Showing papers by "Eric R. Fearon published in 2015"

Tumor-selective proteotoxicity of verteporfin inhibits colon cancer progression independently of YAP1

Abstract: Yes-associated protein 1 (YAP1) is a transcriptional coactivator in the Hippo signaling pathway. Increased YAP1 activity promotes the growth of tumors, including that of colorectal cancer (CRC). Verteporfin, a drug that enhances phototherapy to treat neovascular macular degeneration, is an inhibitor of YAP1. We found that verteporfin inhibited tumor growth independently of its effects on YAP1 or the related protein TAZ in genetically or chemically induced mouse models of CRC, in patient-derived xenografts, and in enteroid models of CRC. Instead, verteporfin exhibited in vivo selectivity for killing tumor cells in part by impairing the global clearance of high-molecular weight oligomerized proteins, particularly p62 (a sequestrome involved in autophagy) and STAT3 (signal transducer and activator of transcription 3; a transcription factor). Verteporfin inhibited cytokine-induced STAT3 activity and cell proliferation and reduced the viability of cultured CRC cells. Although verteporfin accumulated to a greater extent in normal cells than in tumor cells in vivo, experiments with cultured cells indicated that the normal cells efficiently cleared verteporfin-induced protein oligomers through autophagic and proteasomal pathways. Culturing CRC cells under hypoxic or nutrient-deprived conditions (modeling a typical CRC microenvironment) impaired the clearance of protein oligomers and resulted in cell death, whereas culturing cells under normoxic or glucose-replete conditions protected cell viability and proliferation in the presence of verteporfin. Furthermore, verteporfin suppressed the proliferation of other cancer cell lines even in the absence of YAP1, suggesting that verteporfin may be effective against multiple types of solid cancers.

Regulation of Wnt signaling target gene expression by the histone methyltransferase DOT1L.

Abstract: The histone methyltransferase DOT1L, solely responsible for histone H3 lysine 79 (H3K79) methylation, is associated with gene activation. Human leukemias carrying MLL gene rearrangements aberrantly recruit DOT1L to leukemogenic genes leading to increased H3K79 methylation and their transcriptional activation. Recent studies suggest that Wnt-targeted genes also depend on H3K79 methylation. Employing a chemical biology approach, the requirement for H3K79 methylation was investigated in Wnt pathway-inducible HEK293 cells and human colon adenocarcinoma-derived cell lines by inhibiting DOT1L with EPZ004777, a selective and potent S-adenosylmethionine competitive inhibitor. Our findings indicate that H3K79 methylation is not essential for the canonical Wnt signaling pathway, in particular for maintenance or activation of Wnt pathway target gene expression. Furthermore, H3K79 methylation is not elevated in human colon carcinoma samples in comparison with normal colon tissue. Therefore, our findings indicate that...

Tissue-Specific Effects of Reduced β-catenin Expression on Adenomatous Polyposis Coli Mutation-Instigated Tumorigenesis in Mouse Colon and Ovarian Epithelium.

