Carol Sartorius - Academia.edu (original) (raw)

Papers by Carol Sartorius

Nature Communications, 2015

TP53 is mutated in 50% of all cancers, and its function is often compromised in cancers where it ... more TP53 is mutated in 50% of all cancers, and its function is often compromised in cancers where it is not mutated. Here we demonstrate that the pro-tumorigenic/metastatic Six1 homeoprotein decreases p53 levels through a mechanism that does not involve the negative regulator of p53, MDM2. Instead, Six1 regulates p53 via a dual mechanism involving upregulation of microRNA-27a and downregulation of ribosomal protein L26 (RPL26). Mutation analysis confirms that RPL26 inhibits miR-27a binding and prevents microRNA-mediated downregulation of p53. The clinical relevance of this interaction is underscored by the finding that Six1 expression strongly correlates with decreased RPL26 across numerous tumour types. Importantly, we find that Six1 expression leads to marked resistance to therapies targeting the p53-MDM2 interaction. Thus, we identify a competitive mechanism of p53 regulation, which may have consequences for drugs aimed at reinstating p53 function in tumours.

International journal of gynecological cancer : official journal of the International Gynecological Cancer Society, 2015

Cytokeratin 5 (CK5) is an epithelial cell marker implicated in stem and progenitor cell activity ... more Cytokeratin 5 (CK5) is an epithelial cell marker implicated in stem and progenitor cell activity in glandular reproductive tissues and endocrine and chemotherapy resistance in estrogen receptor (ER) breast cancer. The goal of this study was to determine the prevalence of CK5 expression in ovarian cancer and the response of CK5 cell populations to cisplatin therapy. Cytokeratin 5 expression was evaluated in 2 ovarian tissue microarrays, representing 137 neoplasms, and 6 ovarian cancer cell lines. Cell lines were treated with IC50 (half-maximal inhibitory concentration) cisplatin, and the prevalence of CK5 cells pretreatment and posttreatment was determined. Proliferation of CK5 versus CK5 cell populations was determined using 5-bromo-2'-deoxyuridine incorporation. Chemotherapy-induced apoptosis in CK5 versus CK5 cells was measured using immunohistochemical staining for cleaved caspase-3. Cytokeratin 5 was expressed in 39.3% (42 of 107) of epithelial ovarian cancers with a range o...

Gynecologic Oncology, 2014

Endometrial cancer is a hormonally responsive malignancy. Response to progestins is associated wi... more Endometrial cancer is a hormonally responsive malignancy. Response to progestins is associated with estrogen receptor (ER) and progesterone receptor (PR) status. CD133 is a marker of endometrial cancer stem cells. We postulated that CD133+ cells express ER and PR and that progestin therapy differentially regulates CD133+ cells. The Ishikawa (ER/PR positive) and KLE (ER/PR negative) cell lines were examined for the presence of CD133 populations. Cell lines were treated with 30.4μM medroxyprogesterone 17-acetate (MPA) for 6days. After treatment, cell counts, apoptosis assays and CD133+ populations were examined. In a clinical project, we identified 12 endometrial cancer patients who were treated with progestin drugs at our institution. Using immunohistochemistry, CD133, ER, PR, and androgen receptor (AR) expression was scored and evaluated for change over time on serial biopsies. CD133+ populations were identified in Ishikawa and KLE cell lines. MPA treatment resulted in a significant reduction in the percentage of live cells (Ishikawa, P=0.036; KLE, P=0.0002), significant increase in apoptosis (Ishikawa, P=0.01; KLE, P=0.0006) and significant decrease in CD133+ populations (Ishikawa, P&amp;amp;amp;lt;0.0001; KLE, P=0.0001). ER, PR, AR and CD133 were present in 96.4%, 96.4%, 89.3% and 100% of patient samples respectively. Paralleling the in vitro results, CD133 expression decreased in patients who had histologic response to progestin treatment. CD133+ populations decreased after treatment with MPA in an in vitro model and in patients responding to treatment with progestins. Progestin treatment differentially decreases CD133+ cells.

