139 results on '"Stewart, Grant S."'
Search Results
102. A nervous predisposition to unrepaired DNA double strand breaks
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Reynolds, John J., primary and Stewart, Grant S., additional
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- 2013
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103. Identification of the First ATRIP–Deficient Patient and Novel Mutations in ATR Define a Clinical Spectrum for ATR–ATRIP Seckel Syndrome
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Ogi, Tomoo, primary, Walker, Sarah, additional, Stiff, Tom, additional, Hobson, Emma, additional, Limsirichaikul, Siripan, additional, Carpenter, Gillian, additional, Prescott, Katrina, additional, Suri, Mohnish, additional, Byrd, Philip J., additional, Matsuse, Michiko, additional, Mitsutake, Norisato, additional, Nakazawa, Yuka, additional, Vasudevan, Pradeep, additional, Barrow, Margaret, additional, Stewart, Grant S., additional, Taylor, A. Malcolm R., additional, O'Driscoll, Mark, additional, and Jeggo, Penny A., additional
- Published
- 2012
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104. Adenovirus E4orf3 Targets Transcriptional Intermediary Factor 1γ for Proteasome-Dependent Degradation during Infection
- Author
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Forrester, Natalie A., primary, Patel, Rakesh N., additional, Speiseder, Thomas, additional, Groitl, Peter, additional, Sedgwick, Garry G., additional, Shimwell, Neil J., additional, Seed, Robert I., additional, Catnaigh, Pól Ó, additional, McCabe, Christopher J., additional, Stewart, Grant S., additional, Dobner, Thomas, additional, Grand, Roger J. A., additional, Martin, Ashley, additional, and Turnell, Andrew S., additional
- Published
- 2012
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105. Regulation of DNA-End Resection by hnRNPU-like Proteins Promotes DNA Double-Strand Break Signaling and Repair
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Polo, Sophie E., primary, Blackford, Andrew N., additional, Chapman, J. Ross, additional, Baskcomb, Linda, additional, Gravel, Serge, additional, Rusch, Andre, additional, Thomas, Anoushka, additional, Blundred, Rachel, additional, Smith, Philippa, additional, Kzhyshkowska, Julia, additional, Dobner, Thomas, additional, Taylor, A. Malcolm R., additional, Turnell, Andrew S., additional, Stewart, Grant S., additional, Grand, Roger J., additional, and Jackson, Stephen P., additional
- Published
- 2012
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106. The hMsh2-hMsh6 Complex Acts in Concert with Monoubiquitinated PCNA and Pol η in Response to Oxidative DNA Damage in Human Cells
- Author
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Zlatanou, Anastasia, primary, Despras, Emmanuelle, additional, Braz-Petta, Tirzah, additional, Boubakour-Azzouz, Imenne, additional, Pouvelle, Caroline, additional, Stewart, Grant S., additional, Nakajima, Satoshi, additional, Yasui, Akira, additional, Ishchenko, Alexander A., additional, and Kannouche, Patricia L., additional
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- 2011
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107. Genomic Instability, Defective Spermatogenesis, Immunodeficiency, and Cancer in a Mouse Model of the RIDDLE Syndrome
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Bohgaki, Toshiyuki, primary, Bohgaki, Miyuki, additional, Cardoso, Renato, additional, Panier, Stephanie, additional, Zeegers, Dimphy, additional, Li, Li, additional, Stewart, Grant S., additional, Sanchez, Otto, additional, Hande, M. Prakash, additional, Durocher, Daniel, additional, Hakem, Anne, additional, and Hakem, Razqallah, additional
- Published
- 2011
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108. Serotype-Specific Inactivation of the Cellular DNA Damage Response during Adenovirus Infection
- Author
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Forrester, Natalie A., primary, Sedgwick, Garry G., additional, Thomas, Anoushka, additional, Blackford, Andrew N., additional, Speiseder, Thomas, additional, Dobner, Thomas, additional, Byrd, Philip J., additional, Stewart, Grant S., additional, Turnell, Andrew S., additional, and Grand, Roger J. A., additional
- Published
- 2011
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109. When cleavage is not attractive: Non-catalytic inhibition of ubiquitin chains at DNA double-strand breaks by OTUB1
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Blackford, Andrew N., primary and Stewart, Grant S., additional
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- 2011
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110. A PIAS-ed view of DNA double strand break repair focuses on SUMO
- Author
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Zlatanou, Anastasia, primary and Stewart, Grant S., additional
- Published
- 2010
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111. 53BP1-dependent robust localized KAP-1 phosphorylation is essential for heterochromatic DNA double-strand break repair
- Author
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Noon, Angela T., primary, Shibata, Atsushi, additional, Rief, Nicole, additional, Löbrich, Markus, additional, Stewart, Grant S., additional, Jeggo, Penelope A., additional, and Goodarzi, Aaron A., additional
- Published
- 2010
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112. Mediator of DNA Damage Checkpoint 1 (MDC1) Regulates Mitotic Progression
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Townsend, Kelly, primary, Mason, Helen, additional, Blackford, Andrew N., additional, Miller, Edward S., additional, Chapman, J.Ross, additional, Sedgwick, Garry G., additional, Barone, Giancarlo, additional, Turnell, Andrew S., additional, and Stewart, Grant S., additional
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- 2009
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113. Solving the RIDDLE of 53BP1 recruitment to sites of damage
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Stewart, Grant S., primary
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- 2009
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114. The RIDDLE Syndrome Protein Mediates a Ubiquitin-Dependent Signaling Cascade at Sites of DNA Damage
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Stewart, Grant S., primary, Panier, Stephanie, additional, Townsend, Kelly, additional, Al-Hakim, Abdallah K., additional, Kolas, Nadine K., additional, Miller, Edward S., additional, Nakada, Shinichiro, additional, Ylanko, Jarkko, additional, Olivarius, Signe, additional, Mendez, Megan, additional, Oldreive, Ceri, additional, Wildenhain, Jan, additional, Tagliaferro, Andrea, additional, Pelletier, Laurence, additional, Taubenheim, Nadine, additional, Durandy, Anne, additional, Byrd, Philip J., additional, Stankovic, Tatjana, additional, Taylor, A. Malcolm R., additional, and Durocher, Daniel, additional
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- 2009
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115. A Role for E1B-AP5 in ATR Signaling Pathways during Adenovirus Infection
- Author
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Blackford, Andrew N., primary, Bruton, Rachel K., additional, Dirlik, Orkide, additional, Stewart, Grant S., additional, Taylor, A. Malcolm R., additional, Dobner, Thomas, additional, Grand, Roger J. A., additional, and Turnell, Andrew S., additional
- Published
- 2008
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116. Activation of DNA Damage Response Pathways during Lytic Replication of KSHV.
