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Original Articles
Elimusertib, a Novel ATR Inhibitor, Induces Anti-Tumor Effects through Replication Catastrophe in Breast Cancers
Mudong Kim, Ahrum Min, Sohyeon Kim, Seongyeong Kim, Yu-jin Kim, Sujin Ham, Miso Lee, Eunice Yoojin Lee, Jinyong Kim, Dae-Won Lee, Kyung-Hun Lee, Seock-Ah Im
Received November 19, 2024  Accepted April 1, 2025  Published online April 7, 2025  
DOI: https://doi.org/10.4143/crt.2024.1105    [Accepted]
AbstractAbstract PDF
Purpose
Sustained cell proliferation and cell cycle acceleration in cancer cells inherently increase DNA damage, which interferes with homeostatic replication and transcription. Ataxia telangiectasia and Rad3-related (ATR) is crucial for initiation of the DNA damage response, and ATR inhibitors, such as elimusertib, induce increased replication stress and DNA damage. We investigated the anti-tumor effects of elimusertib and its mechanism of action in relation to replication stress.
Materials and Methods
Anti-tumor effects were evaluated by MTT assay and colony formation assay in breast cancer cell lines in vitro, in breast cancer cell xenografts in vivo, and in patient-derived xenograft models. Cell cycle was assessed by flow cytometry and BrdU assay was used to measure replicating cells and S-phase progression. Alkaline and neutral comet assay was used to measure single and double stranded DNA damages, respectively.
Results
Elimusertib delayed S-phase progression in MDA-MB-453 and MDA-MB-231 cells and induced caspase-7-dependent apoptosis. Furthermore, the increase in sub-G1 population in the FACS analysis and Annexin V assay also confirmed apoptotic cell death. In the BrdU assay, single stranded DNA (ssDNA) increased in sensitive cells and aberrant ssDNA induced DNA damage in S-phase and eventually caused replication catastrophe. Finally, these anti-tumor effects were proven in in vivo xenograft and patient-derived xenograft models.
Conclusion
Elimusertib had anti-tumor effects and induced replication catastrophe in breast cancer cells with a high replication rate. Moreover, cells under high DNA replication stress were sensitive to elimusertib. Further studies and treatment strategies with elimusertib are warranted for cancers with a high replication rate.
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Pan-Pim Kinase Inhibitor AZD1208 Suppresses Tumor Growth and Synergistically Interacts with Akt Inhibition in Gastric Cancer Cells
Miso Lee, Kyung-Hun Lee, Ahrum Min, Jeongeun Kim, Seongyeong Kim, Hyemin Jang, Jee Min Lim, So Hyeon Kim, Dong-Hyeon Ha, Won Jae Jeong, Koung Jin Suh, Yae-Won Yang, Tae Yong Kim, Do-Youn Oh, Yung-Jue Bang, Seock-Ah Im
Cancer Res Treat. 2019;51(2):451-463.   Published online June 6, 2018
DOI: https://doi.org/10.4143/crt.2017.341
AbstractAbstract PDFSupplementary MaterialPubReaderePub
Purpose
Pim kinases are highly conserved serine/threonine kinases, and different expression patterns of each isoform (Pim-1, Pim-2, and Pim-3) have been observed in various types of human cancers, including gastric cancer. AZD1208 is a potent and selective inhibitor that affects all three isoforms of Pim. We investigated the effects of AZD1208 as a single agent and in combination with an Akt inhibitor in gastric cancer cells.
Materials and Methods
The antitumor activity of AZD1208 with/without an Akt inhibitor was evaluated in a large panel of gastric cancer cell lines through growth inhibition assays. The underlying mechanism was also examined by western blotting, immunofluorescence assay, and cell cycle analysis.
Results
AZD1208 treatment decreased gastric cancer cell proliferation rates and induced autophagy only in long-term culture systems. Light chain 3B (LC3B), a marker of autophagy, was increased in sensitive cells in a dose-dependent manner with AZD1208 treatment, which suggested that the growth inhibition effect of AZD1208 was achieved through autophagy, not apoptosis. Moreover, we found that cells damaged by Pim inhibition were repaired by activation of the DNA damage repair pathway, which promoted cell survival and led the cells to become resistant to AZD1208. We also confirmed that the combination of an Akt inhibitor with AZD1208 produced a highly synergistic effect in gastric cancer cell lines.
