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List of publications using VE 821 (Axon 1893) purchased from Axon Medchem

(Total 45 publication citations; up to date up to June 2023)

2023

Stok, C. (2023). Mitotic processing of DNA replication and repair intermediates in cancer.

https://research.rug.nl/en/publications/mitotic-processing-of-dna-replication-and-repair-intermediates-in

* VE-821, veliparib and talazoparib from Axon Medchem

2022
Heijink, A. M., Stok, C., Porubsky, D., Manolika, E. M., de Kanter, J. K., Kok, Y. P., ... & van Vugt, M. A. (2022). Sister chromatid exchanges induced by perturbed replication can form independently of BRCA1, BRCA2 and RAD51. Nature Communications, 13(1), 6722.

https://www.nature.com/articles/s41467-022-34519-8

* Olaparib, Veliparib, talazoparib, B02, VE-821, AZD-1775 from Axon Medchem

Huiting, W., Dekker, S. L., van der Lienden, J. C., Mergener, R., Musskopf, M. K., Furtado, G. V., ... & Bergink, S. (2022). Targeting DNA topoisomerases or checkpoint kinases results in an overload of chaperone systems, triggering aggregation of a metastable subproteome. Elife, 11, e70726.

https://elifesciences.org/articles/70726

* VE-821, KU-0058948 and VER-155008 from Axon Medchem

2021

Heijink, A. M., Stok, C., Porubsky, D., Manolika, E. M., Kok, Y. P., Everts, M., ... & van Vugt, M. A. (2021). Sister chromatid exchanges induced by perturbed replication are formed independently of homologous recombination factors. Biorxiv, 2021-09.

https://www.biorxiv.org/content/10.1101/2021.09.17.460736v1.full

* Olaparib, Veliparib, talazoparib, B02, VE-821, from Axon Medchem

Sudhindar, P. D., Wainwright, D., Saha, S., Howarth, R., McCain, M., Bury, Y., ... & Shukla, R. (2021). Hcv activates somatic l1 retrotransposition—a potential hepatocarcinogenesis pathway. Cancers, 13(20), 5079.

https://www.mdpi.com/2072-6694/13/20/5079

Sudhindar, P. D., Wainwright, D., Saha, S., Howarth, R., McCain, M., Bury, Y., ... & Shukla, R. (2021). HCV Activates Somatic L1 Retrotransposition to Influence Hepatocarcinogenesis Beyond Viral Clearance. Cancers.

https://eprints.ncl.ac.uk/file_store/production/277631/824CE666-161C-4701-84DB-D10EEEB43121.pdf

Permata, T. B. M., Sato, H., Gu, W., Kakoti, S., Uchihara, Y., Yoshimatsu, Y., ... & Shibata, A. (2021). High linear energy transfer carbon-ion irradiation upregulates PD-L1 expression more significantly than X-rays in human osteosarcoma U2OS cells. Journal of radiation research, 62(5), 773-781.

https://academic.oup.com/jrr/article/62/5/773/6311362

Sharma, V. K., Islam, S., Borkar, J., Mishra, S., Panda, D., Santra, M. K., & Lahiri, M. (2021). ATR facilitates the degradation of Api5 through the ubiquitin-proteasome pathway via FBXW2 to regulate apoptosis upon DNA damage. bioRxiv, 2021-08.

https://www.biorxiv.org/content/10.1101/2021.08.08.455545v1.full

Ninou, A. H., Lehto, J., Chioureas, D., Stigsdotter, H., Schelzig, K., Åkerlund, E., ... & Gustafsson, N. M. S. (2021). PFKFB3 inhibition sensitizes DNA crosslinking chemotherapies by suppressing Fanconi anemia repair. Cancers, 13(14), 3604.

https://www.mdpi.com/2072-6694/13/14/3604

2020

Fujii, A., Sunatani, Y., Furuichi, K., Fujimoto, K., Adachi, H., Iwabuchi, K., & Yokoyama, H. (2020). DNA damage in human glomerular endothelial cells induces nodular glomerulosclerosis via an ATR and ANXA2 pathway. Scientific Reports, 10(1), 1-12.

https://link.springer.com/content/pdf/10.1038/s41598-020-79106-3.pdf

佐藤浩央. (2020). 137. がん免疫応答を制御する DNA 修復応答の解明.

