p53, Zmat3 (Wig-1) and APR-246 – Klas G Wiman's Team

We perform research in molecular cell biology, tumor biology, and novel cancer therapy. Our main interest is the tumor suppressor p53, a DNA-binding transcription factor that is activated in response to DNA damage and oncogenic stress. Our goal is to understand the normal function of p53 and develop novel anticancer drugs that restore normal p53 function in tumors.

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Department of Oncology-Pathology

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Klas G Wiman's research group consisting of six people.

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The tumor suppressor gene TP53

The p53 protein regulates cellular processes such as cell cycle progression, apoptosis and metabolism through transcriptional transactivation of target genes, e.g. p21, Bax, Puma and Zmat3. The TP53 gene is mutated in around half of all tumors. Most TP53 mutations are missense mutations that disrupt p53's specific DNA binding and transcriptional transactivation activity. A smaller fraction of human tumors carry TP53 nonsense mutations that result in a truncated non-functional p53 protein.

Reactivation of mutant p53: a novel strategy for cancer therapy

The high frequency of TP53-mutations in human tumors makes mutant p53 an interesting target for novel cancer therapy. We identified the compound PRIMA-1 and the structural analog APR-246 (PRIMA-1Met) that induce cell death in TP53 mutant tumor cells and inhibit tumor growth in vivo in mice (Bykov et al. Nature Med. 2002; Bykov et al. Oncogene 2005). PRIMA-1 and APR-246 are converted to the active compound MQ, a Michael acceptor that binds covalently to cysteines in p53's core domain and enhances core domain thermostability (Lambert et al. Cancer Cell 2009; Zhang et al. Cell Death Dis. 2018). We have also found that APR-246, via MQ, can perturb redox homeostasis by inhibition of thioredoxin reductase and binding and depletion of glutathione (Peng et al. Cell Death Dis. 2013; Mohell et al. Cell Death Dis. 2015; Ceder et al. EMBO Mol. Med. 2021). APR-246 has been tested in several clinical trial sponsored by Aprea Therapeutics (Lehmann et al. J. Clin. Oncol. 2012; reviewed in Tuval et al. Nature Rev. Clin. Oncol. 2024). Moreover, we are developing novel therapy for tumors with TP53 nonsense mutation by pharmacological induction of translational readthrough. We have found that the 5-FU metabolite 5-fluorouridine induces readthrough and expression of fully active full-length p53 in tumor cells carrying R213X nonsense mutant TP53, resulting in apoptotic cell death (Palomar-Siles et al. Cell Death Dis. 2022).

Zmat3 (Wig-1), a p53-induced gene

Identification and characterization of novel p53 target genes is important in order to understand the p53 pathway and p53-mediated tumor suppression. We identified the p53 target gene Zmat3 (Wig-1), located on human chromosome 3q26.3-27 (Varmeh-Ziaie et al. Oncogene 1997; Hellborg et al. Oncogene 2001). Zmat3 encodes a conserved zinc finger protein with affinity for double stranded RNA (Mendez-Vidal et al. Nucl. Acids Res. 2002). Our results suggest that Zmat3 directs the p53 response towards cell cycle arrest by regulation of specific p53 target genes at the mRNA level (Bersani et al. Oncogene 2014).

