Long chain alkylphenols are man-made compounds still present in industrial and agricultural processes. Their main use is domestic and they are widespread in household products, cleansers and cosmetics, leading to a global environmental and human contamination. These molecules are known to exert estrogen-like activities through binding to classical estrogen receptors. In vitro, they can also interact with the G-protein coupled estrogen receptor. Testicular germ cell tumor etiology and progression are proposed to be stimulated by lifelong estrogeno-mimetic exposure. We studied the transduction signaling pathways through which an alkyphenol mixture triggers testicular cancer cell proliferation in vitro and in vivo. Proliferation assays were monitored after exposure to a realistic mixture of 4-tert-octylphenol and 4-nonylphenol of either TCam-2 seminoma derived cells, NT2/D1 embryonal carcinoma cells or testis tumor in xenografted nude mice. Specific pharmacological inhibitors and gene-silencing strategies were used in TCam-2 cells in order to demonstrate that the alkylphenol mix triggers CREB-phosphorylation through a rapid, ERα36-PI3kinase non genomic pathway. Microarray analysis of the mixture target genes revealed that this pathway can modulate the expression of the DNA-methyltransferase-3 (Dnmt3) gene family which is involved in DNA methylation control. Our results highlight a key role for ERα36 in alkylphenol non genomic signaling in testicular germ cell tumors. Hence, ERα36-dependent control of the epigenetic status opens the way for the understanding of the link between endocrine disruptor exposure and the burden of hormone sensitive cancers.
Pleurodeles waltl is a urodele amphibian displaying a ZZ/ZW genetic mode of sex determination. Gonad differentiation can later be modulated by hormone treatment. To investigate germ cell differentiation, we analyzed the expression of the meiosis marker PwDmc1 and show that germ cells enter meiosis in late larval life in females, and 2 months after metamorphosis in males. Organotypic cultures of gonad-mesonephros complexes demonstrated that retinoic acid triggers meiosis entry in P. waltl. In vivo analyses of both PwRaldh2 and PwCyp26b1 expressions, the enzymes required for RA synthesis and degradation respectively, indicate that meiosis onset depends on PwCyp26b1 repression in the gonad during normal or steroid-induced sex-reversed development. Taken together, our results show that RA-dependent meiosis entry could be a conserved mechanism of germ cell differentiation in vertebrates and provide evidence for crosstalk between steroid and RA signaling in the course of sex differentiation. Developmental Dynamics 238:1389 -1397, 2009.
Estrogen receptor alpha 36 (ERα36) is a variant of the canonical estrogen receptor alpha (ERα66), widely expressed in hormone sensitive cancer cells and whose high expression level correlates with a poor survival prognosis for breast cancer patients. While ERα36 activity have been related to breast cancer progression or acquired resistance to treatment, expression level and location of ERα36 are poorly documented in the normal mammary gland. Therefore, we explored the consequences of a ERα36 overexpression in vitro in MCF-10A normal mammary epithelial cells and in vivo in a unique model of MMTV-ERα36 transgenic mouse strain wherein ERα36 mRNA was specifically expressed in the mammary gland. By a combination of bioinformatics and computational analyses of microarray data, we identified hierarchical gene networks, downstream of ERα36 and modulated by the JAK2/STAT3 signaling pathway. Concomitantly, ERα36 overexpression lowered proliferation rate but enhanced migration potential and resistance to staurosporin-induced apoptosis of the MCF-10A cell line. In vivo, ERα36 expression led to duct epithelium thinning and disruption in adult but not in prepubescent mouse mammary gland. These phenotypes correlated with a loss of E-cadherin expression. Here, we show that an enhanced expression of ERα36 is sufficient, by itself, to disrupt normal breast epithelial phenotype in vivo and in vitro through a dominant-positive effect on nongenomic estrogen signaling pathways. These results also suggest that, in the presence of adult endogenous steroid levels, ERα36 overexpression in vivo contributes to alter mammary gland architecture which may support pre-neoplastic lesion and augment breast cancer risk.
The SOX family of transcription factors is thought to regulate gene expression in a wide variety of developmental processes. Namely, SOX9 expression is conserved in vertebrate sex determination or differentiation. Nevertheless, information about caudate amphibians is lacking. In this study, we provide data on Pleurodeles waltl, a species that displays a ZZ/ZW genetic mode of sex determination and a temperature-dependent mechanism of female-to-male sex reversal. Phylogenetic analysis of SOX9 P. waltl ortholog reveals that the deduced protein segregates from the group of anuran and could be more closely related to amniote than to anamniote. However, SOX9 lacks the PQA-rich domain present in amniotes. In larvae, SOX9 is expressed in both sexes in gonad-mesonephros complexes as soon as stage 42, before gonad differentiation. At stage 54(60d) at which testis differentiation is already in progress, analyses of isolated gonads reveal a male-enriched expression of SOX9, which was quantified by real-time PCR. At the end of metamorphosis (stage 56), SOX9 shows a nuclear localization only in the testis. In adults, SOX9 is still expressed in testes and ovaries. In the ovary, SOX9 is found in oocytes from stage I to stage VI but it is never detected in the nucleus. Our results suggest that in P. waltl, like in non mammalian vertebrates, SOX9 could play a role during the late phase of gonad differentiation rather than in sex determination. Its role in germ cells of the adult ovary has still to be elucidated.
BackgroundEstrogen receptor alpha36 (ERalpha36), a variant of estrogen receptor alpha (ER) is expressed in about half of breast tumors, independently of the [ER+]/[ER-] status. In vitro, ERalpha36 triggers mitogenic non-genomic signaling and migration ability in response to 17beta-estradiol and tamoxifen. In vivo, highly ERalpha36 expressing tumors are of poor outcome especially as [ER+] tumors are submitted to tamoxifen treatment which, in turn, enhances ERalpha36 expression.ResultsOur study aimed to validate ERalpha36 expression as a reliable prognostic factor for cancer progression from an estrogen dependent proliferative tumor toward an estrogen dispensable metastatic disease. In a retrospective study, we tried to decipher underlying mechanisms of cancer progression by using an original modeling of the relationships between ERalpha36, other estrogen and growth factor receptors and metastatic marker expression. Nonlinear correlation analyses and mutual information computations led to characterize a complex network connecting ERalpha36 to either non-genomic estrogen signaling or to metastatic process.ConclusionsThis study identifies ERalpha36 expression level as a relevant classifier which should be taken into account for breast tumors clinical characterization and [ER+] tumor treatment orientation, using a generic approach for the rapid, cheap and relevant evaluation of any candidate gene expression as a predictor of a complex biological process.Electronic supplementary materialThe online version of this article (doi:10.1186/s12918-015-0178-7) contains supplementary material, which is available to authorized users.
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