https://www.ueharazaidan.or.jp/houkokushu/Vol.34/pdf/report/137_report.pdf

Warmerdam, D. O., Alonso‐de Vega, I., Wiegant, W. W., van den Broek, B., Rother, M. B., Wolthuis, R. M., ... & Smits, V. A. (2020). PHF6 promotes non‐homologous end joining and G2 checkpoint recovery. EMBO reports, 21(1).

https://www.embopress.org/doi/full/10.15252/embr.201948460

2019
Landsverk, H. B., Sandquist, L. E., Sridhara, S. C., Rødland, G. E., Sabino, J. C., de Almeida, S. F., ... & Syljuåsen, R. G. (2019). Regulation of ATR activity via the RNA polymerase II associated factors CDC73 and PNUTS-PP1. Nucleic acids research, 47(4), 1797-1813.
https://academic.oup.com/nar/article/47/4/1797/5239026

Mengwasser, K. E., Adeyemi, R. O., Leng, Y., Choi, M. Y., Clairmont, C., D’Andrea, A. D., & Elledge, S. J. (2019). Genetic Screens Reveal FEN1 and APEX2 as BRCA2 Synthetic Lethal Targets. Molecular cell, 73(5), 885-899.

https://www.sciencedirect.com/science/article/pii/S1097276518310621

Permata, T. B. M., Hagiwara, Y., Sato, H., Yasuhara, T., Oike, T., Gondhowiardjo, S., ... & Shibata, A. (2019). Base excision repair regulates PD-L1 expression in cancer cells. Oncogene, 1.

https://www.nature.com/articles/s41388-019-0733-6

2018

Gustafsson, N. M., Färnegårdh, K., Bonagas, N., Ninou, A. H., Groth, P., Wiita, E., ... & Martinsson, J. (2018). Targeting PFKFB3 radiosensitizes cancer cells and suppresses homologous recombination. Nature communications, 9(1), 3872.

https://www.nature.com/articles/s41467-018-06287-x

Fordham, S. E., Blair, H. J., Elstob, C. J., Plummer, R., Drew, Y., Curtin, N. J., ... & Pollard, J. (2018). Inhibition of ATR acutely sensitizes acute myeloid leukemia cells to nucleoside analogs that target ribonucleotide reductase. Blood Advances, 2(10), 1157-1169.

http://www.bloodadvances.org/content/2/10/1157

Landsverk, H. B., Sandquist, L. E., Rodland, G. E., Grallert, B., Trinkle-Mulcahy, L., & Syljuasen, R. G. (2018). Regulation of ATR activity by the RNA polymerase II phosphatase PNUTS-PP1. bioRxiv, 267013.

https://www.biorxiv.org/content/early/2018/02/16/267013

Bøe, C. A., Håland, T. W., Boye, E., Syljuåsen, R. G., & Grallert, B. (2018). A novel role for ATR/Rad3 in G1 phase. Scientific reports, 8(1), 6880.

https://www.nature.com/articles/s41598-018-25238-6

Henriksson, S., Groth, P., Gustafsson, N., & Helleday, T. (2018). Distinct mechanistic responses to replication fork stalling induced by either nucleotide or protein deprivation. Cell Cycle, 1-12.

https://www.tandfonline.com/doi/abs/10.1080/15384101.2017.1387696

Halim, V. A., García-Santisteban, I., Warmerdam, D. O., van den Broek, B., Heck, A. J., Mohammed, S., & Medema, R. H. (2018). Doxorubicin-induced DNA damage causes extensive ubiquitination of ribosomal proteins associated with a decrease in protein translation. Molecular & Cellular Proteomics, mcp-RA118.

http://www.mcponline.org/content/early/2018/02/14/mcp.RA118.000652.abstract

Payne, E. H., Ramalingam, D., Fox, D. T., & Klotman, M. E. (2018). Polyploidy and Mitotic Cell Death Are Two Distinct HIV-1 Vpr-Driven Outcomes in Renal Tubule Epithelial Cells. Journal of virology, 92(2), e01718-17.

