| dc.contributor.author |
Abou-Kheir W. |
| dc.contributor.author |
Hynes P.G. |
| dc.contributor.author |
Martin P. |
| dc.contributor.author |
Yin J.J. |
| dc.contributor.author |
Liu Y.-N. |
| dc.contributor.author |
Seng V. |
| dc.contributor.author |
Lake R. |
| dc.contributor.author |
Spurrier J. |
| dc.contributor.author |
Kelly K. |
| dc.contributor.editor |
|
| dc.date |
Oct-2011 |
| dc.date.accessioned |
2017-09-07T06:59:55Z |
| dc.date.available |
2017-09-07T06:59:55Z |
| dc.date.issued |
2011 |
| dc.identifier |
10.1371/journal.pone.0026112 |
| dc.identifier.isbn |
|
| dc.identifier.issn |
19326203 |
| dc.identifier.uri |
http://hdl.handle.net/10938/11213 |
| dc.description.abstract |
Prostate cancers of luminal adenocarcinoma histology display a range of clinical behaviors. Although most prostate cancers are slow-growing and indolent, a proportion is aggressive, developing metastasis and resistance to androgen deprivation treatment. One hypothesis is that a portion of aggressive cancers initiate from stem-like, androgen-independent tumor-propagating cells. Here we demonstrate the in vitro creation of a mouse cell line, selected for growth as self-renewing stem-progenitor cells, which manifests many in vivo properties of aggressive prostate cancer. Normal mouse prostate epithelium containing floxed Pten and TP53 alleles was subjected to CRE-mediated deletion in vitro followed by serial propagation as protospheres. A polyclonal cell line was established from dissociated protospheres and subsequently a clonal daughter line was derived. Both lines demonstrate a mature luminal phenotype in vitro. The established lines contain a stable minor population of progenitor cells with protosphere-forming ability and multi-lineage differentiation capacity. Both lines formed orthotopic adenocarcinoma tumors with metastatic potential to lung. Intracardiac inoculation resulted in brain and lung metastasis, while intra-tibial injection induced osteoblastic bone formation, recapitulating the bone metastatic phenotype of human prostate cancer. The cells showed androgen receptor dependent growth in vitro. Importantly, in vivo, the deprivation of androgens from established orthotopic tumors resulted in tumor regression and eventually castration-resistant growth. These data suggest that transformed prostate progenitor cells preferentially differentiate toward luminal cells and recapitulate many characteristics of the human disease. |
| dc.format.extent |
|
| dc.language |
English |
| dc.publisher |
SAN FRANCISCO |
| dc.relation.ispartof |
Publication Name: PLoS ONE; Publication Year: 2011; Volume: 6; no. 10; |
| dc.relation.ispartofseries |
|
| dc.relation.uri |
|
| dc.source |
Scopus |
| dc.subject.other |
|
| dc.title |
Self-renewing Pten ---TP53 --- protospheres produce metastatic adenocarcinoma cell lines with multipotent progenitor activity |
| dc.type |
Article |
| dc.contributor.affiliation |
Abou-Kheir, W., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States, Department of Anatomy, Cell Biology and Physiological Sciences, Faculty of Medicine, American University of Beirut, Beirut, Lebanon |
| dc.contributor.affiliation |
Hynes, P.G., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Martin, P., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States, Center for Advanced Preclinical Research, SAIC-NCI, Frederick, MD, United States |
