Studies of the thioredoxin system in redox signaling and oxidative stress
Author: Espinosa Fernández, Belén
Date: 2020-05-29
Location: Lecture Hall, Jacob Berzelius, Karolinska Institutet, Solna
Time: 09.00
Department: Inst för medicinsk biokemi och biofysik / Dept of Medical Biochemistry and Biophysics
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Thesis (1.338Mb)
Abstract
Reactive oxygen species exert reversible posttranslational modifications in proteins containing redox sensitive thiols, thereby affecting several cellular processes and protein functions. Reductive enzyme systems, such as the thioredoxin system, can reverse most of these cysteine modifications. Therefore, a tight control between oxidizing and reducing events is the central principle of redox signaling. The studies within this thesis have covered several aspects of the Trx system in the modulation of cellular signaling pathways.
In Paper I, we evaluated how b-AP15, a small inhibitor of proteasome-associated DUB, exerts redox perturbations in tumor cells. It is known that b-AP15triggers an increase level of reactive oxygen species (ROS) and proteotoxic stress in cancer cells. However, its efficacy inducing apoptosis diminished by antioxidants. To identify the precise mechanism by which b-AP15 induces redox perturbations, we generated cells deprived of mitochondrial DNA. We found that in cells lacking mitochondria, the oxidative stress generated by b-AP15 was completely abrogated. Furthermore, to exclude that the observed increase in the levels of oxidative stress were due to an inhibition of TrxR1, we evaluated a number of proteasome associated DUBs inhibitors that did not inhibit TrxR1. Similarly, to b-AP15 all the inhibitors tested induced oxidative stress and the expression of HO-1. In parallel, we observed mitochondrial dysfunction, measuring the levels of COX5b and TOMM34, in both cases their respective levels decreased in those cells treated with b-AP15. Based in all the results we could conclude that the source of ROS in cells treated with b-AP15 was of mitochondrial origin.
In Paper II, we performed a drug-screen of compounds sharing a common enone motif with b-AP15 and many natural products with antineoplastic effect. Through biochemical and structural analyses, we could demonstrate the binding of the enone containing compounds to the proteasome-associated cysteine deubiquitinase, USP14, inhibiting its activity. Additionally, we further analyzed a subset of those compounds in a zebrafish embryo model where they showed antineoplastic activity. These findings suggest that DUB inhibition is a relatively common mode of action by cytotoxic compounds containing motifs and it helps to explain the antineoplastic effects of natural products containing such functional group.
In Paper III, we identified HRI as a redox-regulated protein, which becomes oxidized when activated upon As(III) exposure. TrxR1 associates with HRI in cells and together with TRP14 and Trx1 reduces HRI in vitro. Moreover, several specific inhibitors of TrxR1 lead to HRI-dependent eIF2α phosphorylation, translation suppression and stress granule formation. Based on our finding that HRI-mediated translation suppression is essential for cellular survival under conditions of high As(III), we revealed the Trx system as a regulator of the HRI dependent translational stress response.
In Paper IV, we evaluated the role of TRP14 in the regulation of different redox-regulated transcriptional factors using our unique tool pTRAF (plasmid for transcription factor reporter activation based upon fluorescence). We discovered that using TRP14 knockdown HEK293 cells, NRF2 activation increased upon treatment with auranofin, we also uncovered that TRP14 is crucial for HIF-activation upon TNF-α stimulation in hypoxic conditions. Furthermore, endogenous TRP14 levels increased under hypoxia or TNF-α treatment, suggesting that TRP14 could itself be regulated by NFκB and HIF, which is compatible with the presence of the corresponding response elements in the proximal TXNDC17 promoter region. Surprisingly, using TRP14 knockout HEK293 cells we found that global protein translation was reduced, which could be reverted with methionine or N- acetylcysteine supplementation. TRP14 knockout cells were also, in contrast to controls, highly sensitive to PPG. We conclude that TRP14 has several roles in control of redox signaling pathways, and that TRP14 is the main intracellular reductase for liberation of cysteine from cystine.
