Literature DB >> 28028022

Multiple myeloma cells' capacity to decompose H2O2 determines lenalidomide sensitivity.

Sinto Sebastian1, Yuan X Zhu1, Esteban Braggio1, Chang-Xin Shi1, Sonali C Panchabhai1, Scott A Van Wier1, Greg J Ahmann1, Marta Chesi1, P Leif Bergsagel1, A Keith Stewart1, Rafael Fonseca1.   

Abstract

Lenalidomide is an immunomodulatory drug (IMiDs) with clinical efficacy in multiple myeloma (MM) and other late B-cell neoplasms. Although cereblon (CRBN) is an essential requirement for IMiD action, the complete molecular and biochemical mechanisms responsible for lenalidomide-mediated sensitivity or resistance remain unknown. Here, we report that IMiDs work primarily via inhibition of peroxidase-mediated intracellular H2O2 decomposition in MM cells. MM cells with lower H2O2-decomposition capacity were more vulnerable to lenalidomide-induced H2O2 accumulation and associated cytotoxicity. CRBN-dependent degradation of IKZF1 and IKZF3 was a consequence of H2O2-mediated oxidative stress. Lenalidomide increased intracellular H2O2 levels by inhibiting thioredoxin reductase (TrxR) in cells expressing CRBN, causing accumulation of immunoglobulin light-chain dimers, significantly increasing endoplasmic reticulum stress and inducing cytotoxicity by activation of BH3-only protein Bim in MM. Other direct inhibitors of TrxR and thioredoxin (Trx) caused similar cytotoxicity, but in a CRBN-independent fashion. Our findings could help identify patients most likely to benefit from IMiDs and suggest direct TrxR or Trx inhibitors for MM therapy.
© 2017 by The American Society of Hematology.

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Year:  2016        PMID: 28028022      PMCID: PMC5324717          DOI: 10.1182/blood-2016-09-738872

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  42 in total

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Authors:  Charity T Aiken; Robyn M Kaake; Xiaorong Wang; Lan Huang
Journal:  Mol Cell Proteomics       Date:  2011-05       Impact factor: 5.911

2.  Proteasome inhibitors block Ikaros degradation by lenalidomide in multiple myeloma.

Authors:  Chang-Xin Shi; Klaus Martin Kortüm; Yuan Xiao Zhu; Patrick Jedlowski; Laura Bruins; Esteban Braggio; A Keith Stewart
Journal:  Haematologica       Date:  2015-05-14       Impact factor: 9.941

3.  Lenalidomide for multiple myeloma.

Authors:  Francesco Bertolini
Journal:  N Engl J Med       Date:  2012-08-09       Impact factor: 91.245

4.  The endoribonuclease activity of mammalian IRE1 autoregulates its mRNA and is required for the unfolded protein response.

Authors:  W Tirasophon; K Lee; B Callaghan; A Welihinda; R J Kaufman
Journal:  Genes Dev       Date:  2000-11-01       Impact factor: 11.361

5.  TrxR1 inhibition overcomes both hypoxia-induced and acquired bortezomib resistance in multiple myeloma through NF-кβ inhibition.

Authors:  Prahlad V Raninga; Giovanna Di Trapani; Slavica Vuckovic; Kathryn F Tonissen
Journal:  Cell Cycle       Date:  2016       Impact factor: 4.534

6.  Inhibition of thioredoxin 1 leads to apoptosis in drug-resistant multiple myeloma.

Authors:  Prahlad V Raninga; Giovanna Di Trapani; Slavica Vuckovic; Maneet Bhatia; Kathryn F Tonissen
Journal:  Oncotarget       Date:  2015-06-20

7.  Pomalidomide: the new immunomodulatory agent for the treatment of multiple myeloma.

Authors:  A A Chanan-Khan; A Swaika; A Paulus; S K Kumar; J R Mikhael; S V Rajkumar; A Dispenzieri; M Q Lacy
Journal:  Blood Cancer J       Date:  2013-09-06       Impact factor: 11.037

Review 8.  Destroy and exploit: catalyzed removal of hydroperoxides from the endoplasmic reticulum.

Authors:  Thomas Ramming; Christian Appenzeller-Herzog
Journal:  Int J Cell Biol       Date:  2013-10-24

9.  Cross-talk between two antioxidants, thioredoxin reductase and heme oxygenase-1, and therapeutic implications for multiple myeloma.