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Hollingworth, Robert, Skalka, George L., Stewart, Grant S., Hislop, Andrew D., Blackbourn, David J., and Grand, Roger J.
- Subjects
KAPOSI'S sarcoma-associated herpesvirus ,DNA damage ,PHOSPHORYLATION ,VIRAL replication ,VIRAL cell cycle - Abstract
Kaposi's sarcoma-associated herpesvirus (KSHV) is the causative agent of several human malignancies. Human tumour viruses such as KSHV are known to interact with the DNA damage response (DDR), the molecular pathways that recognise and repair lesions in cellular DNA. Here it is demonstrated that lytic reactivation of KSHV leads to activation of the ATM and DNA-PK DDR kinases resulting in phosphorylation of multiple downstream substrates. Inhibition of ATM results in the reduction of overall levels of viral replication while inhibition of DNA-PK increases activation of ATM and leads to earlier viral release. There is no activation of the ATR-CHK1 pathway following lytic replication and CHK1 phosphorylation is inhibited at later times during the lytic cycle. Despite evidence of double-strand breaks and phosphorylation of H2AX, 53BP1 foci are not consistently observed in cells containing lytic virus although RPA32 and MRE11 localise to sites of viral DNA synthesis. Activation of the DDR following KSHV lytic reactivation does not result in a G1 cell cycle block and cells are able to proceed to S-phase during the lytic cycle. KSHV appears then to selectively activate DDR pathways, modulate cell cycle progression and recruit DDR proteins to sites of viral replication during the lytic cycle. [ABSTRACT FROM AUTHOR]
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- 2015
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117. Variations in ATM Protein Expression During Normal Lymphoid Differentiation and Among B-Cell-Derived Neoplasias
- Author
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Starczynski, Jane, primary, Simmons, William, additional, Flavell, Joanne R., additional, Byrd, Phillip J., additional, Stewart, Grant S., additional, Kullar, Harjit S., additional, Groom, Alix, additional, Crocker, John, additional, Moss, Paul A.H., additional, Reynolds, Gary M., additional, Glavina-Durdov, Meri, additional, Taylor, A. Malcolm R., additional, Fegan, Christopher, additional, Stankovic, Tatjana, additional, and Murray, Paul G., additional
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- 2003
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118. Residual Ataxia Telangiectasia Mutated Protein Function in Cells from Ataxia Telangiectasia Patients, with 5762ins137 and 7271T→G Mutations, Showing a Less Severe Phenotype
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Stewart, Grant S., primary, Last, James I.K., additional, Stankovic, Tatjara, additional, Haites, Neva, additional, Kidd, Alexa M.J., additional, Byrd, Philip J., additional, and Taylor, A. Malcolm R., additional
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- 2001
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119. Ataxia without telangiectasia revisited: Update on genetic findings in two brothers with an ataxia-telangiectasia-like disorder
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Klein, Christine, primary, Stewart, Grant S., additional, Quinn, Niall P., additional, and Taylor, A. Malcolm. R., additional
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- 2001
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120. TRAIP promotes DNA damage response during genome replication and is mutated in primordial dwarfism
- Author
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Harley, Margaret E, Murina, Olga, Leitch, Andrea, Higgs, Martin R, Bicknell, Louise S, Yigit, Gökhan, Blackford, Andrew N, Zlatanou, Anastasia, Mackenzie, Karen J, Reddy, Kaalak, Halachev, Mihail, McGlasson, Sarah, Reijns, Martin A M, Fluteau, Adeline, Martin, Carol-Anne, Sabbioneda, Simone, Elcioglu, Nursel H, Altmüller, Janine, Thiele, Holger, Greenhalgh, Lynn, Chessa, Luciana, Maghnie, Mohamad, Salim, Mahmoud, Bober, Michael B, Nürnberg, Peter, Jackson, Stephen P, Hurles, Matthew E, Wollnik, Bernd, Stewart, Grant S, and Jackson, Andrew P
- Abstract
DNA lesions encountered by replicative polymerases threaten genome stability and cell cycle progression. Here we report the identification of mutations in TRAIP, encoding an E3 RING ubiquitin ligase, in patients with microcephalic primordial dwarfism. We establish that TRAIP relocalizes to sites of DNA damage, where it is required for optimal phosphorylation of H2AX and RPA2 during S-phase in response to ultraviolet (UV) irradiation, as well as fork progression through UV-induced DNA lesions. TRAIP is necessary for efficient cell cycle progression and mutations in TRAIP therefore limit cellular proliferation, providing a potential mechanism for microcephaly and dwarfism phenotypes. Human genetics thus identifies TRAIP as a component of the DNA damage response to replication-blocking DNA lesions.
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- 2016
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121. hMRE11: genomic structure and a null mutation identified in a transcript protected from nonsense-mediated mRNA decay.
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Pitts, Sharon A., Kullar, Harjit S., Stankovic, Tatjana, Stewart, Grant S., Last, James I. K., Bedenham, Tina, Armstrong, Susan J., Piane, Maria, Chessa, Luciana, Taylor, A. Malcolm R., and Byrd, Philip J.