Publications

Selected publications

Article: CELL DEATH & DISEASE. 2022;13(11):997
Translational readthrough of nonsense mutant TP53 by mRNA incorporation of 5-Fluorouridine
Palomar-Siles M; Heldin A; Zhang M; Strandgren C; Yurevych V; van Dinter JT; Engels SAG; Hofman DA; Ohlin S; Meineke B; Bykov VJN; van Heesch S; Wiman KG
Article: CELL DEATH & DISEASE. 2022;13(3):214
Evolutionary history of the p53 family DNA-binding domain: insights from an Alvinella pompejana homolog
Zhang Q; Balourdas D-I; Baron B; Senitzki A; Haran TE; Wiman KG; Soussi T; Joerger AC
Article: CELL DEATH & DISEASE. 2021;12(7):709
Mutant p53-reactivating compound APR-246 synergizes with asparaginase in inducing growth suppression in acute lymphoblastic leukemia cells
Ceder S; Eriksson SE; Liang YY; Cheteh EH; Zhang SM; Fujihara KM; Bianchi J; Bykov VJN; Abrahmsen L; Clemons NJ; Nordlund P; Rudd SG; Wiman KG
Article: EMBO MOLECULAR MEDICINE. 2021;13(2):e10852
A thiol-bound drug reservoir enhances APR-246-induced mutant p53 tumor cell death
Ceder S; Eriksson SE; Cheteh EH; Dawar S; Corrales Benitez M; Bykov VJN; Fujihara KM; Grandin M; Li X; Ramm S; Behrenbruch C; Simpson KJ; Hollande F; Abrahmsen L; Clemons NJ; Wiman KG
Article: CELL DEATH DISCOVERY. 2020;6(1):42
Interleukin-6 derived from cancer-associated fibroblasts attenuates the p53 response to doxorubicin in prostate cancer cells
Cheteh EH; Sarne V; Ceder S; Bianchi J; Augsten M; Rundqvist H; Egevad L; Ostman A; Wiman KG
Review: JOURNAL OF MOLECULAR CELL BIOLOGY. 2019;11(4):330-341
p53 as a hub in cellular redox regulation and therapeutic target in cancer
Eriksson SE; Ceder S; Bykov VJN; Wiman KG
Article: CELL CHEMICAL BIOLOGY. 2018;25(10):1219-1230.e3
Role of Thiol Reactivity for Targeting Mutant p53
Zhang Q; Bergman J; Wiman KG; Bykov VJN
Article: CELL DEATH & DISEASE. 2018;9(5):439
APR-246 reactivates mutant p53 by targeting cysteines 124 and 277
Zhang Q; Bykov VJN; Wiman KG; Zawacka-Pankau J
Review: NATURE REVIEWS CANCER. 2018;18(2):89-102
Targeting mutant p53 for efficient cancer therapy
Bykov VJN; Eriksson SE; Bianchi J; Wiman KG
Article: CELL DEATH & DISEASE. 2017;8(6):e2848
Human cancer-associated fibroblasts enhance glutathione levels and antagonize drug-induced prostate cancer cell death
Cheteh EH; Augsten M; Rundqvist H; Bianchi J; Sarne V; Egevad L; Bykov VJN; Ostman A; Wiman KG
Article: NATURE COMMUNICATIONS. 2017;8:14844
Inhibiting the system x_(C)over-bar/glutathione axis selectively targets cancers with mutant-p53 accumulation
Liu DS; Duong CP; Haupt S; Montgomery KG; House CM; Azar WJ; Pearson HB; Fisher OM; Read M; Guerra GR; Haupt Y; Cullinane C; Wiman KG; Abrahmsen L; Phillips WA; Clemons NJ
Article: FRONTIERS IN ONCOLOGY. 2017;7:323
Synergistic Rescue of Nonsense Mutant Tumor Suppressor p53 by Combination Treatment with Aminoglycosides and Mdm2 Inhibitors
Zhang M; Heldin A; Palomar-Siles M; Ohlin S; Bykov VJN; Wiman KG
Review: CELL DEATH AND DIFFERENTIATION. 2015;22(8):1239-1249
TP53: an oncogene in disguise
Soussi T; Wiman KG
Article: CELL DEATH & DISEASE. 2015;6(6):e1794
APR-246 overcomes resistance to cisplatin and doxorubicin in ovarian cancer cells
Mohell N; Alfredsson J; Fransson A; Uustalu M; Bystrom S; Gullbo J; Hallberg A; Bykov VJN; Bjorklund U; Wiman KG
Article: ONCOGENE. 2014;33(35):4407-4417
Wig-1 regulates cell cycle arrest and cell death through the p53 targets FAS and 14-3-3σ
Bersani C; Xu L-D; Vilborg A; Lui W-O; Wiman KG
Article: GENES & DEVELOPMENT. 2014;28(1):58-70
Targeting of MCL-1 kills MYC-driven mouse and human lymphomas even when they bear mutations in p53
Kelly GL; Grabow S; Glaser SP; Fitzsimmons L; Aubrey BJ; Okamoto T; Valente LJ; Robati M; Tai L; Fairlie WD; Lee EF; Lindstrom MS; Wiman KG; Huang DCS; Bouillet P; Rowe M; Rickinson AB; Herold MJ; Strasser A
Article: CELL DEATH & DISEASE. 2013;4(10):e881
APR-246/PRIMA-1^MET inhibits thioredoxin reductase 1 and converts the enzyme to a dedicated NADPH oxidase
Peng X; Zhang M-Q; Conserva F; Hosny G; Selivanova G; Bykov VJN; Arner ESJ; Wiman KG
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2013;110(6):2157-2162
APR-246/PRIMA-1^MET rescues epidermal differentiation in skin keratinocytes derived from EEC syndrome patients with p63 mutations
Shen J; van den Bogaard EH; Kouwenhoven EN; Bykov VJN; Rinne T; Zhang Q; Tjabringa GS; Gilissen C; van Heeringen SJ; Schalkwijk J; van Bokhoven H; Wiman KG; Zhou H
Article: JOURNAL OF CLINICAL ONCOLOGY. 2012;30(29):3633-3639
Targeting p53 in Vivo: A First-in-Human Study With p53-Targeting Compound APR-246 in Refractory Hematologic Malignancies and Prostate Cancer
Lehmann S; Bykov VJN; Ali D; Andren O; Cherif H; Tidefelt U; Uggla B; Yachnin J; Juliusson G; Moshfegh A; Paul C; Wiman KG; Andersson P-O
Article: CELL DEATH & DISEASE. 2012;3(4):e298
Wig-1, a novel regulator of N-Myc mRNA and N-Myc-driven tumor growth
Vilborg A; Bersani C; Wickstrom M; Segerstrom L; Kogner P; Wiman KG
Review: ONCOGENE. 2010;29(30):4245-4252
Pharmacological reactivation of mutant p53: from protein structure to the cancer patient
Wiman KG
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2009;106(37):15756-15761
The p53 target Wig-1 regulates p53 mRNA stability through an AU-rich element
Vilborg A; Glahder JA; Wilhelm MT; Bersani C; Corcoran M; Mahmoudi S; Rosenstierne M; Grander D; Farnebo M; Norrild B; Wiman KG
Article: CANCER CELL. 2009;15(5):376-388
PRIMA-1 Reactivates Mutant p53 by Covalent Binding to the Core Domain
Lambert JMR; Gorzov P; Veprintsev DB; Soderqvist M; Segerback D; Bergman J; Fersht AR; Hainaut P; Wiman KG; Bykov VJN
Review: CANCER CELL. 2007;12(4):303-312
Shaping genetic alterations in human cancer: The p53 mutation paradigm
Soussi T; Wiman KG
Article: NATURE MEDICINE. 2002;8(3):282-288
Restoration of the tumor suppressor function to mutant p53 by a low-molecular-weight compound
Bykov VJN; Issaeva N; Shilov A; Hultcrantz M; Pugacheva E; Chumakov P; Bergman J; Wiman KG; Selivanova G
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Funding

