The mammalian female reproductive tract, including the oviducts, uterus, and vagina, is essential for the generation of progeny and a frequent site of human disease, including infertility and cancer. The female reproductive tract is derived from the Mllerian ducts (MD) of the fetus, a pair of epithelial tubes with a surrounding mesenchyme. In mammals, two pairs of genital ducts form within the mesonephroi associated with the fetal gonads regardless of sex genotype. Initially, the Wolffian ducts form that subsequently give rise to the vas deferentia, epididymides, and seminal vesicles in males. The Wolffian ducts then guide the formation of the MD that can form the oviducts, uterus, and upper vagina. The cell behaviors that regulate the elongation of the MD are poorly understood. We will use fluorescent, time-lapse imaging of the mesonephros to determine the cell behaviors and mechanisms that lead to MD elongation. We have shown that deletion of Lhx1, that encodes a LIM-homeodomain transcription factor in the MD, leads to ductal loss and uterine aplasia. In the absence of the MD epithelial compartment, the stroma and inner myometrial layer of the uterus do not differentiate. However, the outer myometrium forms. These results highlight the intrinsic and extrinsic roles of the MD for female reproductive tract differentiation. We will define the transcription factors that are expressed in the developing MD by RNA-seq and test their roles in uterine development by performing MD-specific knockouts. We will also describe the chromatin landscape of MD epithelial cells by ATAC-seq to identify candidate regulatory elements that will be tested in vivo. In males, the fetal testes produce the TGF-beta family member anti-Mllerian hormone (AMH) that binds receptors expressed in the MD mesenchyme, causing the elimination of the MDs. The fetal ovaries do not produce AMH, permitting MD differentiation. Thus, mammalian fetuses are initially ambi-sexual with the potential to develop both male and female reproductive tract organs. Defects in the formation of the genital ducts and resolution of the ambi-sexual state to a male or female phenotype lead to disorders of sexual development (DSD). RNA-seq of purified male and female MD mesenchyme identified AMH-induced candidate genes for MD regression. We will test their roles by performing MD mesenchyme-specific knockouts. ATAC-seq will also be performed to identify candidate regulatory elements that will be tested in vivo. Our goal is to define the gene regulatory networks that regulate female reproductive tract organogenesis and MD regression during male differentiation.

Public Health Relevance

4R37HD030284-26 ORIGINAL PROJECT NARRATIVE The proposed studies should provide fundamental insights into the molecular, cellular, and developmental mechanisms of reproductive tract organ formation in females and the signaling pathway for the elimination of the female reproductive organ progenitor tissue in males. In addition, these studies should provide new insights into the etiology of gynecological syndromes and disorders of sexual development.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
3R37HD030284-26S1
Application #
9929240
Study Section
Program Officer
Taymans, Susan
Project Start
1994-01-01
Project End
2021-08-31
Budget Start
2019-06-01
Budget End
2020-08-31
Support Year
26
Fiscal Year
2019
Total Cost
Indirect Cost
Name
University of Texas MD Anderson Cancer Center
Department
Genetics
Type
Hospitals
DUNS #
800772139
City
Houston
State
TX
Country
United States
Zip Code
77030
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Stewart, C Allison; Wang, Ying; Bonilla-Claudio, Margarita et al. (2013) CTNNB1 in mesenchyme regulates epithelial cell differentiation during Müllerian duct and postnatal uterine development. Mol Endocrinol 27:1442-54

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