BRCA2 inhibition enhances cisplatin-mediated alterations in tumor cell proliferation, metabolism, and metastasis

Mateusz Rytelewski; Jessica G. Tong; Adrian Buensuceso; Hon S. Leong; Saman Maleki Vareki; Rene Figueredo; Christine Di Cresce; Sherry Y. Wu; Shelley M. Herbrich; Keith A. Baggerly; Larissa Romanow; Trevor Shepherd; Bonnie J. Deroo; Anil K. Sood; Ann F. Chambers; Mark Vincent; Peter J. Ferguson; James Koropatnick

doi:10.1016/j.molonc.2014.05.017

BRCA2 inhibition enhances cisplatin-mediated alterations in tumor cell proliferation, metabolism, and metastasis

Mateusz Rytelewski, Jessica G. Tong, Adrian Buensuceso, Hon S. Leong, Saman Maleki Vareki, Rene Figueredo, Christine Di Cresce, Sherry Y. Wu, Shelley M. Herbrich, Keith A. Baggerly, Larissa Romanow, Trevor Shepherd, Bonnie J. Deroo, Anil K. Sood, Ann F. Chambers, Mark Vincent, Peter J. Ferguson, James Koropatnick

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Tumor cells have unstable genomes relative to non-tumor cells. Decreased DNA integrity resulting from tumor cell instability is important in generating favorable therapeutic indices, and intact DNA repair mediates resistance to therapy. Targeting DNA repair to promote the action of anti-cancer agents is therefore an attractive therapeutic strategy. BRCA2 is involved in homologous recombination repair. BRCA2 defects increase cancer risk but, paradoxically, cancer patients with BRCA2 mutations have better survival rates. We queried TCGA data and found that BRCA2 alterations led to increased survival in patients with ovarian and endometrial cancer. We developed a BRCA2-targeting second-generation antisense oligonucleotide (ASO), which sensitized human lung, ovarian, and breast cancer cells to cisplatin by as much as 60%. BRCA2 ASO treatment overcame acquired cisplatin resistance in head and neck cancer cells, but induced minimal cisplatin sensitivity in non-tumor cells. BRCA2 ASO plus cisplatin reduced respiration as an early event preceding cell death, concurrent with increased glucose uptake without a difference in glycolysis. BRCA2 ASO and cisplatin decreased metastatic frequency invivo by 77%. These results implicate BRCA2 as a regulator of metastatic frequency and cellular metabolic response following cisplatin treatment. BRCA2 ASO, in combination with cisplatin, is a potential therapeutic anti-cancer agent.

Original language	English (US)
Pages (from-to)	1429-1440
Number of pages	12
Journal	Molecular oncology
Volume	8
Issue number	8
DOIs	https://doi.org/10.1016/j.molonc.2014.05.017
State	Published - Dec 1 2014

Keywords

BRCA2
Cisplatin
DNA repair
Drug sensitization
Metabolism
Metastasis

ASJC Scopus subject areas

Molecular Medicine
Genetics
Oncology
Cancer Research

MD Anderson CCSG core facilities

Bioinformatics Shared Resource

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10.1016/j.molonc.2014.05.017

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Rytelewski, M., Tong, J. G., Buensuceso, A., Leong, H. S., Maleki Vareki, S., Figueredo, R., Di Cresce, C., Wu, S. Y., Herbrich, S. M., Baggerly, K. A., Romanow, L., Shepherd, T., Deroo, B. J., Sood, A. K., Chambers, A. F., Vincent, M., Ferguson, P. J., & Koropatnick, J. (2014). BRCA2 inhibition enhances cisplatin-mediated alterations in tumor cell proliferation, metabolism, and metastasis. Molecular oncology, 8(8), 1429-1440. https://doi.org/10.1016/j.molonc.2014.05.017

