Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling

Bhuvanesh Dave; Sergio Granados-Principal; Rui Zhu; Stephen Benz; Shahrooz Rabizadeh; Patrick Soon-Shiong; Ke Da Yu; Zhimin Shao; Xiaoxian Li; Michael Gilcrease; Zhao Lai; Yidong Chen; Tim H.M. Huang; Haifa Shen; Xuewu Liu; Mauro Ferrari; Ming Zhan; Stephen T.C. Wong; Muthiah Kumaraswami; Vivek Mittal; Xi Chen; Steven S. Gross; Jenny C. Chang

doi:10.1073/pnas.1320769111

Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling

Bhuvanesh Dave, Sergio Granados-Principal, Rui Zhu, Stephen Benz, Shahrooz Rabizadeh, Patrick Soon-Shiong, Ke Da Yu, Zhimin Shao, Xiaoxian Li, Michael Gilcrease, Zhao Lai, Yidong Chen, Tim H.M. Huang, Haifa Shen, Xuewu Liu, Mauro Ferrari, Ming Zhan, Stephen T.C. Wong, Muthiah Kumaraswami, Vivek MittalXi Chen, Steven S. Gross, Jenny C. Chang

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Abstract

We previously described a gene signature for breast cancer stem cells (BCSCs) derived from patient biopsies. Selective shRNA knockdown identified ribosomal protein L39 (RPL39) and myeloid leukemia factor 2 (MLF2) as the top candidates that affect BCSC self-renewal. Knock-down of RPL39 and MLF2 by specific siRNA nanoparticles in patient-derived and human cancer xenografts reduced tumor volume and lung metastases with a concomitant decrease in BCSCs. RNA deep sequencing identified damaging mutations in both genes. These mutations were confirmed in patient lung metastases (n = 53) and were statistically associated with shorter median time to pulmonary metastasis. Both genes affect the nitric oxide synthase pathway and are altered by hypoxia. These findings support that extensive tumor heterogeneity exists within primary cancers; distinct subpopulations associated with stem-like properties have increased metastatic potential.

Original language	English (US)
Pages (from-to)	8838-8843
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	24
DOIs	https://doi.org/10.1073/pnas.1320769111
State	Published - 2014

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Dave, B., Granados-Principal, S., Zhu, R., Benz, S., Rabizadeh, S., Soon-Shiong, P., Yu, K. D., Shao, Z., Li, X., Gilcrease, M., Lai, Z., Chen, Y., Huang, T. H. M., Shen, H., Liu, X., Ferrari, M., Zhan, M., Wong, S. T. C., Kumaraswami, M., ... Chang, J. C. (2014). Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling. Proceedings of the National Academy of Sciences of the United States of America, 111(24), 8838-8843. https://doi.org/10.1073/pnas.1320769111

Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling. / Dave, Bhuvanesh; Granados-Principal, Sergio; Zhu, Rui et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 111, No. 24, 2014, p. 8838-8843.

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

Dave, B, Granados-Principal, S, Zhu, R, Benz, S, Rabizadeh, S, Soon-Shiong, P, Yu, KD, Shao, Z, Li, X, Gilcrease, M, Lai, Z, Chen, Y, Huang, THM, Shen, H, Liu, X, Ferrari, M, Zhan, M, Wong, STC , Kumaraswami, M , Mittal, V, Chen, X, Gross, SS & Chang, JC 2014, 'Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling', Proceedings of the National Academy of Sciences of the United States of America, vol. 111, no. 24, pp. 8838-8843. https://doi.org/10.1073/pnas.1320769111

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abstract = "We previously described a gene signature for breast cancer stem cells (BCSCs) derived from patient biopsies. Selective shRNA knockdown identified ribosomal protein L39 (RPL39) and myeloid leukemia factor 2 (MLF2) as the top candidates that affect BCSC self-renewal. Knock-down of RPL39 and MLF2 by specific siRNA nanoparticles in patient-derived and human cancer xenografts reduced tumor volume and lung metastases with a concomitant decrease in BCSCs. RNA deep sequencing identified damaging mutations in both genes. These mutations were confirmed in patient lung metastases (n = 53) and were statistically associated with shorter median time to pulmonary metastasis. Both genes affect the nitric oxide synthase pathway and are altered by hypoxia. These findings support that extensive tumor heterogeneity exists within primary cancers; distinct subpopulations associated with stem-like properties have increased metastatic potential.",

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AU - Rabizadeh, Shahrooz

AU - Soon-Shiong, Patrick

AU - Yu, Ke Da

AU - Shao, Zhimin

AU - Li, Xiaoxian

AU - Gilcrease, Michael

AU - Lai, Zhao

AU - Chen, Yidong

AU - Huang, Tim H.M.

AU - Shen, Haifa

AU - Liu, Xuewu

AU - Ferrari, Mauro

AU - Zhan, Ming

AU - Wong, Stephen T.C.

AU - Kumaraswami, Muthiah

AU - Mittal, Vivek

AU - Chen, Xi

AU - Gross, Steven S.

AU - Chang, Jenny C.

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AB - We previously described a gene signature for breast cancer stem cells (BCSCs) derived from patient biopsies. Selective shRNA knockdown identified ribosomal protein L39 (RPL39) and myeloid leukemia factor 2 (MLF2) as the top candidates that affect BCSC self-renewal. Knock-down of RPL39 and MLF2 by specific siRNA nanoparticles in patient-derived and human cancer xenografts reduced tumor volume and lung metastases with a concomitant decrease in BCSCs. RNA deep sequencing identified damaging mutations in both genes. These mutations were confirmed in patient lung metastases (n = 53) and were statistically associated with shorter median time to pulmonary metastasis. Both genes affect the nitric oxide synthase pathway and are altered by hypoxia. These findings support that extensive tumor heterogeneity exists within primary cancers; distinct subpopulations associated with stem-like properties have increased metastatic potential.

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Targeting RPL39 and MLF2 reduces tumor initiation and metastasis in breast cancer by inhibiting nitric oxide synthase signaling

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