Abstract: Adenomatous polyposis coli (APC) inactivating mutations are present in most human colorectal cancers and some other cancers. The APC protein regulates the β-catenin protein pool that functions as a co-activator of T cell factor (TCF)-regulated transcription in Wnt pathway signaling. We studied effects of reduced dosage of the Ctnnb1 gene encoding β-catenin in Apc-mutation-induced colon and ovarian mouse tumorigenesis and cell culture models. Concurrent somatic inactivation of one Ctnnb1 allele, dramatically inhibited Apc mutation-induced colon polyposis and greatly extended Apc-mutant mouse survival. Ctnnb1 hemizygous dose markedly inhibited increases in β-catenin levels in the cytoplasm and nucleus following Apc inactivation in colon epithelium, with attenuated expression of key β-catenin/TCF-regulated target genes, including those encoding the EphB2/B3 receptors, the stem cell marker Lgr5, and Myc, leading to maintenance of crypt compartmentalization and restriction of stem and proliferating cells to the crypt base. A critical threshold for β-catenin levels in TCF-regulated transcription was uncovered for Apc mutation-induced effects in colon epithelium, along with evidence of a feed-forward role for β-catenin in Ctnnb1 gene expression and CTNNB1 transcription. The active β-catenin protein pool was highly sensitive to CTNNB1 transcript levels in colon cancer cells. In mouse ovarian endometrioid adenocarcinomas (OEAs) arising from Apc- and Pten-inactivation, while Ctnnb1 hemizygous dose affected β-catenin levels and some β-catenin/TCF target genes, Myc induction was retained and OEAs arose in a fashion akin to that seen with intact Ctnnb1 gene dose. Our findings indicate Ctnnb1 gene dose exerts tissue-specific differences in Apc mutation-instigated tumorigenesis. Differential expression of selected β-catenin/TCF-regulated genes, such as Myc, likely underlies context-dependent effects of Ctnnb1 gene dosage in tumorigenesis.

Abstract AS06: Development and characterization of an oviduct-specific model of high-grade serous carcinoma

Abstract: Recent studies suggest the most common and lethal type of “ovarian” cancer, high-grade serous carcinoma (HGSC), often arises from fallopian tube epithelium rather than the ovarian surface epithelium. Their intraperitoneal location and microscopic size make it very difficult to screen for, or study the biology of early tubal lesions in humans, as most are discovered incidentally in women with hereditary predisposition to ovarian cancer who elect prophylactic salpingo-oophorectomy for cancer risk-reduction. Although most cases of pelvic HGSC probably originate in the fallopian tube, roughly one-third lack evidence of tubal origin. These cases may arise from ectopic tubal-type epithelium (endosalpingiosis) present in the ovary, peritoneum, or at other sites. Mouse models that closely mimic the genetics and biology of human HGSCs may be useful for clarifying how tubal and non-tubal pelvic HGSCs develop and progress. We have developed transgenic (Ovgp1-iCreERT2) mice allowing conditional (tamoxifen [TAM]-inducible) expression of Cre recombinase exclusively in the oviductal epithelium, using a single transgene. Using double transgenic Ovgp1-iCreERT2;R26LSL-eYFP mice in which TAM treatment activates eYFP reporter protein expression in oviductal epithelial cells, we have shown that tubal-type inclusion glands (endosalpingiosis) expressing both eYFP and OVGP1 are present in a subset of murine ovaries following treatment with TAM. The findings suggest that oviductal epithelium can detach from the oviduct and traffic to the ovaries, where it implants through breaks in the OSE and maintains its tubal-type differentiation. Preliminary data also suggest that the frequency of ovarian endosalpingiosis increases over time and by superovulating the mice. The latter finding raises the possibility that at least some of the protective effects of high parity and oral contraceptive use on human ovarian cancer risk is related to reduced likelihood of acquiring endosalpingiosis from which “ovarian” HGSCs may eventually arise. We have further shown that Ovgp1-iCreERT2;Trp53fl/fl;Brca1fl/fl mice develop oviductal lesions identical to human serous tubal intraepithelial carcinomas (STICs) after TAM treatment and have identified additional genetic alterations that cooperate with Trp53 and Brca1 inactivation in oviductal HGSC pathogenesis in our model system. Murine models of HGSC that recapitulate their human tumor counterparts provide excellent in vivo systems with which to define the cellular and molecular events associated with HGSC development and progression. Citation Format: Yali Zhai, Rong Wu, Tom C. Hu, Eric R. Fearon, Kathleen R. Cho. Development and characterization of an oviduct-specific model of high-grade serous carcinoma [abstract]. In: Proceedings of the 10th Biennial Ovarian Cancer Research Symposium; Sep 8-9, 2014; Seattle, WA. Philadelphia (PA): AACR; Clin Cancer Res 2015;21(16 Suppl):Abstract nr AS06.