Conclusion
Treatment with AZD1208 alone induced considerable cell death through autophagy in gastric cancer cells. Moreover, the combination of AZD1208 with an Akt inhibitor showed synergistic antitumor effects through regulation of the DNA damage repair pathway.

Citations

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  • Prognostic Model Construction of Disulfidptosis-Related Genes and Targeted Anticancer Drug Research in Pancreatic Cancer
    Hongtao Duan, Li Gao, Aiminuer Asikaer, Lingzhi Liu, Kuilong Huang, Yan Shen
    Molecular Biotechnology.2025; 67(4): 1463.     CrossRef
  • A literature review of recent advances in gastric cancer treatment: exploring the cross-talk between targeted therapies
    Reza Panahizadeh, Padideh Panahi, Vahid Asghariazar, Shima Makaremi, Ghasem Noorkhajavi, Elham Safarzadeh
    Cancer Cell International.2025;[Epub]     CrossRef
  • PIM1 attenuates cisplatin-induced AKI by inhibiting Drp1 activation
    Yuzhen Li, Lang Shi, Fan Zhao, Yanwen Luo, Mingjiao Zhang, Xiongfei Wu, Jiefu Zhu
    Cellular Signalling.2024; 113: 110969.     CrossRef
  • PIM1 kinase and its diverse substrate in solid tumors
    Rituparna Choudhury, Chandan Kumar Bahadi, Ipsa Pratibimbita Ray, Pragyanshree Dash, Isha Pattanaik, Suman Mishra, Soumya R. Mohapatra, Srinivas Patnaik, Kumar Nikhil
    Cell Communication and Signaling.2024;[Epub]     CrossRef
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    Ping Lin, Lingyan He, Nan Tian, Xuchen Qi
    Journal of Cancer Research and Clinical Oncology.2023; 149(13): 12413.     CrossRef
  • Toxic effects of AZD1208 on mouse oocytes and its possible mechanisms
    Feng‐Ze Yan, Ying‐Chun Ouyang, Tie‐Gang Meng, Hong‐Yong Zhang, Wei Yue, Xin‐Ran Zhang, Yue Xue, Zhen‐Bo Wang, Qing‐Yuan Sun
    Journal of Cellular Physiology.2022; 237(9): 3661.     CrossRef
  • Therapeutic targeting of PIM KINASE signaling in cancer therapy: Structural and clinical prospects
    Aanchal Rathi, Dhiraj Kumar, Gulam Mustafa Hasan, Mohammad Mahfuzul Haque, Md Imtaiyaz Hassan
    Biochimica et Biophysica Acta (BBA) - General Subjects.2021; 1865(11): 129995.     CrossRef
  • TDP1 and TOP1 Modulation in Olaparib-Resistant Cancer Determines the Efficacy of Subsequent Chemotherapy
    Jin Won Kim, Ahrum Min, Seock-Ah Im, Hyemin Jang, Yu Jin Kim, Hee-Jun Kim, Kyung-Hun Lee, Tae-Yong Kim, Keun Wook Lee, Do-Youn Oh, Jee-Hyun Kim, Yung-Jue Bang
    Cancers.2020; 12(2): 334.     CrossRef
  • PIM1 (Moloney Murine Leukemia Provirus Integration Site) Inhibition Decreases the Nonhomologous End-Joining DNA Damage Repair Signaling Pathway in Pulmonary Hypertension
    Marie-Claude Lampron, Géraldine Vitry, Valérie Nadeau, Yann Grobs, Renée Paradis, Nolwenn Samson, Ève Tremblay, Olivier Boucherat, Jolyane Meloche, Sébastien Bonnet, Steeve Provencher, François Potus, Roxane Paulin
    Arteriosclerosis, Thrombosis, and Vascular Biology.2020; 40(3): 783.     CrossRef
  • Inhibition of PIM1 attenuates the stem cell–like traits of breast cancer cells by promoting RUNX3 nuclear retention
    Hui Liu, Cheng Chen, Dongshen Ma, Yubing Li, Qianqian Yin, Qing Li, Chenxi Xiang
    Journal of Cellular and Molecular Medicine.2020; 24(11): 6308.     CrossRef
  • Antitumor effect of a WEE1 inhibitor and potentiation of olaparib sensitivity by DNA damage response modulation in triple-negative breast cancer
