Literature DB >> 25840602

Targeting the Ataxia Telangiectasia Mutated-null phenotype in chronic lymphocytic leukemia with pro-oxidants.

Angelo Agathanggelou1, Victoria J Weston1, Tracey Perry1, Nicholas J Davies1, Anna Skowronska1, Daniel T Payne2, John S Fossey2, Ceri E Oldreive1, Wenbin Wei1, Guy Pratt3, Helen Parry4, David Oscier5, Steve J Coles6, Paul S Hole6, Richard L Darley6, Michael McMahon7, John D Hayes7, Paul Moss1, Grant S Stewart1, A Malcolm R Taylor1, Tatjana Stankovic8.   

Abstract

Inactivation of the Ataxia Telangiectasia Mutated gene in chronic lymphocytic leukemia results in resistance to p53-dependent apoptosis and inferior responses to treatment with DNA damaging agents. Hence, p53-independent strategies are required to target Ataxia Telangiectasia Mutated-deficient chronic lymphocytic leukemia. As Ataxia Telangiectasia Mutated has been implicated in redox homeostasis, we investigated the effect of the Ataxia Telangiectasia Mutated-null chronic lymphocytic leukemia genotype on cellular responses to oxidative stress with a view to therapeutic targeting. We found that in comparison to Ataxia Telangiectasia Mutated-wild type chronic lymphocytic leukemia, pro-oxidant treatment of Ataxia Telangiectasia Mutated-null cells led to reduced binding of NF-E2 p45-related factor-2 to antioxidant response elements and thus decreased expression of target genes. Furthermore, Ataxia Telangiectasia Mutated-null chronic lymphocytic leukemia cells contained lower levels of antioxidants and elevated mitochondrial reactive oxygen species. Consequently, Ataxia Telangiectasia Mutated-null chronic lymphocytic leukemia, but not tumors with 11q deletion or TP53 mutations, exhibited differentially increased sensitivity to pro-oxidants both in vitro and in vivo. We found that cell death was mediated by a p53- and caspase-independent mechanism associated with apoptosis inducing factor activity. Together, these data suggest that defective redox-homeostasis represents an attractive therapeutic target for Ataxia Telangiectasia Mutated-null chronic lymphocytic leukemia. Copyright© Ferrata Storti Foundation.

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Year:  2015        PMID: 25840602      PMCID: PMC5004424          DOI: 10.3324/haematol.2014.115170

Source DB:  PubMed          Journal:  Haematologica        ISSN: 0390-6078            Impact factor:   9.941


  50 in total

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Journal:  Leukemia       Date:  1995-12       Impact factor: 11.528

Review 5.  Entering the era of targeted therapy for chronic lymphocytic leukemia: impact on the practicing clinician.

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9.  Microarray analysis reveals that TP53- and ATM-mutant B-CLLs share a defect in activating proapoptotic responses after DNA damage but are distinguished by major differences in activating prosurvival responses.

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Journal:  Blood       Date:  2003-09-04       Impact factor: 22.113

Review 10.  Clonal evolution in hematological malignancies and therapeutic implications.

Authors:  D A Landau; S L Carter; G Getz; C J Wu
Journal:  Leukemia       Date:  2013-08-27       Impact factor: 11.528
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  8 in total

1.  Oxidative stress as a therapeutic perspective for ATM-deficient chronic lymphocytic leukemia patients.

Authors:  Veronika Navrkalova; Leona Raskova Kafkova; Vladimir Divoky; Sarka Pospisilova
Journal:  Haematologica       Date:  2015-08       Impact factor: 9.941

2.  mda-7/IL-24 Induces Cell Death in Neuroblastoma through a Novel Mechanism Involving AIF and ATM.

Authors:  Praveen Bhoopathi; Nathaniel Lee; Anjan K Pradhan; Xue-Ning Shen; Swadesh K Das; Devanand Sarkar; Luni Emdad; Paul B Fisher
Journal:  Cancer Res       Date:  2016-04-13       Impact factor: 12.701

Review 3.  Cellular functions of the protein kinase ATM and their relevance to human disease.

Authors:  Ji-Hoon Lee; Tanya T Paull
Journal:  Nat Rev Mol Cell Biol       Date:  2021-08-24       Impact factor: 94.444

4.  Prognostic signature and clonality pattern of recurrently mutated genes in inactive chronic lymphocytic leukemia.

Authors:  A M Hurtado; T-H Chen-Liang; B Przychodzen; C Hamedi; J Muñoz-Ballester; B Dienes; M D García-Malo; A I Antón; F de Arriba; R Teruel-Montoya; F J Ortuño; V Vicente; J P Maciejewski; A Jerez
Journal:  Blood Cancer J       Date:  2015-08-28       Impact factor: 11.037

5.  SIRT3, a metabolic target linked to ataxia-telangiectasia mutated (ATM) gene deficiency in diffuse large B-cell lymphoma.

Authors:  Kavita Bhalla; Sausan Jaber; Kayla Reagan; Arielle Hamburg; Karen F Underwood; Aditya Jhajharia; Maninder Singh; Binny Bhandary; Shambhu Bhat; Nahid M Nanaji; Ruching Hisa; Carrie McCracken; Heather Huot Creasy; Rena G Lapidus; Tami Kingsbury; Dirk Mayer; Brian Polster; Ronald B Gartenhaus
Journal:  Sci Rep       Date:  2020-12-03       Impact factor: 4.379

6.  ROR2 regulates self-renewal and maintenance of hair follicle stem cells.

Authors:  Anthony Veltri; Christopher M R Lang; Gaia Cangiotti; Chim Kei Chan; Wen-Hui Lien
Journal:  Nat Commun       Date:  2022-08-01       Impact factor: 17.694

7.  Derivatisation of parthenolide to address chemoresistant chronic lymphocytic leukaemia.

Authors:  Xingjian Li; Daniel T Payne; Badarinath Ampolu; Nicholas Bland; Jane T Brown; Mark J Dutton; Catherine A Fitton; Abigail Gulliver; Lee Hale; Daniel Hamza; Geraint Jones; Rebecca Lane; Andrew G Leach; Louise Male; Elena G Merisor; Michael J Morton; Alex S Quy; Ruth Roberts; Rosanna Scarll; Timothy Schulz-Utermoehl; Tatjana Stankovic; Brett Stevenson; John S Fossey; Angelo Agathanggelou
Journal:  Medchemcomm       Date:  2019-08-01       Impact factor: 3.597

Review 8.  Targeting the p53 Pathway in CLL: State of the Art and Future Perspectives.

Authors:  Marwan Kwok; Angelo Agathanggelou; Nicholas Davies; Tatjana Stankovic
Journal:  Cancers (Basel)       Date:  2021-09-18       Impact factor: 6.639
  8 in total

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