| dc.contributor.affiliation |
Yin, J.J., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Liu, Y.-N., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Seng, V., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Lake, R., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Spurrier, J., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.affiliation |
Kelly, K., Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States |
| dc.contributor.authorAddress |
Kelly, K.; Cell and Cancer Biology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, United States; email: kellyka@mail.nih.gov |
| dc.contributor.authorCorporate |
University: American University of Beirut Medical Center; Faculty: Faculty of Medicine; Department: Anatomy, Cell Biology and Physiological Sciences; |
| dc.contributor.authorDepartment |
Anatomy, Cell Biology and Physiological Sciences |
| dc.contributor.authorDivision |
|
| dc.contributor.authorEmail |
kellyka@mail.nih.gov |
| dc.contributor.faculty |
Faculty of Medicine |
| dc.contributor.authorInitials |
Abou-Kheir, W |
| dc.contributor.authorInitials |
Hynes, PG |
| dc.contributor.authorInitials |
Martin, P |
| dc.contributor.authorInitials |
Yin, JJ |
| dc.contributor.authorInitials |
Liu, YN |
| dc.contributor.authorInitials |
Seng, V |
| dc.contributor.authorInitials |
Lake, R |
| dc.contributor.authorInitials |
Spurrier, J |
| dc.contributor.authorInitials |
Kelly, K |
| dc.contributor.authorOrcidID |
|
| dc.contributor.authorReprintAddress |
Abou-Kheir, W (reprint author), NCI, Cell and Canc Biol Branch, NIH, Bethesda, MD 20892 USA. |
| dc.contributor.authorResearcherID |
|
| dc.contributor.authorUniversity |
American University of Beirut Medical Center |
| dc.description.cited |
Abou-Kheir WG, 2010, STEM CELLS, V28, P2129, DOI 10.1002-stem.538; Agell L, 2008, MODERN PATHOL, V21, P1470, DOI 10.1038-modpathol.2008.145; Chen ZB, 2005, NATURE, V436, P725, DOI 10.1038-nature03918; Clevers H, 2011, NAT MED, V17, P313, DOI 10.1038-nm.2304; Goldstein AS, 2010, SCIENCE, V329, P568, DOI 10.1126-science.1189992; Goldstein AS, 2010, MOL ONCOL, V4, P385, DOI 10.1016-j.molonc.2010.06.009; Harris WP, 2009, NAT CLIN PRACT UROL, V6, P76, DOI 10.1038-ncpuro1296; Li H, 2008, CANCER RES, V68, P1820, DOI 10.1158-0008-5472.CAN-07-5878; Lim E, 2009, NAT MED, V15, P907, DOI 10.1038-nm.2000; Logothetis CJ, 2005, NAT REV CANCER, V5, P21, DOI 10.1038-nrc1528; MARTIN PL, 2011, AM J PATHOLOGY; Mellado B, 2009, CLIN TRANSL ONCOL, V11, P5, DOI 10.1007-s12094-009-0304-3; Molyneux G, 2010, CELL STEM CELL, V7, P403, DOI 10.1016-j.stem.2010.07.010; Mulholland DJ, 2009, CANCER RES, V69, P8555, DOI 10.1158-0008-5472.CAN-08-4673; Patrawala L, 2007, CANCER RES, V67, P6796, DOI 10.1158-0008-5472.CAN-07-0490; Patrawala L, 2006, ONCOGENE, V25, P1696, DOI 10.1038-sj.onc.1209327; Rajasekhar VK, 2011, NAT COMMUN, V2, DOI 10.1038-ncomms1159; Reya T, 2001, NATURE, V414, P105, DOI 10.1038-35102167; Roudier MP, 2003, HUM PATHOL, V34, P646, DOI 10.1016-S0046-8177(03)00190-4; Roudier MP, 2008, J UROLOGY, V180, P1154, DOI 10.1016-j.juro.2008.04.140; Schlomm T, 2008, MODERN PATHOL, V21, P1371, DOI 10.1038-modpathol.2008.104; Sircar K, 2009, J PATHOL, V218, P505, DOI 10.1002-path.2559; Song MS, 2011, CELL, V144, P187, DOI 10.1016-j.cell.2010.12.020; Stambolic V, 1998, CELL, V95, P29, DOI 10.1016-S0092-8674(00)81780-8; Sun H, 1999, P NATL ACAD SCI USA, V96, P6199, DOI 10.1073-pnas.96.11.6199; Taylor BS, 2010, CANCER CELL, V18, P11, DOI 10.1016-j.ccr.2010.05.026; Visvader JE, 2009, GENE DEV, V23, P2563, DOI 10.1101-gad.1849509; Wang X, 2009, NATURE, V461, P495, DOI 10.1038-nature08361; Wang ZA, 2011, ONCOGENE, V30, P1261, DOI 10.1038-onc.2010.530 |