- Abstract
We showed recently that mutation of the hMRE11 gene identified a new ataxia telangiectasia-like disorder (ATLD). In this report we describe the genomic organization of the hMRE11 gene and the analysis of a promoter region that appears to direct the divergent transcription of hMRE11 and the adjacent gene. The characterization of the genomic organization of the hMRE11 gene allowed us to determine the basis of an apparent null hMRE11 allele present in the mother and two patients in one of our two ATLD families. Polymorphic markers in the hMRE11 gene, including the promoter region, provided evidence that the mutated maternal allele was not deleted. An exon by exon search revealed the presence of a missense mutation in exon 15, the effect of which was to create a premature termination codon. Transcripts derived from the mutant allele were found to be subject to nonsense-mediated mRNA decay (NMD). Therefore, this allele was effectively null, because little if any mRNA from it was available for translation. The ATLD patients carrying this protein-truncating hMRE11 mutation have survived because the null allele they inherited from their mother is present with a missense mutation inherited from their father, which is expressed as normal levels of partially functional MRE11 protein. The mutation in the maternal hMRE11 allele of family 2 was also identified in a further unrelated Italian family with ATLD and also found to be subject to NMD. [ABSTRACT FROM PUBLISHER]
- Published
- 2001
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122. Damaged replication forks tolerate USP7 to maintain genome stability.
- Author
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Zlatanou, Anastasia and Stewart, Grant S.
- Subjects
- *
DNA damage , *BIOCHEMICAL genetics , *ENZYMES , *CATALYSTS , *PROTEASOMES - Abstract
RAD18 functions to promote DNA damage tolerance (DTT), a process that ensures faithful genome duplication. Protein ubiquitylation/deubiquitylation is a critical regulatory mechanism controlling DTT. Recently, we have identified the deubiquitylating enzyme USP7 as a component of the DTT machinery that acts to protect RAD18 from proteasome-dependent degradation. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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123. A Novel Role of PALB2in Lymphoid Tumour Development
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Stankovic, Tatjana, Byrd, Philip J, Stewart, Grant S, Taylor, Alexander J, Smith, Anna, Fooks, Peggy, Horsley, Robert, Last, James I, Janic, Dragana, Dokmanovic, Lidija, Oliver, Antony W, and Taylor, A.Malcolm R
- Abstract
PALB2 is DNA damage response protein that acts in Homologous recombination Repair (HRR) pathway and promotes recruitment of principal HRR components such as BRCA1, BRCA2 and Rad51. Biallelic PALB2inactivation is associated with the severe form of Fanconi anemia (FA-N), characterised by severe developmental abnormalities and occurrence of embryonal tumours in infancy. Given the rarity of reported patients with biallelic PALB2inactivation, the full extent of phenotypes associated with PALB2mutations is still unknown.
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- 2016
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124. PALB2Mutational Status in Haematopoeitic Malignancies - a Potential Therapeutic Target?
- Author
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Oldreive, Ceri, Stankovic, Tatjana, Byrd, Philip J, Stewart, Grant S, Smith, Anna, Taylor, Alexander J, Fooks, Peggy, Horsley, Robert, Last, James I, Janic, Dragana, Dokmanovic, Lidija, and Taylor, A. Malcolm R
- Abstract
PALB2 protein is one of the principal components of Homologous Recombination Repair (HRR) that facilitates recruitment of other HRR proteins such as BRCA1, BRCA2 and Rad51. Biallelic PALB2inactivation is associated with a severe form of Fanconi Anemia (FA-N), however, biallelic PALB2mutations also occur in patients with a FA-N syndrome variant characterised by a predisposition to B-cell lymphoma development. The association of PALB2 with FA-N and FA-N variant suggests that PALB2 may play a pathogenic role in a wider range of sporadic haematopoietic malignancies. To address this possibility, the mutational status of the PALB2gene was assessed in 30 myelodysplastic syndrome (MDS) samples, 23 acute lymphoblastic leukaemias (ALL), 171 chronic lymphocytic leukaemias (CLL) and 24 paediatric non-Hodgkin lymphomas (NHL) of T- or B-cell origin.
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- 2016
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125. Degradation of a Novel DNA Damage Response Protein, Tankyrase 1 Binding Protein 1, following Adenovirus Infection.
- Author
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Hagkarim, Nafiseh Chalabi, Ryan, Ellis L., Byrd, Philip J., Hollingworth, Robert, Shimwell, Neil J., Agathanggelou, Angelo, Vavasseur, Manon, Kolbe, Viktoria, Speiseder, Thomas, Dobner, Thomas, Stewart, Grant S., and Grand, Roger J.
