MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer

Catherine M. Shachaf; Andrew M. Kopelman; Constadlna Arvanitis; Åsa Karlsson; Shelly Beer; Stefanie Mandl; Michael H. Bachmann; Alexander D. Borowsky; Boris Ruebner; Robert D. Cardiff; Qiwei Yang; J. Michael Bishop; Christopher H. Contag; Dean W. Felsher

doi:10.1038/nature03043

MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer

Catherine M. Shachaf, Andrew M. Kopelman, Constadlna Arvanitis, Åsa Karlsson, Shelly Beer, Stefanie Mandl, Michael H. Bachmann, Alexander D. Borowsky, Boris Ruebner, Robert D. Cardiff, Qiwei Yang, J. Michael Bishop, Christopher H. Contag, Dean W. Felsher^*

^*Corresponding author for this work

Cell & Developmental Biology

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Abstract

Hepatocellular carcinoma is generally refractory to clinical treatment. Here, we report that inactivation of the MYC oncogene is sufficient to induce sustained regression of invasive liver cancers. MYC inactivation resulted en masse in tumour cells differentiating into hepatocytes and biliary cells forming bile duct structures, and this was associated with rapid loss of expression of the tumour marker α-fetoprotein, the increase in expression of liver cell markers cytokeratin 8 and carcinoembryonic antigen, and in some cells the liver stem cell marker cytokeratin 19. Using in vivo bioluminescence imaging we found that many of these tumour cells remained dormant as long as MYC remain inactivated; however, MYC reactivation immediately restored their neoplastic features. Using array comparative genomic hybridization we confirmed that these dormant liver cells and the restored tumour retained the identical molecular signature and hence were clonally derived from the tumour cells. Our results show how oncogene inactivation may reverse tumorigenesis in the most clinically difficult cancers. Oncogene inactivation uncovers the pluripotent capacity of tumours to differentiate into normal cellular lineages and tissue structures, while retaining their latent potential to become cancerous, and hence existing in a state of tumour dormancy.

Original language	English (US)
Pages (from-to)	1112-1117
Number of pages	6
Journal	Nature
Volume	431
Issue number	7012
DOIs	https://doi.org/10.1038/nature03043
State	Published - Oct 28 2004

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Shachaf, C. M., Kopelman, A. M., Arvanitis, C., Karlsson, Å., Beer, S., Mandl, S., Bachmann, M. H., Borowsky, A. D., Ruebner, B., Cardiff, R. D., Yang, Q., Bishop, J. M., Contag, C. H., & Felsher, D. W. (2004). MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer. Nature, 431(7012), 1112-1117. https://doi.org/10.1038/nature03043

@article{d1b51d614ecf41abaa88d2c2145f5474,

title = "MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer",

abstract = "Hepatocellular carcinoma is generally refractory to clinical treatment. Here, we report that inactivation of the MYC oncogene is sufficient to induce sustained regression of invasive liver cancers. MYC inactivation resulted en masse in tumour cells differentiating into hepatocytes and biliary cells forming bile duct structures, and this was associated with rapid loss of expression of the tumour marker α-fetoprotein, the increase in expression of liver cell markers cytokeratin 8 and carcinoembryonic antigen, and in some cells the liver stem cell marker cytokeratin 19. Using in vivo bioluminescence imaging we found that many of these tumour cells remained dormant as long as MYC remain inactivated; however, MYC reactivation immediately restored their neoplastic features. Using array comparative genomic hybridization we confirmed that these dormant liver cells and the restored tumour retained the identical molecular signature and hence were clonally derived from the tumour cells. Our results show how oncogene inactivation may reverse tumorigenesis in the most clinically difficult cancers. Oncogene inactivation uncovers the pluripotent capacity of tumours to differentiate into normal cellular lineages and tissue structures, while retaining their latent potential to become cancerous, and hence existing in a state of tumour dormancy.",

author = "Shachaf, {Catherine M.} and Kopelman, {Andrew M.} and Constadlna Arvanitis and {\AA}sa Karlsson and Shelly Beer and Stefanie Mandl and Bachmann, {Michael H.} and Borowsky, {Alexander D.} and Boris Ruebner and Cardiff, {Robert D.} and Qiwei Yang and Bishop, {J. Michael} and Contag, {Christopher H.} and Felsher, {Dean W.}",

note = "Funding Information: Acknowledgements We thank H. Bujard for providing us with the LAP-tTA mice; Y. Kim for assistance with the array CGH analysis; L. Germain for the CK-19 antibody; I. Weissman, P. Khavari and J. Sage for critical reading of the manuscript; and N. Bradon, S. Youssef and members of the Felsher laboratory for their suggestions. This work was supported, in part, by the National Cancer Institute (D.W.F. and C.H.C.), the ASCO Young Investigator Award, a Pilot Feasibility Grant from the UCSF Liver Center, a Pilot Award from the Stanford University Digestive Disease Center (D.W.F), Weiland Family Fellowship (C.M.S.), Howard Hughes Medical Institute Medical Student Fellowship (A.M.K.) and a PHS NRSA training grant (A.K., S.B.). Funding Information: Acknowledgements We thank S. Hendricks, M. R. C. Carvalho, S. Tula, G. Kazanina, J. Power, A. Holzgrefe, N. Ebashi, E. Butt, B. Sutton, S. Millett, W. Vogel and B. Constance for their technical contributions to this project and J. Elhai, D. Mallonee, L. M. Wen, T. Zwierzynski and Z. Chen for their contributions to the planning and performance of this project. This research was supported by grants from the National Institutes of Health.",