    Dong-Hyeon Ha, Ahrum Min, Seongyeong Kim, Hyemin Jang, So Hyeon Kim, Hee-Jun Kim, Han Suk Ryu, Ja-Lok Ku, Kyung-Hun Lee, Seock-Ah Im
    Scientific Reports.2020;[Epub]     CrossRef
  • Pim kinase inhibitors in cancer: medicinal chemistry insights into their activity and selectivity
    Soraya Alnabulsi, Enas A. Al-Hurani
    Drug Discovery Today.2020; 25(11): 2062.     CrossRef
  • New Mechanistic Insight on the PIM-1 Kinase Inhibitor AZD1208 Using Multidrug Resistant Human Erythroleukemia Cell Lines and Molecular Docking Simulations
    Maiara Bernardes Marques, Michael González-Durruthy, Bruna Félix da Silva Nornberg, Bruno Rodrigues Oliveira, Daniela Volcan Almeida, Ana Paula de Souza Votto, Luis Fernando Marins
    Current Topics in Medicinal Chemistry.2019; 19(11): 914.     CrossRef
  • Recent Studies on Ponatinib in Cancers Other Than Chronic Myeloid Leukemia
    Francesca Musumeci, Chiara Greco, Giancarlo Grossi, Alessio Molinari, Silvia Schenone
    Cancers.2018; 10(11): 430.     CrossRef
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Antitumor Effect of KX-01 through Inhibiting Src Family Kinases and Mitosis
Seongyeong Kim, Ahrum Min, Kyung-Hun Lee, Yaewon Yang, Tae-Yong Kim, Jee Min Lim, So Jung Park, Hyun-Jin Nam, Jung Eun Kim, Sang-Hyun Song, Sae-Won Han, Do-Youn Oh, Jee Hyun Kim, Tae-You Kim, David Hangauer, Johnson Yiu-Nam Lau, Kyongok Im, Dong Soon Lee, Yung-Jue Bang, Seock-Ah Im
Cancer Res Treat. 2017;49(3):643-655.   Published online October 6, 2016
DOI: https://doi.org/10.4143/crt.2016.168
AbstractAbstract PDFSupplementary MaterialPubReaderePub
Purpose
KX-01 is a novel dual inhibitor of Src and tubulin. Unlike previous Src inhibitors that failed to show clinical benefit during treatment of breast cancer, KX-01 can potentially overcome the therapeutic limitations of current Src inhibitors through inhibition of both Src and tubulin. The present study further evaluates the activity and mechanism of KX-01 in vitro and in vivo.
Materials and Methods
The antitumor effect of KX-01 in triple negative breast cancer (TNBC) cell lines was determined by MTT assay. Wound healing and immunofluorescence assays were performed to evaluate the action mechanisms of KX-01. Changes in the cell cycle and molecular changes induced by KX-01 were also evaluated. A MDA-MB-231 mouse xenograft model was used to demonstrate the in vivo effects.
Results
KX-01 effectively inhibited the growth of breast cancer cell lines. The expression of phospho- Src and proliferative-signaling molecules were down-regulated in KX-01–sensitive TNBC cell lines. In addition, migration inhibition was observed by wound healing assay. KX-01– induced G2/M cell cycle arrest and increased the aneuploid cell population in KX-01–sensitive cell lines. Multi-nucleated cells were significantly increased after KX-01 treatment. Furthermore, KX-01 effectively delayed tumor growth in a MDA-MB-231 mouse xenograft model.
Conclusion
KX-01 effectively inhibited cell growth and migration of TNBC cells. Moreover, this study demonstrated that KX-01 showed antitumor effects through the inhibition of Src signaling and the induction of mitotic catastrophe. The antitumor effects of KX-01 were also demonstrated in vivo using a mouse xenograft model.