- Subjects
- *
DNA viruses , *CARRIER proteins , *VIRAL vaccines , *VIRAL proteins , *DNA damage , *ADENOVIRUS diseases - Abstract
Infection by most DNA viruses activates a cellular DNA damage response (DDR), which may be to the detriment or advantage of the virus. In the case of adenoviruses, they neutralize antiviral effects of DDR activation by targeting a number of proteins for rapid proteasome-mediated degradation. We have now identified a novel DDR protein, tankyrase 1 binding protein 1 (TNKS1BP1) (also known as Tab182), which is degraded during infection by adenovirus serotype 5 and adenovirus serotype 12. In both cases, degradation requires the action of the early region 1B55K (E1B55K) and early region 4 open reading frame 6 (E4orf6) viral proteins and is mediated through the proteasome by the action of cullin-based cellular E3 ligases. The degradation of Tab182 appears to be serotype specific, as the protein remains relatively stable following infection with adenovirus serotypes 4, 7, 9, and 11. We have gone on to confirm that Tab182 is an integral component of the CNOT complex, which has transcriptional regulatory, deadenylation, and E3 ligase activities. The levels of at least 2 other members of the complex (CNOT3 and CNOT7) are also reduced during adenovirus infection, whereas the levels of CNOT4 and CNOT1 remain stable. The depletion of Tab182 with small interfering RNA (siRNA) enhances the expression of early region 1A proteins (E1As) to a limited extent during adenovirus infection, but the depletion of CNOT1 is particularly advantageous to the virus and results in a marked increase in the expression of adenovirus early proteins. In addition, the depletion of Tab182 and CNOT1 results in a limited increase in the viral DNA level during infection. We conclude that the cellular CNOT complex is a previously unidentified major target for adenoviruses during infection. IMPORTANCE Adenoviruses target a number of cellular proteins involved in the DNA damage response for rapid degradation. We have now shown that Tab182, which we have confirmed to be an integral component of the mammalian CNOT complex, is degraded following infection by adenovirus serotypes 5 and 12. This requires the viral E1B55K and E4orf6 proteins and is mediated by cullin-based E3 ligases and the proteasome. In addition to Tab182, the levels of other CNOT proteins are also reduced during adenovirus infection. Thus, CNOT3 and CNOT7, for example, are degraded, whereas CNOT4 and CNOT1 are not. The siRNA-mediated depletion of components of the complex enhances the expression of adenovirus early proteins and increases the concentration of viral DNA produced during infection. This study highlights a novel protein complex, CNOT, which is targeted for adenovirus-mediated protein degradation. To our knowledge, this is the first time that the CNOT complex has been identified as an adenoviral target. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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126. TRAIP promotes DNA damage response during genome replication and is mutated in primordial dwarfism
- Author
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Lynn Greenhalgh, Janine Altmüller, Bernd Wollnik, Gökhan Yigit, Michael B. Bober, Sarah McGlasson, Andrew N. Blackford, Louise S. Bicknell, Matthew E. Hurles, Holger Thiele, Peter Nürnberg, Carol Anne Martin, Karen J. Mackenzie, Kaalak Reddy, Andrea Leitch, Grant S. Stewart, Margaret E. Harley, Luciana Chessa, Adeline Fluteau, Stephen P. Jackson, Martin R. Higgs, Olga Murina, Mihail Halachev, Martin A M Reijns, Simone Sabbioneda, Mahmoud Salim, Anastasia Zlatanou, Nursel Elcioglu, Andrew P. Jackson, Mohamad Maghnie, Harley, Margaret E., Murina, Olga, Leitch, Andrea, Higgs, Martin R., Bicknell, Louise S., Yigit, Goekhan, Blackford, Andrew N., Zlatanou, Anastasia, Mackenzie, Karen J., Reddy, Kaalak, Halachev, Mihail, McGlasson, Sarah, Reijns, Martin A. M., Fluteau, Adeline, Martin, Carol-Anne, Sabbioneda, Simone, Elcioglu, Nursel H., Altmueller, Janine, Thiele, Holger, Greenhalgh, Lynn, Chessa, Luciana, Maghnie, Mohamad, Salim, Mahmoud, Bober, Michael B., Nuernberg, Peter, Jackson, Stephen P., Hurles, Matthew E., Wollnik, Bernd, Stewart, Grant S., Jackson, Andrew P., Jackson, Stephen [0000-0001-9317-7937], and Apollo - University of Cambridge Repository
- Subjects
0301 basic medicine ,Ultraviolet Rays ,DNA damage ,Ubiquitin-Protein Ligases ,Molecular Sequence Data ,GROWTH FAILURE ,Dwarfism ,Biology ,medicine.disease_cause ,Article ,UBIQUITIN ,S Phase ,Histones ,03 medical and health sciences ,chemistry.chemical_compound ,Replication Protein A ,INTERACTING PROTEIN TRIP ,Genetics ,medicine ,Humans ,Amino Acid Sequence ,HOMOZYGOSITY ,Phosphorylation ,Replication protein A ,Cell Proliferation ,REPAIR ,Mutation ,MUTATIONS ,Facies ,ORIGIN RECOGNITION COMPLEX ,POLYMERASE ETA ,DEGRADATION ,medicine.disease ,Tumor Necrosis Factor Receptor-Associated Peptides and Proteins ,EMBRYONIC LETHALITY ,3. Good health ,Ubiquitin ligase ,030104 developmental biology ,Histone ,chemistry ,Child, Preschool ,Microcephaly ,biology.protein ,Primordial dwarfism ,DNA ,DNA Damage - Abstract
DNA lesions encountered by replicative polymerases threaten genome stability and cell cycleprogression. Here we report the identification of mutations in TRAIP, encoding an E3 RING ubiquitinligase, in patients with microcephalic primordial dwarfism/Seckel syndrome. We establish that TRAIPrelocalizes to sites of DNA damage where it is required for optimal phosphorylation of H2AX andRPA2 during S-phase in response to UV irradiation, as well as fork progression through UV-inducedDNA lesions. TRAIP is necessary for efficient cell cycle progression and mutations in TRAIP thereforelimit cellular proliferation, providing a potential mechanism for microcephaly and dwarfismphenotypes. Human genetics thus identifies TRAIP as a novel component of the DNA damageresponse to replication-blocking DNA lesions.
- Published
- 2015
- Full Text
- View/download PDF
127. PCNA-binding activity separates RNF168 functions in DNA replication and DNA double-stranded break signaling.
- Author
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Yang Y, Jayaprakash D, Jhujh SS, Reynolds JJ, Chen S, Gao Y, Anand JR, Mutter-Rottmayer E, Ariel P, An J, Cheng X, Pearce KH, Blanchet SA, Nandakumar N, Zhou P, Fradet-Turcotte A, Stewart GS, and Vaziri C
- Abstract
RNF168 orchestrates a ubiquitin-dependent DNA damage response to regulate the recruitment of repair factors, such as 53BP1 to DNA double-strand breaks (DSBs). In addition to its canonical functions in DSB signaling, RNF168 may facilitate DNA replication fork progression. However, the precise role of RNF168 in DNA replication remains unclear. Here, we demonstrate that RNF168 is recruited to DNA replication factories in a manner that is independent of the canonical DSB response pathway regulated by Ataxia-Telangiectasia Mutated (ATM) and RNF8. We identify a degenerate Proliferating Cell Nuclear Antigen (PCNA)-interacting peptide (DPIP) motif in the C-terminus of RNF168, which together with its Motif Interacting with Ubiquitin (MIU) domain mediates binding to mono-ubiquitylated PCNA at replication factories. An RNF168 mutant harboring inactivating substitutions in its DPIP box and MIU1 domain (termed RNF168 ΔDPIP/ΔMIU1) is not recruited to sites of DNA synthesis and fails to support ongoing DNA replication. Notably, the PCNA interaction-deficient RNF168 ΔDPIP/ΔMIU1 mutant fully rescues the ability of RNF168-/- cells to form 53BP1 foci in response to DNA DSBs. Therefore, RNF168 functions in DNA replication and DSB signaling are fully separable. Our results define a new mechanism by which RNF168 promotes DNA replication independently of its canonical functions in DSB signaling., (© The Author(s) 2024. Published by Oxford University Press on behalf of Nucleic Acids Research.)