http://jvi.asm.org/content/92/2/e01718-17.full

2017

Sato, H., Niimi, A., Yasuhara, T., Permata, T. B. M., Hagiwara, Y., Isono, M., ... & Yoshimoto, Y. (2017). DNA double-strand break repair pathway regulates PD-L1 expression in cancer cells. Nature communications, 8(1), 1751.

https://www.nature.com/articles/s41467-017-01883-9

Coucoravas, C., Dhanjal, S., Henriksson, S., Böhm, S., & Farnebo, M. (2017). Phosphorylation of the Cajal body protein WRAP53β by ATM promotes its involvement in the DNA damage response. RNA biology, 14(6), 804-813.

https://www.tandfonline.com/doi/abs/10.1080/15476286.2016.1243647

Nakajima, N. I., Niimi, A., Isono, M., Oike, T., Sato, H., Nakano, T., & Shibata, A. (2017). Inhibition of the HDAC/Suv39/G9a pathway restores the expression of DNA damage-dependent major histocompatibility complex class I-related chain A and B in cancer cells. Oncology Reports, 38(2), 693-702.

https://www.spandidos-publications.com/or/38/2/693

Feng, Y. L., Xiang, J. F., Liu, S. C., Guo, T., Yan, G. F., Feng, Y., ... & Cai, X. J. (2017). H2AX facilitates classical non-homologous end joining at the expense of limited nucleotide loss at repair junctions. Nucleic Acids Research.

https://academic.oup.com/nar/article/doi/10.1093/nar/gkx715/4080189/H2AX-facilitates-classical-non-homologous-end

Muralidharan, S. V., Einarsdottir, B. O., Bhadury, J., Lindberg, M. F., Wu, J., Campeau, E., ... & Nilsson, J. A. (2017). BET bromodomain inhibitors synergize with ATR inhibitors in melanoma in melanoma. Cell Death and Disease, 8(8), e2982; doi:10.1038/cddis.2017.383.

https://search.proquest.com/openview/cf446b15ae40fe9c08e276605339bf82/1?pq-origsite=gscholar&cbl=2041963

Sun, B., Ross, S. M., Rowley, S., Adeleye, Y., & Clewell, R. A. (2017). Contribution of ATM and ATR kinase pathways to p53‐mediated response in etoposide and methyl methanesulfonate induced DNA damage. Environmental and molecular mutagenesis, 58(2), 72-83.

http://onlinelibrary.wiley.com/doi/10.1002/em.22070/full

Cheung, R. S., Castella, M., Abeyta, A., Gafken, P. R., Tucker, N., & Taniguchi, T. (2017). Ubiquitination-Linked Phosphorylation of the FANCI S/TQ Cluster Contributes to Activation of the Fanconi Anemia I/D2 Complex. Cell reports, 19(12), 2432-2440.

http://www.sciencedirect.com/science/article/pii/S2211124717307556

http://www.tandfonline.com/doi/full/10.1080/15476286.2016.1243647?scroll=top&needAccess=true

2016

Muralidharan, S. V., Bhadury, J., Nilsson, L. M., Green, L. C., McLure, K. G., & Nilsson, J. A. (2016). BET bromodomain inhibitors synergize with ATR inhibitors to induce DNA damage, apoptosis, senescence-associated secretory pathway and ER stress in Myc-induced lymphoma cells. Oncogene, 35(36), 4689-4697.

http://www.nature.com/onc/journal/v35/n36/abs/onc2015521a.html?foxtrotcallback=true

(* AZ20 and VE821 from Axon Medchem)

New origin firing is inhibited by APC/CCdh1 activation in S-phase after severe replication stress.

Ercilla, A., Llopis, A., Feu, S., Aranda, S., Ernfors, P., Freire, R., & Agell, N. (2016).

Nucleic acids research, gkw132.

http://nar.oxfordjournals.org/content/early/2016/03/02/nar.gkw132.abstract

Targeting Myc-driven tumours-BETing on ATR.
Veppil Muralidharan, Somsundar. Thesis. (2016).
https://gupea.ub.gu.se/bitstream/2077/41548/1/gupea_2077_41548_1.pdf
*AZ20 and VE821 from Axon Medchem

2015
VE-821, an ATR inhibitor, causes radiosensitization in human tumor cells irradiated with high LET radiation.
H Fujisawa, NI Nakajima, S Sunada, Y Lee, H Hirakawa, H Yajima, A Fujimori, M Uesaka and R Okayasu.
Radiation Oncology, 2015,10, 175.

