Therapeutic targeting of Chk1 in NSCLC stem cells during chemotherapy

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Abstract

Cancer stem cell (SC) chemoresistance may be responsible for the poor clinical outcome of non-small-cell lung cancer (NSCLC) patients. In order to identify the molecular events that contribute to NSCLC chemoresistance, we investigated the DNA damage response in SCs derived from NSCLC patients. We found that after exposure to chemotherapeutic drugs NSCLC-SCs undergo cell cycle arrest, thus allowing DNA damage repair and subsequent cell survival. Activation of the DNA damage checkpoint protein kinase (Chk) 1 was the earliest and most significant event detected in NSCLC-SCs treated with chemotherapy, independently of their p53 status. In contrast, a weak Chk1 activation was found in differentiated NSCLC cells, corresponding to an increased sensitivity to chemotherapeutic drugs as compared with their undifferentiated counterparts. The use of Chk1 inhibitors in combination with chemotherapy dramatically reduced NSCLC-SC survival in vitro by inducing premature cell cycle progression and mitotic catastrophe. Consistently, the co-administration of the Chk1 inhibitor AZD7762 and chemotherapy abrogated tumor growth in vivo, whereas chemotherapy alone was scarcely effective. Such increased efficacy in the combined use of Chk1 inhibitors and chemotherapy was associated with a significant reduction of NSCLC-SCs in mouse xenografts. Taken together, these observations support the clinical evaluation of Chk1 inhibitors in combination with chemotherapy for a more effective treatment of NSCLC.

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Highly tumorigenic lung cancer CD133+ cells display stem-like features and are spared by cisplatin treatment.

Giulia Bertolini, Luca Roz, Paola Perego … (2009)

The identification of lung tumor-initiating cells and associated markers may be useful for optimization of therapeutic approaches and for predictive and prognostic information in lung cancer patients. CD133, a surface glycoprotein linked to organ-specific stem cells, was described as a marker of cancer-initiating cells in different tumor types. Here, we report that a CD133+, epithelial-specific antigen-positive (CD133+ESA+) population is increased in primary nonsmall cell lung cancer (NSCLC) compared with normal lung tissue and has higher tumorigenic potential in SCID mice and expression of genes involved in stemness, adhesion, motility, and drug efflux than the CD133(-) counterpart. Cisplatin treatment of lung cancer cells in vitro resulted in enrichment of CD133+ fraction both after acute cytotoxic exposure and in cells with stable cisplatin-resistant phenotype. Subpopulations of CD133+ABCG2+ and CD133+CXCR4+ cells were spared by in vivo cisplatin treatment of lung tumor xenografts established from primary tumors. A tendency toward shorter progression-free survival was observed in CD133+ NSCLC patients treated with platinum-containing regimens. Our results indicate that chemoresistant populations with highly tumorigenic and stem-like features are present in lung tumors. The molecular features of these cells may provide the rationale for more specific therapeutic targeting and the definition of predictive factors in clinical management of this lethal disease.

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Participation of p53 protein in the cellular response to DNA damage.

M B Kastan, O Onyekwere, D Sidransky … (1991)

The inhibition of replicative DNA synthesis that follows DNA damage may be critical for avoiding genetic lesions that could contribute to cellular transformation. Exposure of ML-1 myeloblastic leukemia cells to nonlethal doses of the DNA damaging agents, gamma-irradiation or actinomycin D, causes a transient inhibition of replicative DNA synthesis via both G1 and G2 arrests. Levels of p53 protein in ML-1 cells and in proliferating normal bone marrow myeloid progenitor cells increase and decrease in temporal association with the G1 arrest. In contrast, the S-phase arrest of ML-1 cells caused by exposure to the anti-metabolite, cytosine arabinoside, which does not directly damage DNA, is not associated with a significant change in p53 protein levels. Caffeine treatment blocks both the G1 arrest and the induction of p53 protein after gamma-irradiation, thus suggesting that blocking the induction of p53 protein may contribute to the previously observed effects of caffeine on cell cycle changes after DNA damage. Unlike ML-1 cells and normal bone marrow myeloid progenitor cells, hematopoietic cells that either lack p53 gene expression or overexpress a mutant form of the p53 gene do not exhibit a G1 arrest after gamma-irradiation; however, the G2 arrest is unaffected by the status of the p53 gene. These results suggest a role for the wild-type p53 protein in the inhibition of DNA synthesis that follows DNA damage and thus suggest a new mechanism for how the loss of wild-type p53 might contribute to tumorigenesis.

