Establishment and Characterization of a Topotecan Resistant Non-small Cell Lung Cancer NCI-H460/TPT10 Cell Line

doi:10.3389/fcell.2020.607275

. 2020 Dec 23:8:607275.

doi: 10.3389/fcell.2020.607275. eCollection 2020.

Establishment and Characterization of a Topotecan Resistant Non-small Cell Lung Cancer NCI-H460/TPT10 Cell Line

Zi-Ning Lei¹, Qiu-Xu Teng¹, Wei Zhang^{1

2}, Ying-Fang Fan^{1

3}, Jing-Quan Wang¹, Chao-Yun Cai¹, Kimberly W Lu^{1

4}, Dong-Hua Yang¹, John N D Wurpel¹, Zhe-Sheng Chen¹

Affiliations

¹ Department of Pharmaceutical Sciences, College of Pharmacy and Health Sciences, St. John's University, Queens, NY, United States.
² Institute of Plastic Surgery, Weifang Medical University, Weifang, China.
³ Department of Hepatobiliary Surgery, Zhujiang Hospital of Southern Medical University, Guangzhou, China.
⁴ Renaissance School of Medicine, Stony Brook University, Stony Brook, NY, United States.

PMID: 33425914
PMCID: PMC7786180
DOI: 10.3389/fcell.2020.607275

Establishment and Characterization of a Topotecan Resistant Non-small Cell Lung Cancer NCI-H460/TPT10 Cell Line

Zi-Ning Lei et al. Front Cell Dev Biol. 2020.

. 2020 Dec 23:8:607275.

doi: 10.3389/fcell.2020.607275. eCollection 2020.

Authors

Zi-Ning Lei¹, Qiu-Xu Teng¹, Wei Zhang^{1

2}, Ying-Fang Fan^{1

3}, Jing-Quan Wang¹, Chao-Yun Cai¹, Kimberly W Lu^{1

4}, Dong-Hua Yang¹, John N D Wurpel¹, Zhe-Sheng Chen¹

Affiliations

¹ Department of Pharmaceutical Sciences, College of Pharmacy and Health Sciences, St. John's University, Queens, NY, United States.
² Institute of Plastic Surgery, Weifang Medical University, Weifang, China.
³ Department of Hepatobiliary Surgery, Zhujiang Hospital of Southern Medical University, Guangzhou, China.
⁴ Renaissance School of Medicine, Stony Brook University, Stony Brook, NY, United States.

PMID: 33425914
PMCID: PMC7786180
DOI: 10.3389/fcell.2020.607275

Abstract

While topotecan (TPT) is a first- and second-line chemotherapeutic drug in treating lung cancer, the development of drug resistance in tumors still reserves as a major obstacle to chemotherapeutic success. Therefore, a better understanding of the mechanisms of topotecan resistance is critical. In this study, the first topotecan-resistant human non-small cell lung cancer (NSCLC) cell line, termed NCI-H460/TPT10, was established from the parental NCI-H460 cell line. NCI-H460/TPT10 cells exhibited a 394.7-fold resistance to TPT, and cross-resistance to SN-38, mitoxantrone, and doxorubicin, compared to parental NCI-H460 cells. Overexpression of ABCG2 localized on the cell membrane, but not ABCB1 or ABCC1, was found in NCI-H460/TPT10 cells, indicating that ABCG2 was likely to be involved in topotecan-resistance. This was confirmed by the abolishment of drug resistance in NCI-H460/TPT10 cells after ABCG2 knockout. Moreover, the involvement of functional ABCG2 as a drug efflux pump conferring multidrug resistance (MDR) was indicated by low intracellular accumulation of TPT in NCI-H460/TPT10 cells, and the reversal effects by ABCG2 inhibitor Ko143. The NCI-H460/TPT10 cell line and its parental cell line can be useful for drug screening and developing targeted strategies to overcome ABCG2-mediated MDR in NSCLC.