Endocrinology, 2006

In breast cancers, estrogen receptor (ER) levels are highly correlated with response to endocrine... more In breast cancers, estrogen receptor (ER) levels are highly correlated with response to endocrine therapies. We sought to define mechanisms of estrogen (E) signaling in a solid breast tumor model using gene expression profiling. ER(+) T47D-Y human breast cancer cells were grown as xenografts in ovariectomized nude mice under four conditions: 1) 17beta-estradiol for 8 wk (E); 2) without E for 8 wk (control); 3) E for 7 wk followed by 1 wk of E withdrawal (Ewd); or 4) E for 8 wk plus tamoxifen for the last week. E-regulated genes were defined as those that differed significantly between control and E and/or between E and Ewd or control and Ewd. These protocols generated 188 in vivo E-regulated genes that showed two major patterns of regulation. Approximately 46% returned to basal states after Ewd (class I genes); 53% did not (class II genes). In addition, more than 70% of class II-regulated genes also failed to reverse in response to tamoxifen. These genes may be interesting for the s...

Oncogene, 2014

ABSTRACT Progesterone (P4) has emerged as an important hormone-regulating mammary stem cell (MaSC... more ABSTRACT Progesterone (P4) has emerged as an important hormone-regulating mammary stem cell (MaSC) populations. In breast cancer, P4 and synthetic analogs increase the number of stem-like cells within luminal estrogen receptor (ER)- and progesterone receptor (PR)-positive breast cancers. These cells gain expression of de-differentiated cell markers CD44 and cytokeratin 5 (CK5), lose luminal markers ER and PR, and are more therapy resistant. We previously described that P4 downregulation of microRNA (miR)-29a contributes to the expansion of CD44(high) and CK5(+) cells. Here we investigated P4 downregulation of miR-141, a member of the miR-200 family of tumor suppressors, in facilitating an increase in stem-like breast cancer cells. miR-141 was the sole member of the miR-200 family P4-downregulated at the mature miRNA level in luminal breast cancer cell lines. Stable inhibition of miR-141 alone increased the CD44(high) population, and potentiated P4-mediated increases in both CD44(high) and CK5(+) cells. Loss of miR-141 enhanced both mammosphere formation and tumor initiation. miR-141 directly targeted both PR and signal transducer and activator of transcription 5A (Stat5a), transcription factors important for MaSC expansion. miR-141 depletion increased PR protein levels, even in cell lines where PR expression is estrogen dependent. Stat5a suppression via small interfering RNA or a small-molecule inhibitor reduced the P4-dependent increase in CK5(+) and CD44(high) cells. These data support a mechanism by which P4-triggered loss of miR-141 facilitates breast cancer cell de-differentiation through deregulation of PR and Stat5a, two transcription factors important for controlling mammary cell fate.Oncogene advance online publication, 22 September 2014; doi:10.1038/onc.2014.298.

Molecular cancer therapeutics, Jan 10, 2015

Triple-negative breast cancer (TNBC) is an aggressive disease with a poor prognosis. Advances in ... more Triple-negative breast cancer (TNBC) is an aggressive disease with a poor prognosis. Advances in the treatment of TNBC have been hampered by the lack of novel effective targeted therapies. The primary goal of this study was to evaluate the efficacy of targeting Aurora kinase A (AurA), a key regulator of mitosis, in TNBC models. A secondary objective was to determine the role of the p53 family of transcriptional regulators, commonly mutated in TNBC, in determining the phenotypic response to the AurA inhibitor alisertib (MLN8237). Alisertib exhibited potent antiproliferative and proapototic activity in a subset of TNBC models. The induction of apoptosis in response to alisertib exposure was dependent on p53 and p73 activity. In the absence of functional p53 or p73, there was a shift in the phenotypic response following alisertib exposure from apoptosis to cellular senescence. Additionally, senescence was observed in patient-derived tumor xenografts with acquired resistance to aliserti...