- Published
- 2024
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128. USP37 prevents premature disassembly of stressed replisomes by TRAIP.
- Author
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Kochenova OV, D'Alessandro G, Pilger D, Schmid E, Richards SL, Garcia MR, Jhujh SS, Voigt A, Gupta V, Carnie CJ, Wu RA, Gueorguieva N, Stewart GS, Walter JC, and Jackson SP
- Abstract
The E3 ubiquitin ligase TRAIP associates with the replisome and helps this molecular machine deal with replication stress. Thus, TRAIP promotes DNA inter-strand crosslink repair by triggering the disassembly of CDC45-MCM2-7-GINS (CMG) helicases that have converged on these lesions. However, disassembly of single CMGs that have stalled temporarily would be deleterious, suggesting that TRAIP must be carefully regulated. Here, we demonstrate that human cells lacking the de-ubiquitylating enzyme USP37 are hypersensitive to topoisomerase poisons and other replication stress-inducing agents. We further show that TRAIP loss rescues the hypersensitivity of USP37 knockout cells to topoisomerase inhibitors. In Xenopus egg extracts depleted of USP37, TRAIP promotes premature CMG ubiquitylation and disassembly when converging replisomes stall. Finally, guided by AlphaFold-Multimer, we discovered that binding to CDC45 mediates USP37's response to topological stress. In conclusion, we propose that USP37 protects genome stability by preventing TRAIP-dependent CMG unloading when replication stress impedes timely termination., Competing Interests: Competing interests J.C.W. is a co-founder of MOMA Therapeutics, in which he has a financial interest. S.P.J. is Chief Research Officer (part time) at Insmed Innovation UK. Ltd. and founding partner of Ahren Innovation Capital LLP. He is a board member and chair of Scientific Advisory Board of Mission Therapeutics Ltd. and is a consultant and shareholder of Inflex Ltd. The remaining authors declare no competing interests.
- Published
- 2024
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129. Dominant negative variants in ITPR3 impair T cell Ca2+ dynamics causing combined immunodeficiency.
- Author
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Blanco E, Camps C, Bahal S, Kerai MD, Ferla MP, Rochussen AM, Handel AE, Golwala ZM, Spiridou Goncalves H, Kricke S, Klein F, Zhang F, Zinghirino F, Evans G, Keane TM, Lizot S, Kusters MAA, Iro MA, Patel SV, Morris EC, Burns SO, Radcliffe R, Vasudevan P, Price A, Gillham O, Valdebenito GE, Stewart GS, Worth A, Adams SP, Duchen M, André I, Adams DJ, Santili G, Gilmour KC, Holländer GA, Davies EG, Taylor JC, Griffiths GM, Thrasher AJ, Dhalla F, and Kreins AY
- Subjects
- Humans, Male, Female, Endoplasmic Reticulum metabolism, Calcium Signaling, Infant, Child, Preschool, Child, Mutation, Missense, Severe Combined Immunodeficiency genetics, Severe Combined Immunodeficiency pathology, Severe Combined Immunodeficiency metabolism, Severe Combined Immunodeficiency immunology, Inositol 1,4,5-Trisphosphate Receptors metabolism, Inositol 1,4,5-Trisphosphate Receptors genetics, T-Lymphocytes immunology, T-Lymphocytes metabolism, Calcium metabolism
- Abstract
The importance of calcium (Ca2+) as a second messenger in T cell signaling is exemplified by genetic deficiencies of STIM1 and ORAI1, which abolish store-operated Ca2+ entry (SOCE) resulting in combined immunodeficiency (CID). We report five unrelated patients with de novo missense variants in ITPR3, encoding a subunit of the inositol 1,4,5-trisphosphate receptor (IP3R), which forms a Ca2+ channel in the endoplasmic reticulum (ER) membrane responsible for the release of ER Ca2+ required to trigger SOCE, and for Ca2+ transfer to other organelles. The patients presented with CID, abnormal T cell Ca2+ homeostasis, incompletely penetrant ectodermal dysplasia, and multisystem disease. Their predominant T cell immunodeficiency is characterized by significant T cell lymphopenia, defects in late stages of thymic T cell development, and impaired function of peripheral T cells, including inadequate NF-κB- and NFAT-mediated, proliferative, and metabolic responses to activation. Pathogenicity is not due to haploinsufficiency, rather ITPR3 protein variants interfere with IP3R channel function leading to depletion of ER Ca2+ stores and blunted SOCE in T cells., (© 2024 Blanco et al.)
- Published
- 2025
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130. Actin nucleators safeguard replication forks by limiting nascent strand degradation.