Authors:  Prahlad V Raninga; Giovanna Di Trapani; Slavica Vuckovic; Kathryn F Tonissen
Journal:  Redox Biol       Date:  2016-01-11       Impact factor: 11.799

10.  Intracellular glutathione determines bortezomib cytotoxicity in multiple myeloma cells.

Authors:  K K Starheim; T Holien; K Misund; I Johansson; K A Baranowska; A-M Sponaas; H Hella; G Buene; A Waage; A Sundan; G Bjørkøy
Journal:  Blood Cancer J       Date:  2016-07-15       Impact factor: 11.037
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  14 in total

1.  A case of lenalidomide-dependent myelodysplastic syndrome.

Authors:  Ira J Miller; Wei-Tong Hsu; James Weisberger; Parameswaran Venugopal
Journal:  Blood Adv       Date:  2017-06-30

2.  Combination Therapy of an Antibody Specific for Transferrin Receptor 1 (ch128.1/IgG1) With Bortezomib or Lenalidomide Results in Increased Survival in an In Vivo Model of Human Multiple Myeloma: A Brief Communication.

Authors:  Pierre V Candelaria; Miguel Nava; Otoniel Martínez-Maza; Tracy R Daniels-Wells; Manuel L Penichet
Journal:  J Immunother       Date:  2022-04-26       Impact factor: 4.912

3.  Combination Lenalidomide/Bortezomib Treatment Synergistically Induces Calpain-Dependent Ikaros Cleavage and Apoptosis in Myeloma Cells.

Authors:  Saravanan Ganesan; Hamenth Kumar Palani; Nithya Balasundaram; Sachin David; Anup J Devasia; Biju George; Vikram Mathews
Journal:  Mol Cancer Res       Date:  2020-01-08       Impact factor: 5.852

Review 4.  Biological Background of Resistance to Current Standards of Care in Multiple Myeloma.

Authors:  Pedro Mogollón; Andrea Díaz-Tejedor; Esperanza M Algarín; Teresa Paíno; Mercedes Garayoa; Enrique M Ocio
Journal:  Cells       Date:  2019-11-13       Impact factor: 6.600

5.  Chromatin activation as a unifying principle underlying pathogenic mechanisms in multiple myeloma.

Authors:  Raquel Ordoñez; Marta Kulis; Nuria Russiñol; Vicente Chapaprieta; Arantxa Carrasco-Leon; Beatriz García-Torre; Stella Charalampopoulou; Guillem Clot; Renée Beekman; Cem Meydan; Martí Duran-Ferrer; Núria Verdaguer-Dot; Roser Vilarrasa-Blasi; Paula Soler-Vila; Leire Garate; Estíbaliz Miranda; Edurne San José-Enériz; Juan R Rodriguez-Madoz; Teresa Ezponda; Rebeca Martínez-Turrilas; Amaia Vilas-Zornoza; David Lara-Astiaso; Daphné Dupéré-Richer; Joost H A Martens; Halima El-Omri; Ruba Y Taha; Maria J Calasanz; Bruno Paiva; Jesus San Miguel; Paul Flicek; Ivo Gut; Ari Melnick; Constantine S Mitsiades; Jonathan D Licht; Elias Campo; Hendrik G Stunnenberg; Xabier Agirre; Felipe Prosper; Jose I Martin-Subero
Journal:  Genome Res       Date:  2020-08-20       Impact factor: 9.043

Review 6.  Targeting Reactive Oxygen Species Metabolism to Induce Myeloma Cell Death.

Authors:  Mélody Caillot; Hassan Dakik; Frédéric Mazurier; Brigitte Sola
Journal:  Cancers (Basel)       Date:  2021-05-17       Impact factor: 6.639

Review 7.  Key regulators of sensitivity to immunomodulatory drugs in cancer treatment.

Authors:  Shichao Wang; Zhiyue Li; Shaobing Gao
Journal:  Biomark Res       Date:  2021-06-05

8.  Deregulation of KSHV latency conformation by ER-stress and caspase-dependent RAD21-cleavage.

Authors:  Alessandra De Leo; Horng-Shen Chen; Chih-Chi Andrew Hu; Paul M Lieberman
Journal:  PLoS Pathog       Date:  2017-08-30       Impact factor: 6.823

9.  Potent anti-myeloma activity of the TOPK inhibitor OTS514 in pre-clinical models.

Authors:  Andrew T Stefka; David Johnson; Shaun Rosebeck; Jae-Hyun Park; Yusuke Nakamura; Andrzej J Jakubowiak
Journal:  Cancer Med       Date:  2019-11-12       Impact factor: 4.452

10.  Chidamide-Induced Accumulation of Reactive Oxygen Species Increases Lenalidomide Sensitivity Against Multiple Myeloma Cells.

Authors:  Duanfeng Jiang; Kaixuan Zhang; Yinghong Zhu; Yan Zhu; Lang Zou; Jian Hu; Yajuan Cui; Wen Zhou; Fangping Chen; Yanjuan He
Journal:  Onco Targets Ther       Date:  2021-07-06       Impact factor: 4.147
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