In Paper V, we de novo synthesized eight vinyl sulfone compounds and evaluated their capacity to activate NRF2, NFκB and HIF1 in comparison with DMF using our previously mention tool pTRAF. We selected a set of compounds that activate NRF2 more selectively than DMF and characterize their downstream effects using in vitro and in vivo models. Our selected compounds display a more selective oligodendrocyte associated effect which could be explore in the future as a regenerative drug in demyelinating disorders.
In Paper I, we evaluated how b-AP15, a small inhibitor of proteasome-associated DUB, exerts redox perturbations in tumor cells. It is known that b-AP15triggers an increase level of reactive oxygen species (ROS) and proteotoxic stress in cancer cells. However, its efficacy inducing apoptosis diminished by antioxidants. To identify the precise mechanism by which b-AP15 induces redox perturbations, we generated cells deprived of mitochondrial DNA. We found that in cells lacking mitochondria, the oxidative stress generated by b-AP15 was completely abrogated. Furthermore, to exclude that the observed increase in the levels of oxidative stress were due to an inhibition of TrxR1, we evaluated a number of proteasome associated DUBs inhibitors that did not inhibit TrxR1. Similarly, to b-AP15 all the inhibitors tested induced oxidative stress and the expression of HO-1. In parallel, we observed mitochondrial dysfunction, measuring the levels of COX5b and TOMM34, in both cases their respective levels decreased in those cells treated with b-AP15. Based in all the results we could conclude that the source of ROS in cells treated with b-AP15 was of mitochondrial origin.
In Paper II, we performed a drug-screen of compounds sharing a common enone motif with b-AP15 and many natural products with antineoplastic effect. Through biochemical and structural analyses, we could demonstrate the binding of the enone containing compounds to the proteasome-associated cysteine deubiquitinase, USP14, inhibiting its activity. Additionally, we further analyzed a subset of those compounds in a zebrafish embryo model where they showed antineoplastic activity. These findings suggest that DUB inhibition is a relatively common mode of action by cytotoxic compounds containing motifs and it helps to explain the antineoplastic effects of natural products containing such functional group.
In Paper III, we identified HRI as a redox-regulated protein, which becomes oxidized when activated upon As(III) exposure. TrxR1 associates with HRI in cells and together with TRP14 and Trx1 reduces HRI in vitro. Moreover, several specific inhibitors of TrxR1 lead to HRI-dependent eIF2α phosphorylation, translation suppression and stress granule formation. Based on our finding that HRI-mediated translation suppression is essential for cellular survival under conditions of high As(III), we revealed the Trx system as a regulator of the HRI dependent translational stress response.
In Paper IV, we evaluated the role of TRP14 in the regulation of different redox-regulated transcriptional factors using our unique tool pTRAF (plasmid for transcription factor reporter activation based upon fluorescence). We discovered that using TRP14 knockdown HEK293 cells, NRF2 activation increased upon treatment with auranofin, we also uncovered that TRP14 is crucial for HIF-activation upon TNF-α stimulation in hypoxic conditions. Furthermore, endogenous TRP14 levels increased under hypoxia or TNF-α treatment, suggesting that TRP14 could itself be regulated by NFκB and HIF, which is compatible with the presence of the corresponding response elements in the proximal TXNDC17 promoter region. Surprisingly, using TRP14 knockout HEK293 cells we found that global protein translation was reduced, which could be reverted with methionine or N- acetylcysteine supplementation. TRP14 knockout cells were also, in contrast to controls, highly sensitive to PPG. We conclude that TRP14 has several roles in control of redox signaling pathways, and that TRP14 is the main intracellular reductase for liberation of cysteine from cystine.
In Paper V, we de novo synthesized eight vinyl sulfone compounds and evaluated their capacity to activate NRF2, NFκB and HIF1 in comparison with DMF using our previously mention tool pTRAF. We selected a set of compounds that activate NRF2 more selectively than DMF and characterize their downstream effects using in vitro and in vivo models. Our selected compounds display a more selective oligodendrocyte associated effect which could be explore in the future as a regenerative drug in demyelinating disorders.