year = "2004",

month = oct,

day = "28",

doi = "10.1038/nature03043",

language = "English (US)",

volume = "431",

pages = "1112--1117",

journal = "Nature",

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TY - JOUR

T1 - MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer

AU - Shachaf, Catherine M.

AU - Kopelman, Andrew M.

AU - Arvanitis, Constadlna

AU - Karlsson, Åsa

AU - Beer, Shelly

AU - Mandl, Stefanie

AU - Bachmann, Michael H.

AU - Borowsky, Alexander D.

AU - Ruebner, Boris

AU - Cardiff, Robert D.

AU - Yang, Qiwei

AU - Bishop, J. Michael

AU - Contag, Christopher H.

AU - Felsher, Dean W.

N1 - Funding Information: Acknowledgements We thank H. Bujard for providing us with the LAP-tTA mice; Y. Kim for assistance with the array CGH analysis; L. Germain for the CK-19 antibody; I. Weissman, P. Khavari and J. Sage for critical reading of the manuscript; and N. Bradon, S. Youssef and members of the Felsher laboratory for their suggestions. This work was supported, in part, by the National Cancer Institute (D.W.F. and C.H.C.), the ASCO Young Investigator Award, a Pilot Feasibility Grant from the UCSF Liver Center, a Pilot Award from the Stanford University Digestive Disease Center (D.W.F), Weiland Family Fellowship (C.M.S.), Howard Hughes Medical Institute Medical Student Fellowship (A.M.K.) and a PHS NRSA training grant (A.K., S.B.). Funding Information: Acknowledgements We thank S. Hendricks, M. R. C. Carvalho, S. Tula, G. Kazanina, J. Power, A. Holzgrefe, N. Ebashi, E. Butt, B. Sutton, S. Millett, W. Vogel and B. Constance for their technical contributions to this project and J. Elhai, D. Mallonee, L. M. Wen, T. Zwierzynski and Z. Chen for their contributions to the planning and performance of this project. This research was supported by grants from the National Institutes of Health.

PY - 2004/10/28

Y1 - 2004/10/28

N2 - Hepatocellular carcinoma is generally refractory to clinical treatment. Here, we report that inactivation of the MYC oncogene is sufficient to induce sustained regression of invasive liver cancers. MYC inactivation resulted en masse in tumour cells differentiating into hepatocytes and biliary cells forming bile duct structures, and this was associated with rapid loss of expression of the tumour marker α-fetoprotein, the increase in expression of liver cell markers cytokeratin 8 and carcinoembryonic antigen, and in some cells the liver stem cell marker cytokeratin 19. Using in vivo bioluminescence imaging we found that many of these tumour cells remained dormant as long as MYC remain inactivated; however, MYC reactivation immediately restored their neoplastic features. Using array comparative genomic hybridization we confirmed that these dormant liver cells and the restored tumour retained the identical molecular signature and hence were clonally derived from the tumour cells. Our results show how oncogene inactivation may reverse tumorigenesis in the most clinically difficult cancers. Oncogene inactivation uncovers the pluripotent capacity of tumours to differentiate into normal cellular lineages and tissue structures, while retaining their latent potential to become cancerous, and hence existing in a state of tumour dormancy.

AB - Hepatocellular carcinoma is generally refractory to clinical treatment. Here, we report that inactivation of the MYC oncogene is sufficient to induce sustained regression of invasive liver cancers. MYC inactivation resulted en masse in tumour cells differentiating into hepatocytes and biliary cells forming bile duct structures, and this was associated with rapid loss of expression of the tumour marker α-fetoprotein, the increase in expression of liver cell markers cytokeratin 8 and carcinoembryonic antigen, and in some cells the liver stem cell marker cytokeratin 19. Using in vivo bioluminescence imaging we found that many of these tumour cells remained dormant as long as MYC remain inactivated; however, MYC reactivation immediately restored their neoplastic features. Using array comparative genomic hybridization we confirmed that these dormant liver cells and the restored tumour retained the identical molecular signature and hence were clonally derived from the tumour cells. Our results show how oncogene inactivation may reverse tumorigenesis in the most clinically difficult cancers. Oncogene inactivation uncovers the pluripotent capacity of tumours to differentiate into normal cellular lineages and tissue structures, while retaining their latent potential to become cancerous, and hence existing in a state of tumour dormancy.

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MYC inactivation uncovers pluripotent differentiation and tumour dormancy in hepatocellular cancer

Abstract

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