Rytelewski, M, Tong, JG, Buensuceso, A, Leong, HS, Maleki Vareki, S, Figueredo, R, Di Cresce, C, Wu, SY, Herbrich, SM, Baggerly, KA, Romanow, L, Shepherd, T, Deroo, BJ, Sood, AK, Chambers, AF, Vincent, M, Ferguson, PJ & Koropatnick, J 2014, 'BRCA2 inhibition enhances cisplatin-mediated alterations in tumor cell proliferation, metabolism, and metastasis', Molecular oncology, vol. 8, no. 8, pp. 1429-1440. https://doi.org/10.1016/j.molonc.2014.05.017

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abstract = "Tumor cells have unstable genomes relative to non-tumor cells. Decreased DNA integrity resulting from tumor cell instability is important in generating favorable therapeutic indices, and intact DNA repair mediates resistance to therapy. Targeting DNA repair to promote the action of anti-cancer agents is therefore an attractive therapeutic strategy. BRCA2 is involved in homologous recombination repair. BRCA2 defects increase cancer risk but, paradoxically, cancer patients with BRCA2 mutations have better survival rates. We queried TCGA data and found that BRCA2 alterations led to increased survival in patients with ovarian and endometrial cancer. We developed a BRCA2-targeting second-generation antisense oligonucleotide (ASO), which sensitized human lung, ovarian, and breast cancer cells to cisplatin by as much as 60%. BRCA2 ASO treatment overcame acquired cisplatin resistance in head and neck cancer cells, but induced minimal cisplatin sensitivity in non-tumor cells. BRCA2 ASO plus cisplatin reduced respiration as an early event preceding cell death, concurrent with increased glucose uptake without a difference in glycolysis. BRCA2 ASO and cisplatin decreased metastatic frequency invivo by 77%. These results implicate BRCA2 as a regulator of metastatic frequency and cellular metabolic response following cisplatin treatment. BRCA2 ASO, in combination with cisplatin, is a potential therapeutic anti-cancer agent.",

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AU - Buensuceso, Adrian

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AU - Maleki Vareki, Saman

AU - Figueredo, Rene

AU - Di Cresce, Christine

AU - Wu, Sherry Y.

AU - Herbrich, Shelley M.

AU - Baggerly, Keith A.

AU - Romanow, Larissa

AU - Shepherd, Trevor

AU - Deroo, Bonnie J.

AU - Sood, Anil K.

AU - Chambers, Ann F.

AU - Vincent, Mark

AU - Ferguson, Peter J.

AU - Koropatnick, James

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AB - Tumor cells have unstable genomes relative to non-tumor cells. Decreased DNA integrity resulting from tumor cell instability is important in generating favorable therapeutic indices, and intact DNA repair mediates resistance to therapy. Targeting DNA repair to promote the action of anti-cancer agents is therefore an attractive therapeutic strategy. BRCA2 is involved in homologous recombination repair. BRCA2 defects increase cancer risk but, paradoxically, cancer patients with BRCA2 mutations have better survival rates. We queried TCGA data and found that BRCA2 alterations led to increased survival in patients with ovarian and endometrial cancer. We developed a BRCA2-targeting second-generation antisense oligonucleotide (ASO), which sensitized human lung, ovarian, and breast cancer cells to cisplatin by as much as 60%. BRCA2 ASO treatment overcame acquired cisplatin resistance in head and neck cancer cells, but induced minimal cisplatin sensitivity in non-tumor cells. BRCA2 ASO plus cisplatin reduced respiration as an early event preceding cell death, concurrent with increased glucose uptake without a difference in glycolysis. BRCA2 ASO and cisplatin decreased metastatic frequency invivo by 77%. These results implicate BRCA2 as a regulator of metastatic frequency and cellular metabolic response following cisplatin treatment. BRCA2 ASO, in combination with cisplatin, is a potential therapeutic anti-cancer agent.

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BRCA2 inhibition enhances cisplatin-mediated alterations in tumor cell proliferation, metabolism, and metastasis

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

Access to Document

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