Cancer research, Jan 15, 1994

Because progesterone antagonists are growth inhibitors, they are in Phase III clinical trials for... more Because progesterone antagonists are growth inhibitors, they are in Phase III clinical trials for the treatment of breast cancer. However, when cellular cAMP levels are elevated, some antiprogestins inappropriately activate transcription. We have proposed that hormone "resistance" may result from such unintended stimulation of breast cancer by antagonists. In transient expression systems, the two natural isoforms of human progesterone receptors (PR), B-receptors and truncated A-receptors, have dissimilar effects on agonist-mediated transcription. We show here that in the presence of 8-Br-cAMP, antiprogestin-occupied B-receptors but not A-receptors become transcriptional activators. Therefore, we developed new model systems to study each PR isoform independently in a breast cancer setting: (a) a stable PR-negative monoclonal subline (T47D-Y) of PR-positive T47D breast cancer cells was selected by flow cytometric PR screening. T47D-Y cells are PR-negative by immunoassays, by...

Advances in experimental medicine and biology, 2008

Progesterone receptors (PR) are useful prognostic indicators of breast cancers likely to respond ... more Progesterone receptors (PR) are useful prognostic indicators of breast cancers likely to respond to anti-estrogen receptor (ER) therapies. However, the role of progesterone, therapeutic progestins, or unliganded or liganded PRin breast cancer development or progression remains controversial. PR are ligand-activated transcription factors that act in concert with intracellular signaling pathways as "sensors" of multiple growth factor inputs to hormonally regulated tissues, such as the breast. The recently defined induction of rapid signaling events upon progestin-binding to PR-B provides a means to ensure that receptors and coregulators are appropriately phosphorylated as part of optimal transcription complexes. PR-activated kinase cascades may provide additional avenues for progestin-regulated gene expression independent of PR nuclear action. Herein, we present an overview ofprogesterone/PR and signaling cross-talk in breast cancer models and discuss the potential significa...

Advances in Experimental Medicine and Biology, 2008

Hormones & cancer, 2013

Progestins play a deleterious role in the onset of breast cancer, yet their influence on existing... more Progestins play a deleterious role in the onset of breast cancer, yet their influence on existing breast cancer and tumor progression is not well understood. In luminal estrogen receptor (ER)- and progesterone receptor (PR)-positive breast cancer, progestins induce a fraction of cells to express cytokeratin 5 (CK5), a marker of basal epithelial and progenitor cells in the normal breast. CK5(+) cells lose expression of ER and PR and are relatively quiescent, increasing their resistance to endocrine and chemotherapy compared to intratumoral CK5(-)ER(+)PR(+) cells. Characterization of live CK5(+) cells has been hampered by a lack of means for their direct isolation. Here, we describe optical (GFP) and bioluminescent (luciferase) reporter models to quantitate and isolate CK5(+) cells in luminal breast cancer cell lines utilizing the human KRT5 gene promoter and a viral vector approach. Using this system, we confirmed that the induction of GFP(+)/CK5(+) cells is specific to progestins, i...

Current chemical genomics and translational medicine, 2014

The multi cellular tumor spheroid (MCTS) model has been used for decades with proven superiority ... more The multi cellular tumor spheroid (MCTS) model has been used for decades with proven superiority over monolayer cell culture models at recapitulating in vivo tumor growth. Yet its use in high-throughput drug discovery has been limited, particularly with image based screening, due to practical and technical hurdles. Here we report a significant advance in utilizing live MCTS models for high-content image based drug discovery. Using a validated GFP reporter (CK5Pro-GFP) of luminal breast cancer stem cells (CSC), we developed an algorithm to quantify changes in CK5Pro-GFP expression levels for individual Z-stack planes (local) or as maximal projections of the summed Z-stacks (global) of MCTS. From these image sets, we can quantify the cross-sectional area of GFP positive cells, the fluorescence intensity of the GFP positive cells, and the percent of spheroid cross-sectional area that expresses CK5Pro-GFP.We demonstrate that acquiring data in this manner can be done in real time and is ...