FANCI Regulates Recruitment of the FA Core Complex at Sites of DNA Damage Independently of FANCD2.
M Castella, C Jacquemont, EL Thompson, JE Yeo, RS Cheung, JW Huang, A Sobeck, EA Hendrickson, T Taniguchi.
PLoS Genet 2015, 11, e1005563.

RNA Polymerase III Regulates Cytosolic RNA: DNA Hybrids and Intracellular MicroRNA Expression.
CX Koo, K Kobiyama, YJ Shen, N LeBert, S Ahmad, M Khatoo, T Aoshi, S Gasser and KJ Ishii.
J. Biol. Chem, 2015, 290, 7463-7473.

Genome-Derived Cytosolic DNA Mediates Type I Interferon-Dependent Rejection of B Cell Lymphoma Cells.
YJ Shen, N Le Bert, AA Chitre1, CX Koo, XH Nga, SSW Ho, M Khatoo, NY Tan, KJ Ishii, S Gasser.
Cell Reports, 2015, 11 (3), 460–473. doi:10.1016/j.celrep.2015.03.041

2014
The scaffold protein WRAP53β orchestrates the ubiquitin response critical for DNA double-strand break repair.
S Henriksson, H Rassoolzadeh, E Hedström, C Coucoravas, A Julner, M Goldstein, G Imreh, B Zhivotovsky, MB Kastan, T Helleday and M Farnebo.
Genes & Dev. 2014. 28: 2726-2738. doi: 10.1101/gad.246546.114

N-nitroso-N-ethylurea activates DNA damage surveillance pathways and induces transformation in mammalian cells.
S Bodakuntla, S Sural, P Trivedi, M Lahiri.
BMC cancer, 2014, 14(1), 287.

The Role of Base Excision Repair and Mismatch Repair Proteins in the Processing of Cisplatin Interstrand Cross-Links.
Akshada Sawant, 2014
PhD Thesis, The University of Toledo.

Stereospecific targeting of MTH1 by (S)-crizotinib as an anticancer strategy.
KVM Huber, E Salah, B Radic, M Gridling, JM Elkins, A Stukalov, AS Jemth, C Göktürk, K Sanjiv, K Strömberg, T Pham, U Berglund, J Colinge, KL Bennett, JI Loizou, T Helleday, S Knapp & G Superti-Furga.
Nature 2014, 508, 222–227. | doi:10.1038/nature13194

RAE-1 ligands for the NKG2D receptor are regulated by STING-dependent DNA sensor pathways in lymphoma.
AR Lam, N Le Bert, SSW Ho, YJ Shen, LFM Tang, GM Xiong, JL Croxford, CX Koo, KJ Ishii, S Akira, DH Raulet, S Gasser.
Cancer Res. 2014, 74(8), 2193-2203. | doi: 10.1158/0008-5472

2013
Caffeine suppresses homologous recombination through interference with RAD51-mediated joint molecule formation.
AN Zelensky, H Sanchez, D Ristic, I Vidic, SE van Rossum-Fikkert, J Essers, C Wyman and R Kanaar.
Nucl. Acids Res. 2013, 41 (13), 6475-6489. | doi: 10.1093/nar/gkt375

Ataxia Telangiectasia Mutated (ATM) Is Dispensable for Endonuclease I-SceI-induced Homologous Recombination in Mouse Embryonic Stem Cells.
E Rass, G Chandramouly, S Zha, FW Alt and A Xie.
J. Biol. Chem. 2013, 288, 7086-7095. | doi: 10.1074/jbc.M112.445825

An Inverse Switch in DNA Base Excision and StrandBreak Repair Contributes to Melphalan Resistance in Multiple Myeloma Cells
MML Sousa, KA Zub, PA Aas, A Hanssen-Bauer, A Demirovic, A Sarno, E Tian, NB Liabakk, G Slupphaug.
PLoS ONE 2013, 8(2), e55493. | doi:10.1371/journal.pone.0055493

(This is an incomplete list, updated AUGUST 2017)

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