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Nieminuszczy J, Martin PR, Broderick R, Krwawicz J, Kanellou A, Mocanu C, Bousgouni V, Smith C, Wen KK, Woodward BL, Bakal C, Shackley F, Aguilera A, Stewart GS, Vyas YM, and Niedzwiedz W
- Abstract
Accurate genome replication is essential for all life and a key mechanism of disease prevention, underpinned by the ability of cells to respond to replicative stress (RS) and protect replication forks. These responses rely on the formation of Replication Protein A (RPA)-single stranded (ss) DNA complexes, yet this process remains largely uncharacterized. Here we establish that actin nucleation-promoting factors (NPFs) associate with replication forks, promote efficient DNA replication and facilitate association of RPA with ssDNA at sites of RS. Accordingly, their loss leads to deprotection of ssDNA at perturbed forks, impaired ATR activation, global replication defects and fork collapse. Supplying an excess of RPA restores RPA foci formation and fork protection, suggesting a chaperoning role for actin nucleators (ANs) (i.e., Arp2/3, DIAPH1) and NPFs (i.e, WASp, N-WASp) in regulating RPA availability upon RS. We also discover that β-actin interacts with RPA directly in vitro , and in vivo a hyper-depolymerizing β-actin mutant displays a heightened association with RPA and the same dysfunctional replication phenotypes as loss of ANs/NPFs, which contrasts with the phenotype of a hyper-polymerizing β-actin mutant. Thus, we identify components of actin polymerization pathways that are essential for preventing ectopic nucleolytic degradation of perturbed forks by modulating RPA activity.
- Published
- 2023
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131. Warsaw Breakage Syndrome associated DDX11 helicase resolves G-quadruplex structures to support sister chromatid cohesion.
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van Schie JJM, Faramarz A, Balk JA, Stewart GS, Cantelli E, Oostra AB, Rooimans MA, Parish JL, de Almeida Estéves C, Dumic K, Barisic I, Diderich KEM, van Slegtenhorst MA, Mahtab M, Pisani FM, Te Riele H, Ameziane N, Wolthuis RMF, and de Lange J
- Subjects
- Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, Cell Proliferation, DEAD-box RNA Helicases chemistry, DNA Helicases chemistry, Fanconi Anemia Complementation Group Proteins genetics, Fanconi Anemia Complementation Group Proteins metabolism, Humans, Male, Middle Aged, Mutation, Missense, Protein Stability, Pseudogenes, RNA Helicases genetics, RNA Helicases metabolism, Rad51 Recombinase genetics, Rad51 Recombinase metabolism, Syndrome, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Abnormalities, Multiple etiology, DEAD-box RNA Helicases genetics, DEAD-box RNA Helicases metabolism, DNA Helicases genetics, DNA Helicases metabolism, G-Quadruplexes, Sister Chromatid Exchange
- Abstract
Warsaw Breakage Syndrome (WABS) is a rare disorder related to cohesinopathies and Fanconi anemia, caused by bi-allelic mutations in DDX11. Here, we report multiple compound heterozygous WABS cases, each displaying destabilized DDX11 protein and residual DDX11 function at the cellular level. Patient-derived cell lines exhibit sensitivity to topoisomerase and PARP inhibitors, defective sister chromatid cohesion and reduced DNA replication fork speed. Deleting DDX11 in RPE1-TERT cells inhibits proliferation and survival in a TP53-dependent manner and causes chromosome breaks and cohesion defects, independent of the expressed pseudogene DDX12p. Importantly, G-quadruplex (G4) stabilizing compounds induce chromosome breaks and cohesion defects which are strongly aggravated by inactivation of DDX11 but not FANCJ. The DNA helicase domain of DDX11 is essential for sister chromatid cohesion and resistance to G4 stabilizers. We propose that DDX11 is a DNA helicase protecting against G4 induced double-stranded breaks and concomitant loss of cohesion, possibly at DNA replication forks.
- Published
- 2020
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- View/download PDF
132. DONSON and FANCM associate with different replisomes distinguished by replication timing and chromatin domain.
- Author
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Zhang J, Bellani MA, James RC, Pokharel D, Zhang Y, Reynolds JJ, McNee GS, Jackson AP, Stewart GS, and Seidman MM
- Subjects
- Chromatin Immunoprecipitation Sequencing, HeLa Cells, Humans, S Phase, Cell Cycle Proteins metabolism, DNA Helicases metabolism, DNA Replication Timing, Euchromatin metabolism, Heterochromatin metabolism, Nuclear Proteins metabolism
- Abstract
Duplication of mammalian genomes requires replisomes to overcome numerous impediments during passage through open (eu) and condensed (hetero) chromatin. Typically, studies of replication stress characterize mixed populations of challenged and unchallenged replication forks, averaged across S phase, and model a single species of "stressed" replisome. Here, in cells containing potent obstacles to replication, we find two different lesion proximal replisomes. One is bound by the DONSON protein and is more frequent in early S phase, in regions marked by euchromatin. The other interacts with the FANCM DNA translocase, is more prominent in late S phase, and favors heterochromatin. The two forms can also be detected in unstressed cells. ChIP-seq of DNA associated with DONSON or FANCM confirms the bias of the former towards regions that replicate early and the skew of the latter towards regions that replicate late.
- Published
- 2020
- Full Text
- View/download PDF
133. Germline RBBP8 variants associated with early-onset breast cancer compromise replication fork stability.
- Author
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Zarrizi R, Higgs MR, Voßgröne K, Rossing M, Bertelsen B, Bose M, Kousholt AN, Rösner H, Network TC, Ejlertsen B, Stewart GS, Nielsen FC, and Sørensen CS
- Subjects
- Adult, DNA Breaks, Double-Stranded, Female, Humans, MCF-7 Cells, Breast Neoplasms enzymology, Breast Neoplasms genetics, Breast Neoplasms pathology, DNA Replication, DNA, Neoplasm genetics, DNA, Neoplasm metabolism, Endodeoxyribonucleases genetics, Endodeoxyribonucleases metabolism, Germ-Line Mutation, Neoplasm Proteins genetics, Neoplasm Proteins metabolism
- Abstract
Haploinsufficiency of factors governing genome stability underlies hereditary breast and ovarian cancer. One significant pathway that is disabled as a result is homologous recombination repair (HRR). With the aim of identifying new candidate genes, we examined early-onset breast cancer patients negative for BRCA1 and BRCA2 pathogenic variants. Here, we focused on CtIP (RBBP8 gene), which mediates HRR through the end resection of DNA double-strand breaks (DSBs). Notably, these patients exhibited a number of rare germline RBBP8 variants. Functional analysis revealed that these variants did not affect DNA DSB end resection efficiency. However, expression of a subset of variants led to deleterious nucleolytic degradation of stalled DNA replication forks in a manner similar to that of cells lacking BRCA1 or BRCA2. In contrast to BRCA1 and BRCA2, CtIP deficiency promoted the helicase-driven destabilization of RAD51 nucleofilaments at damaged DNA replication forks. Taken together, our work identifies CtIP as a critical regulator of DNA replication fork integrity, which, when compromised, may predispose to the development of early-onset breast cancer.