Novartis Foundation Symposia, 2007

When hormone antagonists have inappropriate agonist-like effects, the clinical consequences are g... more When hormone antagonists have inappropriate agonist-like effects, the clinical consequences are grave. We describe novel molecular mechanisms by which antiprogestin-occupied progesterone receptors behave like agonists. These mechanisms include agonist-like transcriptional effects that do not require receptor binding to DNA at progesterone response elements, or that result from cross-talk between progesterone receptors and other signalling pathways. We discuss the complex structural organization of progesterone receptors, and demonstrate that the B receptor isoform has a unique third activation domain that may confer agonist-like properties in the presence of antiprogestins, whereas the A receptor isoform is a dominant-negative inhibitor. We argue that these novel mechanisms play a role in the apparent hormone resistance of breast cancers and the variable tissue-specific responses to antagonists.

The Journal of Steroid Biochemistry and Molecular Biology, 2003

Progesterone receptors (PR) are present in two isoforms, PR-A and PR-B. The B-upstream segment (B... more Progesterone receptors (PR) are present in two isoforms, PR-A and PR-B. The B-upstream segment (BUS) of PR-B is a 164 amino acid N-terminal extension that is missing in PR-A and is responsible for the functional differences reported between the two isoforms. BUS contains an activation function (AF3) which is defined by a core domain between residues 54-154 whose activity is dependent upon a single Trp residue and two LXXLL motifs. We have also identified sites both within and outside of BUS that repress the strong synergism between AF3 and AF1 in the N-terminal region and AF2 in the hormone binding domain. One of these repressor sites is a consensus binding motif for the small ubiquitin-like modifier protein, SUMO-1 ( 387 IKEE). The DNA binding domain (DBD) structure is also important for function. When BUS is linked to the glucocorticoid receptor DBD, AF3 activity is substantially attenuated, suggesting that binding to a DNA response element results in allosteric communication between the DBD and N-terminal functional regions. Lastly, biochemical and biophysical analyses of highly purified PR-B and PR-A N-terminal regions reveal that they are unstructured unless the DBD is present. Thus, the DBD stabilizes N-terminal structure. We propose a model in which the DBD through DNA binding, and BUS through protein-protein interactions, stabilize active receptor conformers within an ensemble distribution of active and inactive conformational states. This would explain why PR-B are stronger transactivators than PR-A.

The Journal of Cell Biology, 1998

Myosin in adult murine skeletal muscle is composed primarily of three adult fast myosin heavy cha... more Myosin in adult murine skeletal muscle is composed primarily of three adult fast myosin heavy chain (MyHC) isoforms. These isoforms, MyHC-IIa, -IId, and -IIb, are Ͼ 93% identical at the amino acid level and are broadly expressed in numerous muscles, and their genes are tightly linked. Mice with a null mutation in the MyHC-IId gene have phenotypes that include growth inhibition, muscle weakness, histological abnormalities, kyphosis (spinal curvature), and aberrant kinetics of muscle contraction and relaxation. Despite the lack of MyHC-IId, IId null mice have normal amounts of myosin in their muscles because of compensation by the MyHC-IIa gene. In each muscle examined

The Journal of Cell Biology, 1997

The three adult fast myosin heavy chains (MyHCs) constitute the vast majority of the myosin in ad... more The three adult fast myosin heavy chains (MyHCs) constitute the vast majority of the myosin in adult skeletal musculature, and are Ͼ 92% identical. We describe mice carrying null mutations in each of two predominant adult fast MyHC genes, IIb and IId/x.