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1 |
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3 |
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3 |
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1 |
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e26112 |
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22022528 |
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80053943314 |
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|
| dc.publisher.address |
185 BERRY ST, STE 1300, SAN FRANCISCO, CA 94107 USA |
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| dc.relation.ispartofConferenceCode |
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| dc.relation.ispartofConferenceDate |
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| dc.relation.ispartofConferenceHosting |
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| dc.relation.ispartofConferenceSponsor |
|
| dc.relation.ispartofConferenceTitle |
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| dc.relation.ispartofFundingAgency |
|
| dc.relation.ispartOfISOAbbr |
PLoS One |
| dc.relation.ispartOfIssue |
10 |
| dc.relation.ispartOfPart |
|
| dc.relation.ispartofPubTitle |
PLoS ONE |
| dc.relation.ispartofPubTitleAbbr |
PLoS ONE |
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|
| dc.relation.ispartOfSuppl |
|
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6 |
| dc.source.ID |
WOS:000295973200037 |
| dc.type.publication |
Journal |
| dc.subject.otherAuthKeyword |
|
| dc.subject.otherChemCAS |
phosphatidylinositol 3,4,5 trisphosphate 3 phosphatase, 210488-47-4 |
| dc.subject.otherChemCAS |
Androgens |
| dc.subject.otherChemCAS |
PTEN Phosphohydrolase, 3.1.3.67 |
| dc.subject.otherChemCAS |
Pten protein, mouse, 3.1.3.48 |
| dc.subject.otherChemCAS |
Tumor Markers, Biological |
| dc.subject.otherChemCAS |
Tumor Suppressor Protein p53 |
| dc.subject.otherIndex |
androgen |
| dc.subject.otherIndex |
androgen receptor |
| dc.subject.otherIndex |
androgen |
| dc.subject.otherIndex |
phosphatidylinositol 3,4,5 trisphosphate 3 phosphatase |
| dc.subject.otherIndex |
protein p53 |
| dc.subject.otherIndex |
Pten protein, mouse |
| dc.subject.otherIndex |
tumor marker |
| dc.subject.otherIndex |
allele |
| dc.subject.otherIndex |
animal cell |
| dc.subject.otherIndex |
animal experiment |
| dc.subject.otherIndex |
animal model |
| dc.subject.otherIndex |
animal tissue |
| dc.subject.otherIndex |
article |
| dc.subject.otherIndex |
bone metastasis |
| dc.subject.otherIndex |
brain metastasis |
| dc.subject.otherIndex |
cancer growth |
| dc.subject.otherIndex |
cancer stem cell |
| dc.subject.otherIndex |
carcinoma cell |
| dc.subject.otherIndex |
castration resistant prostate cancer |
| dc.subject.otherIndex |
cell activity |
| dc.subject.otherIndex |
cell clone |
| dc.subject.otherIndex |
cell differentiation |
| dc.subject.otherIndex |
cell growth |
| dc.subject.otherIndex |
cell lineage |
| dc.subject.otherIndex |
cell population |
| dc.subject.otherIndex |
cell renewal |
| dc.subject.otherIndex |