- Published
- 2020
- Full Text
- View/download PDF
134. Chromosome instability syndromes.
- Author
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Taylor AMR, Rothblum-Oviatt C, Ellis NA, Hickson ID, Meyer S, Crawford TO, Smogorzewska A, Pietrucha B, Weemaes C, and Stewart GS
- Subjects
- Ataxia Telangiectasia diagnosis, Ataxia Telangiectasia genetics, Ataxia Telangiectasia physiopathology, Bloom Syndrome diagnosis, Bloom Syndrome genetics, Bloom Syndrome physiopathology, DNA Damage genetics, DNA Repair-Deficiency Disorders physiopathology, Fanconi Anemia diagnosis, Fanconi Anemia genetics, Fanconi Anemia physiopathology, Humans, Nijmegen Breakage Syndrome diagnosis, Nijmegen Breakage Syndrome genetics, Nijmegen Breakage Syndrome physiopathology, DNA Repair-Deficiency Disorders diagnosis, DNA Repair-Deficiency Disorders genetics
- Abstract
Fanconi anaemia (FA), ataxia telangiectasia (A-T), Nijmegen breakage syndrome (NBS) and Bloom syndrome (BS) are clinically distinct, chromosome instability (or breakage) disorders. Each disorder has its own pattern of chromosomal damage, with cells from these patients being hypersensitive to particular genotoxic drugs, indicating that the underlying defect in each case is likely to be different. In addition, each syndrome shows a predisposition to cancer. Study of the molecular and genetic basis of these disorders has revealed mechanisms of recognition and repair of DNA double-strand breaks, DNA interstrand crosslinks and DNA damage during DNA replication. Specialist clinics for each disorder have provided the concentration of expertise needed to tackle their characteristic clinical problems and improve outcomes. Although some treatments of the consequences of a disorder may be possible, for example, haematopoietic stem cell transplantation in FA and NBS, future early intervention to prevent complications of disease will depend on a greater understanding of the roles of the affected DNA repair pathways in development. An important realization has been the predisposition to cancer in carriers of some of these gene mutations.
- Published
- 2019
- Full Text
- View/download PDF
135. Isomerization of BRCA1-BARD1 promotes replication fork protection.
- Author
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Daza-Martin M, Starowicz K, Jamshad M, Tye S, Ronson GE, MacKay HL, Chauhan AS, Walker AK, Stone HR, Beesley JFJ, Coles JL, Garvin AJ, Stewart GS, McCorvie TJ, Zhang X, Densham RM, and Morris JR
- Subjects
- BRCA1 Protein genetics, Cell Line, Tumor, Genomic Instability genetics, Humans, Isomerism, Mutation, NIMA-Interacting Peptidylprolyl Isomerase metabolism, Phosphorylation, Phosphoserine metabolism, Protein Binding, Rad51 Recombinase metabolism, BRCA1 Protein chemistry, BRCA1 Protein metabolism, DNA Replication genetics, Tumor Suppressor Proteins metabolism, Ubiquitin-Protein Ligases metabolism
- Abstract
The integrity of genomes is constantly threatened by problems encountered by the replication fork. BRCA1, BRCA2 and a subset of Fanconi anaemia proteins protect stalled replication forks from degradation by nucleases, through pathways that involve RAD51. The contribution and regulation of BRCA1 in replication fork protection, and how this role relates to its role in homologous recombination, is unclear. Here we show that BRCA1 in complex with BARD1, and not the canonical BRCA1-PALB2 interaction, is required for fork protection. BRCA1-BARD1 is regulated by a conformational change mediated by the phosphorylation-directed prolyl isomerase PIN1. PIN1 activity enhances BRCA1-BARD1 interaction with RAD51, thereby increasing the presence of RAD51 at stalled replication structures. We identify genetic variants of BRCA1-BARD1 in patients with cancer that exhibit poor protection of nascent strands but retain homologous recombination proficiency, thus defining domains of BRCA1-BARD1 that are required for fork protection and associated with cancer development. Together, these findings reveal a BRCA1-mediated pathway that governs replication fork protection.
- Published
- 2019
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- View/download PDF
136. Novel PNKP mutations causing defective DNA strand break repair and PARP1 hyperactivity in MCSZ.
- Author
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Kalasova I, Hanzlikova H, Gupta N, Li Y, Altmüller J, Reynolds JJ, Stewart GS, Wollnik B, Yigit G, and Caldecott KW
- Abstract
Objective: To address the relationship between novel mutations in polynucleotide 5'-kinase 3'-phosphatase (PNKP), DNA strand break repair, and neurologic disease., Methods: We have employed whole-exome sequencing, Sanger sequencing, and molecular/cellular biology., Results: We describe here a patient with microcephaly with early onset seizures (MCSZ) from the Indian sub-continent harboring 2 novel mutations in PNKP , including a pathogenic mutation in the fork-head associated domain. In addition, we confirm that MCSZ is associated with hyperactivation of the single-strand break sensor protein protein poly (ADP-ribose) polymerase 1 (PARP1) following the induction of abortive topoisomerase I activity, a source of DNA strand breakage associated previously with neurologic disease., Conclusions: These data expand the spectrum of PNKP mutations associated with MCSZ and show that PARP1 hyperactivation at unrepaired topoisomerase-induced DNA breaks is a molecular feature of this disease.
- Published
- 2019
- Full Text
- View/download PDF
137. USP7 inhibition alters homologous recombination repair and targets CLL cells independently of ATM/p53 functional status.