List of papers:
I. Xiaonan Zhang, Belén Espinosa, Amir Ata Saei, Padraig D’Arcy, Roman A Zubarev, and Stig Linder. Oxidative Stress Induced by the Deubiquitinase Inhibitor b-AP15 Is Associated with Mitochondrial Impairment. Oxid Med Cell Longev. 2019 Jun 10;2019:1659468.
Fulltext (DOI)
Pubmed
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II. Karthik Selvaraju, Arjan Mofers, Paola Pellegrini, Johannes Salomonsson, Alexandra Ahlner, Vivian Morad, Ellin-Kristina Hillert, Belén Espinosa, Elias S. J. Arnér, Lasse Jensen, Jonas Malmström, Maria V. Turkina, Padraig D’Arcy, Michael A. Walters, Maria Sunnerhagen & Stig Linder. Cytotoxic unsaturated electrophilic compounds commonly target the ubiquitin protea- some system. Sci Rep. 2019 Jul 8;9(1):9841.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Bogdan Jovanovic, Belén Espinosa, Shawn M. Lyons, Nga Ly-Hartig, Tobias Dick, Elias Arnér and Georg Stoecklin. Cellular protection from arsenic compounds through control of global protein synthesis by TrxR1-mediated HRI kinase activation. [Submitted]
IV. Belén Espinosa, Irina Pader, Marcus Cebula, Katarina Johansson, Elias S. J. Arnér. Thioredoxin related protein of 14 kDa (TRP14, TXNDC17) represses NRF2 and NFκB activities and augments HIF activation. [Manuscript]
V. Karl E Carlström, Praveen K Chinthakindi, Belén Espinosa, Faiez Al Nimer, Katarina Johansson, Elias S J Arnér, Per I Arvidsson, Fredrik Piehl. Novel vinyl sulfone compounds are more specific NRF2 activators in the in vitro and in the central nervous system than dimethyl fumarate. [Accepted]
Fulltext (DOI)
Pubmed
I. Xiaonan Zhang, Belén Espinosa, Amir Ata Saei, Padraig D’Arcy, Roman A Zubarev, and Stig Linder. Oxidative Stress Induced by the Deubiquitinase Inhibitor b-AP15 Is Associated with Mitochondrial Impairment. Oxid Med Cell Longev. 2019 Jun 10;2019:1659468.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Karthik Selvaraju, Arjan Mofers, Paola Pellegrini, Johannes Salomonsson, Alexandra Ahlner, Vivian Morad, Ellin-Kristina Hillert, Belén Espinosa, Elias S. J. Arnér, Lasse Jensen, Jonas Malmström, Maria V. Turkina, Padraig D’Arcy, Michael A. Walters, Maria Sunnerhagen & Stig Linder. Cytotoxic unsaturated electrophilic compounds commonly target the ubiquitin protea- some system. Sci Rep. 2019 Jul 8;9(1):9841.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Bogdan Jovanovic, Belén Espinosa, Shawn M. Lyons, Nga Ly-Hartig, Tobias Dick, Elias Arnér and Georg Stoecklin. Cellular protection from arsenic compounds through control of global protein synthesis by TrxR1-mediated HRI kinase activation. [Submitted]
IV. Belén Espinosa, Irina Pader, Marcus Cebula, Katarina Johansson, Elias S. J. Arnér. Thioredoxin related protein of 14 kDa (TRP14, TXNDC17) represses NRF2 and NFκB activities and augments HIF activation. [Manuscript]
V. Karl E Carlström, Praveen K Chinthakindi, Belén Espinosa, Faiez Al Nimer, Katarina Johansson, Elias S J Arnér, Per I Arvidsson, Fredrik Piehl. Novel vinyl sulfone compounds are more specific NRF2 activators in the in vitro and in the central nervous system than dimethyl fumarate. [Accepted]
Fulltext (DOI)
Pubmed
Institution: Karolinska Institutet
Supervisor: Arnér, Elias
Co-supervisor: Linder, Stig
Issue date: 2020-05-08
Rights:
Publication year: 2020
ISBN: 978-91-7831-824-7
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