Keywords: ABCG2; NCI-H460/TPT10; multidrug resistance; non-small cell lung cancer; topotecan.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**FIGURE 1**
Protein expression profile of NCI-H460/TPT10 and parental NCI-H460 cells. Western blot on the expression levels of **(A)** ABCG2, **(B)** topoisomerase I, **(C)** ABCB1, and **(D)** ABCC1 in NCI-H460 and NCI-H460/TPT10 cells. HEK293/pcDNA3.1, HEK293/ABCG2, HEK293/ABCB1, and HEK293/ABCC1 cell lines served as negative or positive controls for ABCB1, ABCG2, and ABCC1 expression, respectively. The adopted loading control was GAPDH.

**FIGURE 2**
Immunofluorescence microscopic images of NCI-H460 and NCI-H460/TPT10 cells. ABCG2 and DAPI fluorescence micrographs were combined to create a merged image. ABCG2 expression was shown by green fluorescence; cell nuclei were stained blue by DAPI. This experiment has been done with triplicate wells in replicated independent tests.

**FIGURE 3**
Abolishment of Drug Resistance by Ko143 and *ABCG2* gene Knockout in NCI-H460/TPT10 Cells. Cell viability was determined by MTT assay and displayed the changes in response to different concentrations of **(A)** topotecan, **(B)** SN-38, **(C)** mitoxantrone, and **(D)** cisplatin in drug resistant NCI-H460/TPT10 and the parental NCI-H460 cells, with or without 3 μM Ko143, and in NCI-H460/TPT10 ABCG2 knockout (ko) cells as well as the vector control subline. Data points with error bars represented the mean viability (%) ± SD of at least three independent experiments, each done in triplicate. Statistical analysis was performed to compare the IC₅₀ values. * in green: p < 0.05 NCI-H460/TPT10 with Ko143 3 μM versus NCI-H460/TPT10 without Ko143. * in pink: p < 0.05 NCI-H460/TPT10-ABCG2 ko versus NCI-H460/TPT10 vector control.

**FIGURE 4**
Topotecan accumulation in NCI-H460 and NCI-H460/TPT10 cells. **(A)** Flow cytometry detection of intracellular accumulation of topotecan in cells after 2-h exposure to 100 μM topotecan with or without 2-h pretreatment with 3 μM Ko143. **(B)** Intracellular topotecan accumulations in cells without Ko143 pretreatment are represented by the fold of fluorescence intensity. Fluorescence intensity of the accumulated topotecan in NCI-H460 cells without Ko143 was normalized to 1. Columns and error bars represented average values with SD from three independent measurements. * indicates p < 0.05 comparing resistant cell line with or without Ko143 to parental cell line with or without Ko143; # indicates p < 0.05 comparing a group with Ko143 to the corresponding cell line group without Ko143.

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References

1. Bessho Y., Oguri T., Achiwa H., Muramatsu H., Maeda H., Niimi T., et al. (2006). Role of ABCG2 as a biomarker for predicting resistance to CPT-11/SN-38 in lung cancer. Cancer Sci. 97 192–198. 10.1111/j.1349-7006.2006.00164.x - DOI - PMC - PubMed
1. Bray F., Ferlay J., Soerjomataram I., Siegel R. L., Torre L. A., Jemal A. (2018). Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J. Clin. 68 394–424. 10.3322/caac.21492 - DOI - PubMed
1. Chen Y.-L., Yang T.-Y., Chen K.-C., Wu C.-L., Hsu S.-L., Hsueh C.-M. (2016). Hypoxia can impair doxorubicin resistance of non-small cell lung cancer cells by inhibiting MRP1 and P-gp expression and boosting the chemosensitizing effects of MRP1 and P-gp blockers. Cell. Oncol. 39 411–433. 10.1007/s13402-016-0285-5 - DOI - PubMed
1. Chen Z., Fillmore C. M., Hammerman P. S., Kim C. F., Wong K.-K. (2014). Non-small-cell lung cancers: a heterogeneous set of diseases. Nat. Rev. Cancer 14 535–546. 10.1038/nrc3775 - DOI - PMC - PubMed
1. Fletcher J. I., Williams R. T., Henderson M. J., Norris M. D., Haber M. (2016). ABC transporters as mediators of drug resistance and contributors to cancer cell biology. Drug Resist. Updat. 26 1–9. 10.1016/j.drup.2016.03.001 - DOI - PubMed

