEME OXYGENASE 1

KW - GENE PROMOTER POLYMORPHISM

KW - PLACEBO-CONTROLLED PHASE-3

U2 - 10.1124/pr.117.014753

DO - 10.1124/pr.117.014753

M3 - (Systematic) Review article

C2 - 29507103

SN - 0031-6997

VL - 70

SP - 348

EP - 383

JO - Pharmacological Reviews

JF - Pharmacological Reviews

IS - 2

ER -