- Author
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Agathanggelou A, Smith E, Davies NJ, Kwok M, Zlatanou A, Oldreive CE, Mao J, Da Costa D, Yadollahi S, Perry T, Kearns P, Skowronska A, Yates E, Parry H, Hillmen P, Reverdy C, Delansorne R, Paneesha S, Pratt G, Moss P, Taylor AMR, Stewart GS, and Stankovic T
- Subjects
- Adenine analogs & derivatives, Animals, Antineoplastic Agents pharmacology, Ataxia Telangiectasia Mutated Proteins genetics, Ataxia Telangiectasia Mutated Proteins metabolism, Cell Line, Tumor, DNA Damage, Drug Resistance, Neoplasm genetics, Humans, Leukemia, Lymphocytic, Chronic, B-Cell drug therapy, Leukemia, Lymphocytic, Chronic, B-Cell metabolism, Leukemia, Lymphocytic, Chronic, B-Cell pathology, Mice, Mice, Inbred NOD, Piperidines, Primary Cell Culture, Pyrazoles pharmacology, Pyrimidines pharmacology, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Signal Transduction, Tumor Suppressor Protein p53 metabolism, Ubiquitin-Specific Peptidase 7, Ubiquitin-Specific Proteases antagonists & inhibitors, Ubiquitin-Specific Proteases metabolism, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Recombinational DNA Repair drug effects, Tumor Suppressor Protein p53 genetics, Ubiquitin-Specific Proteases genetics
- Abstract
The role of deubiquitylase ubiquitin-specific protease 7 (USP7) in the regulation of the p53-dependent DNA damage response (DDR) pathway is well established. Whereas previous studies have mostly focused on the mechanisms underlying how USP7 directly controls p53 stability, we recently showed that USP7 modulates the stability of the DNA damage responsive E3 ubiquitin ligase RAD18. This suggests that targeting USP7 may have therapeutic potential even in tumors with defective p53 or ibrutinib resistance. To test this hypothesis, we studied the effect of USP7 inhibition in chronic lymphocytic leukemia (CLL) where the ataxia telangiectasia mutated (ATM)-p53 pathway is inactivated with relatively high frequency, leading to treatment resistance and poor clinical outcome. We demonstrate that USP7 is upregulated in CLL cells, and its loss or inhibition disrupts homologous recombination repair (HRR). Consequently, USP7 inhibition induces significant tumor-cell killing independently of ATM and p53 through the accumulation of genotoxic levels of DNA damage. Moreover, USP7 inhibition sensitized p53-defective, chemotherapy-resistant CLL cells to clinically achievable doses of HRR-inducing chemotherapeutic agents in vitro and in vivo in a murine xenograft model. Together, these results identify USP7 as a promising therapeutic target for the treatment of hematological malignancies with DDR defects, where ATM/p53-dependent apoptosis is compromised., (© 2017 by The American Society of Hematology.)
- Published
- 2017
- Full Text
- View/download PDF
138. Targeting the Ataxia Telangiectasia Mutated-null phenotype in chronic lymphocytic leukemia with pro-oxidants.
- Author
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Agathanggelou A, Weston VJ, Perry T, Davies NJ, Skowronska A, Payne DT, Fossey JS, Oldreive CE, Wei W, Pratt G, Parry H, Oscier D, Coles SJ, Hole PS, Darley RL, McMahon M, Hayes JD, Moss P, Stewart GS, Taylor AM, and Stankovic T
- Subjects
- Animals, Antioxidants metabolism, Apoptosis, Caspases metabolism, Disease Models, Animal, Gene Expression Regulation, Leukemic, Humans, Mitochondria metabolism, NF-E2-Related Factor 2 genetics, NF-E2-Related Factor 2 metabolism, Protein Binding, Reactive Oxygen Species metabolism, Response Elements, Superoxides metabolism, Tumor Suppressor Protein p53 metabolism, Xenograft Model Antitumor Assays, Ataxia Telangiectasia Mutated Proteins genetics, Homozygote, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Leukemia, Lymphocytic, Chronic, B-Cell metabolism, Mutation, Oxidants metabolism, Phenotype
- 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.)
- Published
- 2015
- Full Text
- View/download PDF
139. Human Claspin works with BRCA1 to both positively and negatively regulate cell proliferation.
- Author
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Lin SY, Li K, Stewart GS, and Elledge SJ
- Subjects
- BRCA1 Protein metabolism, Base Sequence, Carrier Proteins metabolism, Cell Survival physiology, DNA Damage, Humans, Oligoribonucleotides, Phosphorylation, Protein Binding, Adaptor Proteins, Signal Transducing, BRCA1 Protein physiology, Carrier Proteins physiology, Cell Division physiology, Xenopus Proteins
- Abstract
Claspin is a homolog of Mrc1, a checkpoint protein required for the DNA replication checkpoint in yeast. In Xenopus, phosphorylated Claspin binds to xChk1 and regulates xChk1 activation in response to replication stress. In this study, we have shown that the human homolog of Claspin is required for resistance to multiple forms of genotoxic stress including UV, IR, and hydroxyurea. Phosphorylation of Claspin was found to depend on the ataxia telangiectasia mutated-Rad3 related (ATR) pathway. DNA damage induces the formation of a complex between Claspin and BRCA1, a second regulator of Chk1 activation. Claspin was found to control BRCA1 phosphorylation on serine 1524, a site whose phosphorylation is controlled by the ATR pathway. These results are consistent with a model in which ATR regulates Claspin phosphorylation in response to DNA damage and replication stress resulting in recruitment and phosphorylation of BRCA1. BRCA1 and Claspin then function to activate the tumor suppressor Chk1. Unexpectedly, we found that Claspin has a second, positive role in control of the cell cycle as Claspin overexpression increased cell proliferation. These results suggest that Claspin has properties of both a tumor suppressor and an oncogene.
- Published
- 2004
- Full Text
- View/download PDF
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