Staff and contact

Group leader

Klas Wiman
Professor, Senior
E-mail klas.wiman@ki.se

All members of the group

Charlotte Strandgren
Postdoctoral Studies
E-mail charlotte.strandgren@ki.se
Klas Wiman
Professor, Senior
E-mail klas.wiman@ki.se
Susanne Öhlin
Biomedical Scientist
E-mail susanne.ohlin@ki.se

Dissertations

Angelos Heldin
Pharmacological targeting of nonsense mutant TP53 and PTEN in cancer
Ph.D. 2023-10-20
Abstract and thesis

Mireia Palomar Siles
Translational readthrough of nonsense mutant TP53, RB1 and PTEN tumor suppressor genes as a strategy for novel cancer therapy
Ph.D. 2023-03-31
Abstract and thesis

Sophia Ceder
Mechanisms of cancer cell death by mutant p53-reactivating compound APR-246
Ph.D. 2021-03-05
Abstract and thesis

Emarndeena H. Cheteh
p53 and cancer-associated fibroblasts: implications for cancer therapy and drug resistance
Ph.D. 2020-10-26
Abstract and thesis

Meiqiongzi Zhang
Making sense from nonsense and missense: pharmacological rescue of mutant tumor suppressor p53
Ph.D. 2018-06-20
Abstract and thesis

Qiang Zhang
Understanding p53 structure and targeting mutant p53 for improved cancer therapy
Ph.D. 2018-06-15
Abstract and thesis

Harsha Madapura Sekharappa
Regulatory mechanisms contributing to the homeostasis of normal and malignant hematopoietic cells
Ph.D. 2016-05-11
Abstract and thesis

Lidi Xu
The p53-induced Wig-1 protein: identification of mRNA targets and role as survival factor in development and cancer
Ph.D. 2015-12-02
Abstract and thesis

Cinzia Bersani
The role of the RNA-binding protein Wig-1 in post-transcriptional regulation of gene expression
Ph.D. November 14, 2014
Abstract and thesis

Nina Rökaeus
Pharmacological targeting of mutant p53 family members
Ph.D. May 12, 2011
Abstract and thesis

Salah Mahmoudi
WRAP53 unwrapped; roles in nuclear architecture and cancer
Ph.D. Feb. 4, 2011
(Main supervisor: Marianne Farnebo)
Abstract and thesis

Jinfeng Shen
Rescue of mutant p53 family members by the low molecular weight compound PRIMA-1MET/APR-246
Ph.D. Dec. 3, 2010
(Main supervisor: Vladimir Bykov)
Abstract and thesis

Anna Vilborg
Wig-1: A p53 target that regulates the mRNA of p53 and Myc - and more?
Ph.D. Oct. 15, 2010
Abstract and thesis

Jeremy Lambert
Mutant p53 reactivation by prima-1 : Molecular mechanism and biological effects
Ph.D. Dec. 5, 2008
Abstract and thesis

Magdalena Prahl
The p53-induced Wig-1 protein: Studies of interaction partners and expression in tumor
Ph.D. Sept. 25, 2008
Abstract and thesis

Nicole Zache
Studies of mutant p53-targeting small molecules
Ph.D. Nov. 30, 2007
Abstract and thesis

Rabaiyat Rahman-Roblick
The P53 pathway : role of telomerase and identification of novel targets : acts of a master regulator of tumor suppression.
Ph.D. June 7, 2007
Abstract and thesis

Fredrik Hellborg
Identification, cloning and characterization of the p53-induced gene human wig-1
Ph.D. Dec. 17, 2004
Abstract

Mikael Lindström
Functional characterization of the alternative reading frame protein p14ARF
Ph.D. May 27, 2004
Abstract and thesis

Margareta T. Wilhelm
The p53-induced gene Wig-1: regulation of expression and role in embryonic development
Ph.D. Dec. 12, 2003
Abstract

Cristina Mendez-Vidal
Molecular studies of Wig-1, a p53-induced zinc finger protein
Ph.D. Dec. 5, 2003
Abstract