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[1] Bessho Y., Oguri T., Achiwa H., Muramatsu H., Maeda H., Niimi T., et al. (2006). Role of ABCG2 as a biomarker for predicting resistance to CPT-11/SN-38 in lung cancer. Cancer Sci. 97 192–198. 10.1111/j.1349-7006.2006.00164.x - DOI - PMC - PubMed

[2] Bessho Y., Oguri T., Achiwa H., Muramatsu H., Maeda H., Niimi T., et al. (2006). Role of ABCG2 as a biomarker for predicting resistance to CPT-11/SN-38 in lung cancer. Cancer Sci. 97 192–198. 10.1111/j.1349-7006.2006.00164.x - DOI - PMC - PubMed

[3] Bray F., Ferlay J., Soerjomataram I., Siegel R. L., Torre L. A., Jemal A. (2018). Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J. Clin. 68 394–424. 10.3322/caac.21492 - DOI - PubMed

[4] Bray F., Ferlay J., Soerjomataram I., Siegel R. L., Torre L. A., Jemal A. (2018). Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J. Clin. 68 394–424. 10.3322/caac.21492 - DOI - PubMed

[5] Chen Y.-L., Yang T.-Y., Chen K.-C., Wu C.-L., Hsu S.-L., Hsueh C.-M. (2016). Hypoxia can impair doxorubicin resistance of non-small cell lung cancer cells by inhibiting MRP1 and P-gp expression and boosting the chemosensitizing effects of MRP1 and P-gp blockers. Cell. Oncol. 39 411–433. 10.1007/s13402-016-0285-5 - DOI - PubMed

[6] Chen Y.-L., Yang T.-Y., Chen K.-C., Wu C.-L., Hsu S.-L., Hsueh C.-M. (2016). Hypoxia can impair doxorubicin resistance of non-small cell lung cancer cells by inhibiting MRP1 and P-gp expression and boosting the chemosensitizing effects of MRP1 and P-gp blockers. Cell. Oncol. 39 411–433. 10.1007/s13402-016-0285-5 - DOI - PubMed

[7] Chen Z., Fillmore C. M., Hammerman P. S., Kim C. F., Wong K.-K. (2014). Non-small-cell lung cancers: a heterogeneous set of diseases. Nat. Rev. Cancer 14 535–546. 10.1038/nrc3775 - DOI - PMC - PubMed

[8] Chen Z., Fillmore C. M., Hammerman P. S., Kim C. F., Wong K.-K. (2014). Non-small-cell lung cancers: a heterogeneous set of diseases. Nat. Rev. Cancer 14 535–546. 10.1038/nrc3775 - DOI - PMC - PubMed

[9] Fletcher J. I., Williams R. T., Henderson M. J., Norris M. D., Haber M. (2016). ABC transporters as mediators of drug resistance and contributors to cancer cell biology. Drug Resist. Updat. 26 1–9. 10.1016/j.drup.2016.03.001 - DOI - PubMed

[10] Fletcher J. I., Williams R. T., Henderson M. J., Norris M. D., Haber M. (2016). ABC transporters as mediators of drug resistance and contributors to cancer cell biology. Drug Resist. Updat. 26 1–9. 10.1016/j.drup.2016.03.001 - DOI - PubMed

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Establishment and Characterization of a Topotecan Resistant Non-small Cell Lung Cancer NCI-H460/TPT10 Cell Line

Affiliations

Establishment and Characterization of a Topotecan Resistant Non-small Cell Lung Cancer NCI-H460/TPT10 Cell Line

Authors

Affiliations

Abstract

Conflict of interest statement

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