Citations

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    Annabel Shen, Rebecca A. Simonette, Peter L. Rady, Stephen K. Tyring
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    Yingjie Cui, Jing Zhang, Guifang Zhang
    Current Medicinal Chemistry.2024; 31(14): 1874.     CrossRef
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    Gianluca Nazzaro, Andrea Carugno, Paolo Bortoluzzi, Stefano Buffon, Chiara Astrua, Elena Zappia, Emanuele Trovato, Stefano Caccavale, Vincenzo Pellegrino, Giovanni Paolino, Riccardo Balestri, Rossella Lacava, Giulia Ciccarese, Alice Verdelli, Stefania Bar
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    Stephen Moore, Veda Kulkarni, Angela Moore, Jennifer R. Landes, Rebecca Simonette, Qin He, Peter L. Rady, Stephen K. Tyring
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  • 24 Web of Science
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TGF-β Suppresses COX-2 Expression by Tristetraprolin-Mediated RNA Destabilization in A549 Human Lung Cancer Cells
Soyeong Kang, Ahrum Min, Seock-Ah Im, Sang-Hyun Song, Sang Gyun Kim, Hyun-Ah Kim, Hee-Jun Kim, Do-Youn Oh, Hyun-Soon Jong, Tae-You Kim, Yung-Jue Bang
Cancer Res Treat. 2015;47(1):101-109.   Published online October 22, 2014
DOI: https://doi.org/10.4143/crt.2013.192
AbstractAbstract PDFPubReaderePub
Purpose
Overexpression of cyclooxygenase 2 (COX-2) is thought to promote survival of transformed cells. Transforming growth factor β (TGF-β) exerts anti-proliferative effects on a broad range of epithelial cells. In the current study, we investigated whether TGF-β can regulate COX-2 expression in A549 human lung adenocarcinoma cells, which are TGF-β-responsive and overexpress COX-2.
Materials and Methods
Western blotting, Northern blotting, and mRNA stability assays were performed to demonstrate that COX-2 protein and mRNA expression were suppressed by TGF-β. We also evaluated the effects of tristetraprolin (TTP) on COX-2 mRNA using RNA interference.
Results
We demonstrated that COX-2 mRNA and protein expression were both significantly suppressed by TGF-β. An actinomycin D chase experiment demonstrated that COX-2 mRNA was more rapidly degraded in the presence of TGF-β, suggesting that TGF-β–induced inhibition of COX-2 expression is achieved via decreased mRNA stability. We also found that TGF-β rapidly and transiently induced the expression of TTP, a well-known mRNA destabilizing factor, before suppression of COX-2 mRNA expression was observed. Using RNA interference, we confirmed that increased TTP levels play a pivotal role in the destabilization of COX-2 mRNA by TGF-β. Furthermore, we showed that Smad3 is essential to TTP-dependent down-regulation of COX-2 expression in response to TGF-β.
Conclusion
The results of this study show that TGF-β down-regulated COX-2 expression via mRNA destabilization mediated by Smad3/TTP in A549 cells.

Citations

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    Cancer Research and Treatment.2019; 51(2): 451.     CrossRef
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    Arthritis & Rheumatology.2018; 70(6): 932.     CrossRef
  • Cyclin E overexpression confers resistance to the CDK4/6 specific inhibitor palbociclib in gastric cancer cells
    Ahrum Min, Jung Eun Kim, Yu-Jin Kim, Jee Min Lim, Seongyeong Kim, Jin Won Kim, Kyung-Hun Lee, Tae-Yong Kim, Do-Youn Oh, Yung-Jue Bang, Seock-Ah Im
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  • Anti‐tumor activity of the ATR inhibitor AZD6738 in HER2 positive breast cancer cells
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  • Antitumor Effect of KX-01 through Inhibiting Src Family Kinases and Mitosis
    Seongyeong Kim, Ahrum Min, Kyung-Hun Lee, Yaewon Yang, Tae-Yong Kim, Jee Min Lim, So Jung Park, Hyun-Jin Nam, Jung Eun Kim, Sang-Hyun Song, Sae-Won Han, Do-Youn Oh, Jee Hyun Kim, Tae-You Kim, David Hangauer, Johnson Yiu-Nam Lau, Kyongok Im, Dong Soon Lee,
    Cancer Research and Treatment.2017; 49(3): 643.     CrossRef
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    Molecular Cancer Therapeutics.2017; 16(4): 566.     CrossRef
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    A. Mohammadi, M.M. Yaghoobi, A. Gholamhoseinian Najar, B. Kalantari-Khandani, H. Sharifi, M. Saravani
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    Zi-Ran Wei, Chao Liang, Dan Feng, Ya-Jun Cheng, Wei-Min Wang, De-Jun Yang, Yue-Xiang Wang, Qing-Ping Cai
    Oncotarget.2016; 7(14): 17737.     CrossRef
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