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C D Simmons
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J M P Pabona
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Z Zeng
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M C Velarde
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D Gaddy
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F A Simmen
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R C M Simmen Department of Physiology and Biophysics, Arkansas Children's Nutrition Center, University of Arkansas for Medical Sciences, 4301 W Markham Street, Little Rock, Arkansas 72202, USA

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Inappropriate early exposure of the hormone-responsive uterus to estrogenic compounds is associated with increased risk for adult reproductive diseases including endometrial cancers. While the dysregulation of estrogen receptor-α (ESR1) signaling is well acknowledged to mediate early events in tumor initiation, mechanisms contributing to sustained ESR1 activity later in life and leading to induction of oncogenic pathways remain poorly understood. We had shown previously that the transcription factor Krüppel-like factor 9 (KLF9) represses ESR1 expression and activity in Ishikawa endometrial glandular epithelial cells. We hypothesized that KLF9 functions as a tumor suppressor, and that loss of its expression enhances ESR1 signaling. Here, we evaluated the contribution of KLF9 to early perturbations in uterine ESR1 signaling pathways elicited by the administration of synthetic estrogen diethylstilbestrol (DES) to wild-type (WT) and Klf9 null (KO) mice on postnatal days (PNDs) 1–5. Uterine tissues collected at PND84 were subjected to histological, immunological, and molecular analyses. Compared with WT mice, KO mice demonstrated larger endometrial glands and lower endometrial gland numbers; DES exposure exacerbated these differences. Loss of KLF9 expression resulted in increased glandular ESR1 immunoreactivity with DES, without effects on serum estradiol levels. Quantitative RT-PCR analyses indicated altered expression of uterine genes commonly dysregulated in endometrial cancers (Akt1, Mmp9, Slpi, and Tgf β 1) and of those involved in growth regulation (Fos, Myc, Tert, and Syk), with loss of Klf9, alone or in concert with DES. Our data support a molecular network between KLF9 and ESR1 in the uterus, and suggest that silencing of KLF9 may contribute to endometrial dysfunctions initiated by aberrant estrogen action.

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R C M Simmen Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA
Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA
Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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J M P Pabona Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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M C Velarde Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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C Simmons Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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O Rahal Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA
Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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F A Simmen Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA
Department of Physiology and Biophysics, Interdisciplinary Biomedical Sciences Program, Arkansas Children's Nutrition Center, Buck Institute for Age Research, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, Arkansas 72202, USA

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Krüppel-like factors (KLFs), of which there are currently 17 known protein members, belong to the specificity protein (Sp) family of transcription factors and are characterized by the presence of Cys2/His2 zinc finger motifs in their carboxy-terminal domains that confer preferential binding to GC/GT-rich sequences in gene promoter and enhancer regions. While previously regarded to simply function as silencers of Sp1 transactivity, many KLFs are now shown to be relevant to human cancers by their newly identified abilities to mediate crosstalk with signaling pathways involved in the control of cell proliferation, apoptosis, migration, and differentiation. Several KLFs act as tumor suppressors and/or oncogenes under distinct cellular contexts, underscoring their prognostic potential for cancer survival and outcome. Recent studies suggest that a number of KLFs can influence steroid hormone signaling through transcriptional networks involving steroid hormone receptors and members of the nuclear receptor family of transcription factors. Since inappropriate sensitivity or resistance to steroid hormone actions underlies endocrine-related malignancies, we consider the intriguing possibility that dysregulation of expression and/or activity of KLF members is linked to the pathogenesis of endometrial and breast cancers. In this review, we focus on recently described mechanisms of actions of several KLFs (KLF4, KLF5, KLF6, and KLF9) in cancers of the mammary gland and uterus. We suggest that understanding the mode of actions of KLFs and their functional networks may lead to the development of novel therapeutics to improve current prospects for cancer prevention and cure.

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