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Michel M. Sanders, Ph.D.
Professor
Department of Biochemistry, Molecular Biology
and Biophysics
University of Michigan, Ann Arbor, 1981 Ph.D.
sande001@tc.umn.edu
612-624-9637 office
612-624-3127 lab
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Research Interests:
Estrogen, androgen, transcription
Most eucaryotic genes are controlled by developmental, hormonal, tissue-specific, and/or nutritional cues. Insight into these complex regulatory events is fundamental to our understanding of the processes controlling cellular proliferation and oncogenesis, differentiation, and development.The long-term goal of the research in my laboratory focuses on investigating how estrogen and testosterone regulate gene expression, both physiologically and pathologically. To address this, we are investigating the structure and function of the estrogen- and testosterone-responsive ZEB-1 (dEF1) transcription factor. ZEB-1 both activates and represses transcription through as yet undetermined mechanisms to regulate target gene activity in reproductive tissues, bone, and T-cells. In addition, over expression of ZEB-1 is associated with numerous types of cancers including breast cancer, myometrial cancer, ovarian cancer, and endometrial cancer. We are examining how ZEB-1 regulates genes, what its target genes are, and what the resultant effects are in bone, the ovary, and the prostate. Thus, much of our research effort in the coming years will focus on the effects of estrogen and testosterone on gene activity in various reproductive cancers. Another area of research is the investigation of the transcriptional regulation of the chick ovalbumin gene. This gene serves as a model to investigate how a secondary or delayed transcriptional response gene is induced by estrogen in a tissue-specific manner. The expectation is that a better understanding of the events in this system will be broadly applicable to other secondary response genes in estrogen-responsive tissues.
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Park, H-M, M. M. Sanders, T. Suzuki, and T. Muramatsu. 2006. An oviduct-specific and enhancer-like element resides at about -3000 in the chicken ovalbumin gene. Biochimie (in press)
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Anose, B.M., M.P. Linnes, and M.M. Sanders. 2005. Hormonal regulation of ZEB-1 and implications for progression of human reproductive cancers. Hormonal Carcinogenesis IV. J.J. Li , S.A. Li, and A. Llombart-Bosch (eds). New York: Springer, pp 455-461.
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Dougherty, D.C. and M. M. Sanders. 2005. Comparison of the responsiveness of the pGL3 and pGL4 luciferase reporter vectors to steroid hormones. BioTechniques 39:203-207.
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Dougherty, D.C. and M. M. Sanders. 2005. Estrogen action: Revitalization of the chick oviduct model. Trends in Endocrinology and Metabolism 16:414-419.
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Dillner, N. B. and M. M. Sanders. 2004. Transcriptional activation by the zinc finger homeodomain protein dEF1 in estrogen signaling cascades. DNA Cell Biology 23:25-34.
- Dillner, N. B. and M. M. Sanders. 2002. Upstream Stimulatory
Factor (USF) is recruited into a steroid hormone-triggered
regulatory circuit by the estrogen-inducible transcription
factor dEF1. J.
Biol. Chem. 277:33890-33894.
- Monroe, D. G., R. R. Berger, and M. M. Sanders. 2002.
Tissue protective effects of estrogen involve regulation
of caspase gene expression. Mol.
Endocrinol. 16: 1322-1331.
- Dean, D.M., P.S. Jones, and M.M. Sanders. 2001. Alterations
in chromatin structure are implicated in the activation
of the steroid hormone response unit in the ovalbumin gene.
DNA
and Cell Biology 20:27-39.
- Monroe, D. and M. M. Sanders. 2000.
Estrogen opposes the apoptotic effects of bone morphogenetic protein 7 on tissue remodeling. Mol.
Cell Biol. 20:4626-4634.
- Hagen, S., D. G. Monroe, D. M. Dean, and M. M. Sanders. 2000. Repression of chick multidrug resistance-associated
protein 1(ch MRP1) gene expression by estrogen.
Gene 257 (issue 2):243-249.
Last modified on: August 8, 2006 |
