Extensive DNA Damage and Loss of Cell Viability Occur Synergistically With the Combination of Recombinant Methioninase and Paclitaxel on Pancreatic Cancer Cells which Report DNA-Damage Response in Real Time.

IF 2.6 4区医学 Q2 GENETICS & HEREDITY Cancer Genomics & Proteomics Pub Date : 2024-11-01 DOI:10.21873/cgp.20475

Sei Morinaga, Qinghong Han, Kohei Mizuta, Byung Mo Kang, Motokazu Sato, Michael Bouvet, Norio Yamamoto, Katsuhiro Hayashi, Hiroaki Kimura, Shinji Miwa, Kentaro Igarashi, Takashi Higuchi, Hiroyuki Tsuchiya, Satoru Demura, Robert M Hoffman

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Abstract

Background/aim: Methionine restriction selectively arrests cancer cells during the S-phase of the cell cycle. We hypothesized that DNA damage may occur in S-phase in cancer cells during methionine restriction. To determine if this occurs, we used MiaPaCa-2^Tet-On 53BP1-green fluorescent protein (GFP) pancreatic cancer cells, which report GFP fluorescence in real time after DNA-damage response (DDR) in these cells. We also determined whether a chemotherapy drug in combination with methionine restriction increases the rate of DNA damage.

Materials and methods: MiaPaCa-2^Tet-On 53BP1-GFP cells were used for in vitro experiments. The 25% and 50% inhibitory concentrations (IC₂₅ and IC₅₀, respectively) of recombinant methioninase (rMETase) and paclitaxel on MiaPaCa-2^Tet-On 53BP1-GFP pancreatic cancer cells were determined. Cell viability and DDR with rMETase alone, paclitaxel alone, and their combination were measured in MiaPaCa-2^Tet-On 53BP1-GFP cells.

Results: The IC₂₅ of rMETase on MiaPaCa-2^Tet-On 53BP1-GFP cells was 1.66 U/ml. The IC₂₅ for paclitaxel on MiaPaCa-2^Tet-On 53BP1-GFP cells was 3.31 nM. The combination of rMETase and paclitaxel synergistically reduced the viability of MiaPaCa-2^Tet-On 53BP1-GFP cells. The IC₅₀ of paclitacel on MiaPaCa-2^Tet-On 53BP1-GFP cells was 5.1 nM. The IC₅₀ of rMETase on MiaPaCa-2^Tet-On 53BP1-GFP cells was 2.3 U/ml. The combination of rMETase (IC₅₀) plus paclitaxel (IC₅₀) on MiaPaCa-2^Tet-On 53BP1-GFP cells also caused more DNA damage than either agent alone.

Conclusion: The present study suggests the synergy of methionine restriction and chemotherapy is due, at least in part, to DNA damage of cancer cells.

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重组甲硫氨酸酶和紫杉醇对胰腺癌细胞的协同作用会导致广泛的 DNA 损伤和细胞活力丧失，而紫杉醇会实时报告 DNA 损伤反应。

背景/目的：蛋氨酸限制可选择性地使癌细胞停滞在细胞周期的 S 期。我们推测，在蛋氨酸限制过程中，癌细胞的 S 期可能会发生 DNA 损伤。为了确定是否会发生这种情况，我们使用了 MiaPaCa-2Tet-On 53BP1 绿色荧光蛋白（GFP）胰腺癌细胞，这些细胞在发生 DNA 损伤反应（DDR）后会实时发出 GFP 荧光。我们还测定了化疗药物与蛋氨酸限制结合是否会增加DNA损伤率：体外实验使用 MiaPaCa-2Tet-On 53BP1-GFP 细胞。测定了重组蛋氨酸酶（rMETase）和紫杉醇对 MiaPaCa-2Tet-On 53BP1-GFP 胰腺癌细胞的 25% 和 50% 抑制浓度（IC25 和 IC50）。在 MiaPaCa-2Tet-On 53BP1-GFP 细胞中测定了单独使用 rMETase、单独使用紫杉醇以及它们联合使用时的细胞活力和 DDR：结果：rMETase 对 MiaPaCa-2Tet-On 53BP1-GFP 细胞的 IC25 为 1.66 U/ml 。紫杉醇对 MiaPaCa-2Tet-On 53BP1-GFP 细胞的 IC25 为 3.31 nM。rMETase 和紫杉醇联合使用可协同降低 MiaPaCa-2Tet-On 53BP1-GFP 细胞的活力。紫杉醇对 MiaPaCa-2Tet-On 53BP1-GFP 细胞的 IC50 为 5.1 nM。rMETase 对 MiaPaCa-2Tet-On 53BP1-GFP 细胞的 IC50 为 2.3 U/ml。在 MiaPaCa-2Tet-On 53BP1-GFP 细胞上，rMETase（IC50）和紫杉醇（IC50）的组合也比单独使用其中一种药物造成更多的 DNA 损伤：本研究表明，蛋氨酸限制与化疗的协同作用至少部分是由于癌细胞的 DNA 损伤所致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cancer Genomics & Proteomics ONCOLOGY-GENETICS & HEREDITY

CiteScore

5.00

自引率

8.00%

发文量

期刊介绍： Cancer Genomics & Proteomics (CGP) is an international peer-reviewed journal designed to publish rapidly high quality articles and reviews on the application of genomic and proteomic technology to basic, experimental and clinical cancer research. In this site you may find information concerning the editorial board, editorial policy, issue contents, subscriptions, submission of manuscripts and advertising. The first issue of CGP circulated in January 2004. Cancer Genomics & Proteomics is a journal of the International Institute of Anticancer Research. From January 2013 CGP is converted to an online-only open access journal. Cancer Genomics & Proteomics supports (a) the aims and the research projects of the INTERNATIONAL INSTITUTE OF ANTICANCER RESEARCH and (b) the organization of the INTERNATIONAL CONFERENCES OF ANTICANCER RESEARCH.