cellular parameters |
| dc.subject.otherIndex |
controlled study |
| dc.subject.otherIndex |
daughter cell |
| dc.subject.otherIndex |
disease activity |
| dc.subject.otherIndex |
gene |
| dc.subject.otherIndex |
gene deletion |
| dc.subject.otherIndex |
in vitro study |
| dc.subject.otherIndex |
in vivo study |
| dc.subject.otherIndex |
lung metastasis |
| dc.subject.otherIndex |
metastasis potential |
| dc.subject.otherIndex |
mouse |
| dc.subject.otherIndex |
multipotent stem cell |
| dc.subject.otherIndex |
nonhuman |
| dc.subject.otherIndex |
ossification |
| dc.subject.otherIndex |
osteoblast |
| dc.subject.otherIndex |
phenotype |
| dc.subject.otherIndex |
prostate adenocarcinoma |
| dc.subject.otherIndex |
prostate epithelium |
| dc.subject.otherIndex |
protosphere |
| dc.subject.otherIndex |
PTEN gene |
| dc.subject.otherIndex |
TP53 gene |
| dc.subject.otherIndex |
adenocarcinoma |
| dc.subject.otherIndex |
animal |
| dc.subject.otherIndex |
biological model |
| dc.subject.otherIndex |
bone tumor |
| dc.subject.otherIndex |
brain tumor |
| dc.subject.otherIndex |
castration |
| dc.subject.otherIndex |
cell proliferation |
| dc.subject.otherIndex |
cell separation |
| dc.subject.otherIndex |
drug effect |
| dc.subject.otherIndex |
epithelium cell |
| dc.subject.otherIndex |
gene inactivation |
| dc.subject.otherIndex |
immunohistochemistry |
| dc.subject.otherIndex |
lung tumor |
| dc.subject.otherIndex |
male |
| dc.subject.otherIndex |
metabolism |
| dc.subject.otherIndex |
metastasis |
| dc.subject.otherIndex |
multicellular spheroid |
| dc.subject.otherIndex |
pathology |
| dc.subject.otherIndex |
prostate tumor |
| dc.subject.otherIndex |
tumor cell culture |
| dc.subject.otherIndex |
Adenocarcinoma |
| dc.subject.otherIndex |
Androgens |
| dc.subject.otherIndex |
Animals |
| dc.subject.otherIndex |
Bone Neoplasms |
| dc.subject.otherIndex |
Brain Neoplasms |
| dc.subject.otherIndex |
Castration |
| dc.subject.otherIndex |
Cell Differentiation |
| dc.subject.otherIndex |
Cell Lineage |
| dc.subject.otherIndex |
Cell Proliferation |
| dc.subject.otherIndex |
Cell Separation |
| dc.subject.otherIndex |
Epithelial Cells |
| dc.subject.otherIndex |
Gene Knockout Techniques |
| dc.subject.otherIndex |
Immunohistochemistry |
| dc.subject.otherIndex |
Lung Neoplasms |
| dc.subject.otherIndex |
Male |
| dc.subject.otherIndex |
Mice |
| dc.subject.otherIndex |
Models, Biological |
| dc.subject.otherIndex |
Multipotent Stem Cells |
| dc.subject.otherIndex |
Neoplasm Metastasis |
| dc.subject.otherIndex |
Osteoblasts |
| dc.subject.otherIndex |
Prostatic Neoplasms |
| dc.subject.otherIndex |
PTEN Phosphohydrolase |
| dc.subject.otherIndex |
Spheroids, Cellular |
| dc.subject.otherIndex |
Tumor Cells, Cultured |
| dc.subject.otherIndex |
Tumor Markers, Biological |
| dc.subject.otherIndex |
Tumor Suppressor Protein p53 |
| dc.subject.otherKeywordPlus |
TUMOR-INITIATING CELLS |
| dc.subject.otherKeywordPlus |
PROSTATE-CANCER CELLS |
| dc.subject.otherKeywordPlus |
STEM-CELLS |
| dc.subject.otherKeywordPlus |
PTEN |
| dc.subject.otherKeywordPlus |
BONE |
| dc.subject.otherKeywordPlus |
TUMORIGENESIS |
| dc.subject.otherKeywordPlus |
POPULATION |
| dc.subject.otherKeywordPlus |
SURVIVAL |
| dc.subject.otherKeywordPlus |
PATHWAY |
| dc.subject.otherKeywordPlus |
ORIGIN |
| dc.subject.otherWOS |
Multidisciplinary Sciences |