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Ataxia telangiectasia-mutated phosphorylates Chk2 in vivo and in vitro.

S Matsuoka, S Elledge, G Rotman … (2000)

The protein kinase Chk2, the mammalian homolog of the budding yeast Rad53 and fission yeast Cds1 checkpoint kinases, is phosphorylated and activated in response to DNA damage by ionizing radiation (IR), UV irradiation, and replication blocks by hydroxyurea (HU). Phosphorylation and activation of Chk2 are ataxia telangiectasia-mutated (ATM) dependent in response to IR, whereas Chk2 phosphorylation is ATM-independent when cells are exposed to UV or HU. Here we show that in vitro, ATM phosphorylates the Ser-Gln/Thr-Gln (SQ/TQ) cluster domain (SCD) on Chk2, which contains seven SQ/TQ motifs, and Thr68 is the major in vitro phosphorylation site by ATM. ATM- and Rad3-related also phosphorylates Thr68 in addition to Thr26 and Ser50, which are not phosphorylated to a significant extent by ATM in vitro. In vivo, Thr68 is phosphorylated in an ATM-dependent manner in response to IR, but not in response to UV or HU. Substitution of Thr68 with Ala reduced the extent of phosphorylation and activation of Chk2 in response to IR, and mutation of all seven SQ/TQ motifs blocked all phosphorylation and activation of Chk2 after IR. These results suggest that in vivo, Chk2 is directly phosphorylated by ATM in response to IR and that Chk2 is regulated by phosphorylation of the SCD.

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Author and article information

Journal

Journal ID (nlm-ta): Cell Death Differ

Journal ID (iso-abbrev): Cell Death Differ

Title: Cell Death and Differentiation

Publisher: Nature Publishing Group

ISSN (Print): 1350-9047

ISSN (Electronic): 1476-5403

Publication date (Print): May 2012

Publication date (Electronic): 25 November 2011

Publication date PMC-release: 1 May 2012

Volume: 19

Issue: 5

Pages: 768-778

Affiliations

[1 ]simpleDepartment of Hematology, Oncology and Molecular Medicine, Istituto Superiore di Sanità , Rome 00161, Italy

[2 ]simpleMediterranean Institute of Oncology , Catania 95100, Italy

[3 ]simpleDepartment of Experimental Medicine, Sant'Andrea Hospital, University ‘La Sapienza' , Rome 00189, Italy

[4 ]simpleDepartment of Experimental Oncology, Molecular Oncogenesis Laboratory, Regina Elena Cancer Institute , Rome 00158, Italy

Author notes

[* ]simpleDepartment of Hematology, Oncology and Molecular Medicine, Istituto Superiore di Sanità , Viale Regina Elena 299, Rome 00161, Italy. Tel: +39 0649903393; Fax: +39 0649387087; E-mail: ruggero.demaria@ 123456iss.it or ruggerodemaria@ 123456gmail.com

Article

Publisher Item ID: cdd2011170

DOI: 10.1038/cdd.2011.170

PMC ID: 3321626

PubMed ID: 22117197

SO-VID: ded990e7-8bf8-484e-996c-c6c93745134f

License:

This work is licensed under the Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/3.0/

History

Date received : 13 May 2011

Date revision received : 07 October 2011

Date accepted : 17 October 2011

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Therapeutic targeting of Chk1 in NSCLC stem cells during chemotherapy

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Abstract

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Stress signalling in stem cells

Most cited references 26

Highly tumorigenic lung cancer CD133+ cells display stem-like features and are spared by cisplatin treatment.

Participation of p53 protein in the cellular response to DNA damage.

Ataxia telangiectasia-mutated phosphorylates Chk2 in vivo and in vitro.

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