Proceedings of the National Academy of Sciences, 2008

There are two major subtypes of human breast cancers: the luminal, estrogen, and progesterone rec... more There are two major subtypes of human breast cancers: the luminal, estrogen, and progesterone receptor-positive, cytokeratin 18-positive (ER ؉ PR ؉ CK18 ؉ ) subtype, and the basal ER ؊ PR ؊ CK18 ؊ CK5 ؉ subtype. Tumor-initiating cells (CD44 ؉ ) have been described for human breast cancers; whether these are common to the two subtypes is unknown. We have identified a rare population of cells that are both CD44 ؉ and ER ؊ PR ؊ CK5 ؉ in luminal-like ER ؉ PR ؉ T47D human breast tumor xenografts. The tumor-isolated CD44 ؉ cell fraction was highly enriched for clonogenic (in vitro culture) and tumorigenic (in vivo reimplantation) cells compared with the CD44 ؊ cell fraction. Rare ER ؊ PR ؊ CK5 ؉ cells were present within CD44 ؉ -derived colonies. Tumor-isolated cells placed in minimal media also contained rare ER ؊ PR ؊ CK5 ؉ cells at early time points (<10 cells); however, this population did not expand with increasing colony size. The number of ER ؉ PR ؉ CK5 ؊ cells, conversely, increased linearly with colony growth. Similary, tumors originating in vivo from CD44 ؉ cells contained a rare static ER ؊ PR ؊ CK5 ؉ population, an intermediate ER ؊ PR ؊ CK5 ؊ population, and an expanding ER ؉ PR ؉ CK5 ؊ population. Putative ER ؉ PR ؉ CK5 ؉ transitional cells could be seen only in colonies or tumors treated with a progestin. We propose that luminal ER ؉ PR ؉ breast tumors contain a minor ER ؊ PR ؊ CK5 ؉ population that has the capacity to generate the majority of ER ؉ PR ؉ CK18 ؉ CK5 ؊ cells. Luminal breast cancers are treated with endocrine therapies that target ER. The rare ER ؊ PR ؊ CK5 ؉ progenitor cells would escape such treatments and survive to repopulate the tumor.

Proceedings of the National Academy of Sciences, 2012

Molecular Endocrinology, 2006

The two, nearly identical, isoforms of human progesterone receptors (PR), PR-B and -A, share acti... more The two, nearly identical, isoforms of human progesterone receptors (PR), PR-B and -A, share activation functions (AF) 1 and 2, yet they possess markedly different transcriptional profiles, with PR-B being much stronger transactivators.

Molecular Endocrinology, 1994

Human progesterone target tissues contain two progesterone receptors: B-receptors (hPRB), which a... more Human progesterone target tissues contain two progesterone receptors: B-receptors (hPRB), which are 933 amino acids in length, and A-receptors (hPRA), which lack the N-terminal 164 amino acids. The two isoforms differ functionally when they are occupied by agonists or antagonists. We postulated that the unique 164-amino acid, B-upstream segment (BUS) is in part responsible for the functional differences between the two isoforms and have constructed a series of hPR expression vectors encoding BUS fused to isolated down-stream functional domains of the receptors. These include the two transactivation domains: activation function-1 (AF1), located in a 90-amino acid segment just up-stream of the DNA-binding domain (DBD) and nuclear localization signal (NLS), and AF2, located in the hormone-binding domain. BUS is a highly phosphorylated domain, and contains the serine residues responsible for the hPRB triplet protein structure. The construct containing BUS-DBD-NLS binds tightly to DNA when aided by accessory nuclear factors. In HeLa cells, BUS-DBD-NLS strongly and autonomously activates transcription of chloramphenicol acetyltransferase (CAT) from a promoter containing two progesterone response elements (PRE2-TATAtk-CAT). Transcription levels with BUS-DBD-NLS are equivalent to those seen with full-length hPRB, and are higher than those seen with hPRA. BUS specifically requires an intact hPR DBD to be transcriptionally active. DBD mutants that cannot bind DNA or whose DNA binding specificity has been switched to an estrogen response element cannot cooperate in BUS transcriptional activity. The function of BUS-DBD-NLS is promoter and cell specific. It does not transactivate a CAT reporter driven by the mouse mammary tumor virus promoter in HeLa cells and poorly transactivates PRE2-TATAtk-CAT in PR-negative T47D breast cancer cells. However, in the breast cancer cells, BUS-DBD-NLS transactivation of PRE2-TATAtk-CAT can be reconstituted by either elevating cellular levels of cAMP or linking BUS and DBD to AF1 or AF2 of hPR, each of which alone is also inactive in these cells. We conclude that hPRB contains a unique third activation function (AF3) located within BUS and requiring the functional DBD of hPR. Depending on the promoter or cell tested, AF3 can activate transcription autonomously, or it can functionally synergize with AF1 or AF2. Autonomous AF3 function may explain the unexpected transactivating actions of antiprogestin-occupied hPRB, an issue of importance in hormone-resistant breast cancers and in tissue-specific agonist-like effects of hormone antagonists.