Reproductive efficiency is critically dependent on embryo survival, establishment of a successful pregnancy and placental development. Recent advances in gene editing technology have enabled investigators to use gene knockdown and knockout approaches to better understand the role of hormone signaling in placental function and fetal growth and development. In this review, an overview of ruminant placentation will be provided, including recent data highlighting the role of histone lysine demethylase 1A and androgen signaling in ruminant placenta and pregnancy. Studies in ruminant placenta establish a role for histone lysine demethylase 1A in controlling genetic networks necessary for important cellular events such as cell proliferation and angiogenesis, as well as androgen receptor signaling during early placentation.
The placenta is a multifunctional, transitory organ that mediates transport of nutrients and waste, gas exchange, and endocrine signaling. In fact, placental secretion of hormones is critical for maintenance of pregnancy, as well as growth and development of healthy offspring. In this chapter, the role of androgens in placental development and function is highlighted. First, a brief summary will be provided on the different mammalian placental types followed by an overview of placental steroidogenesis. Next, the chapter will focus on genomic and non-genomic androgen signaling pathways. Finally, an overview will be provided on the current status of androgen signaling in the placenta during normal and abnormal pregnancies.
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