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In 1990, several studies reported that an enhanced formation of endogenous nitric oxide (NO) contributes to the hypotension caused by endotoxin and tumor-necrosis factor-α (TNFα) (1–3). In addition, it became apparent that this overproduction of NO also plays an important role in the patho ...

Experimental models of blastocyst development based on in vitro culture have played a prominent role in advancing our understanding of peri-implantation development, a process that is relatively inaccessible in vivo. Blastocyst culture provides a robust approach for examining ...

The female sex hormones estrogen and progesterone stimulate proliferation and differentiation of human and rodent uterine cells. The purpose of this chapter is to provide a method for isolating hormone-responsive rat uterine stromal cell lines that can be used to study steroid control of ...

Pregnancy requires profound reorganization of the different tissues forming the uterus. Growth and differentiation of the uterine endometrial cells give rise to the decidual tissue, a transitory organ, which plays a key role in fetal survival. In this chapter, we describe a technique for t ...

The loss of replicative potential with each cell division has been attributed to the progressive shortening of telomeres. This “mitotic clock” occurs because most normal human cells are telomerase-negative. Telomerase is a multicomponent enzyme that prevents loss of telomeric DNA a ...

Endometrial gland development is a postnatal event in the ovine uterus that can be inhibited epigenetically by chronic exposure of ewe lambs to a synthetic progestin after birth. The uterus of neonatally progestinized ewes lack endometrial glands and display a uterine gland knockout (U ...

Endometriosis is a disease that is associated with severe pelvic pain and is a major cause of infertility in women. It is an enigmatic disease whose etiology and pathophysiology has been studied to a limited extent. The events associated with the establishment of the disease and mechanisms asso ...

Estrogen and progesterone secreted by the corpus luteum regulate the function of the uterine endometrium in preparation for pregnancy. Embryonic signals superimposed on this steroid hormone-primed uterus further modulate the uterine environment to make it conducive to pregna ...

The trophectoderm is one of the earliest cell types to differentiate in the forming mammalian embryo. It is responsible for the initial implantation and the formation of the trophoblast components of the placenta, an organ essential for nutrient and waste exchange between the fetus and its mo ...

The biology of trophoblast cell development can be investigated using in vitro model systems. The Rcho-1 trophoblast stem cell line was derived from a rat choriocarcinoma and is an effective tool for elucidating regulatory mechanisms controlling trophoblast cell differentiatio ...

The mouse is a valuable model for studying basic mechanisms of gene regulation in trophoblast cell lineage differentiation. Elements of placental development are conserved across species, including trophoblast proliferation, differentiation, migration, and vessel inva ...

Bovine trophoblastic cells are the first cells to differentiate during embryogenesis and play pivotal role in morphological and physiological development of the placenta. We have developed culture systems for bovine trophoblast stem cells isolated from in vitro fertilized bla ...

Human embryonic stem (ES) cells can proliferate without a known limit and can form advanced derivatives of all three embryonic germ layers. What is less widely appreciated is that human ES cells can also form the extra-embryonic tissues that differentiate from the embryo before gastrulati ...

Experimentation with most human cell types is restricted to the use of cell lines, and this limits our ability to extrapolate interpretations to the in vivo condition. However, in studying human trophoblast cells, we have a unique opportunity to obtain large quantities of readily available h ...

Our understanding of important biological phenomena such as invasion, migration, and apoptosis has advanced greatly through the prudent use of in vitro models based on isolated cells in culture. Established cell lines are readily manipulated using simple molecular biological tec ...

In vitro models for human trophoblasts were initially established more than three decades ago from isolated choriocarcinomas. They have proven to be extremely valuable for the study of the cellular, molecular, and endocrine aspects of human trophoblasts. This chapter describes basic ...

Despite the importance of the definitive chorio-allantoic placenta in fetal survival, fetal development, and long-term health of the adult, little is known about how the placenta’s individual components, the allantois and the chorion, proliferate and develop. In this chapter, two tech ...

Placental development is a dynamic and complex process and much of our current understanding of the underlying molecular processes comes from analysis of targeted gene mutations in mice. There are more than 50 strains of mutant mice that have placental defects, and it has become widely apprec ...

The rat is an important model for studying the biology of trophoblast-uterine development. This chapter describes methods that are useful for the characterization of the rat uteroplacental compartment.

The basic structure of all ruminant placentas described so far is cotyledonary (or placentomal), with local proliferations of apposed fetomaternal membranes forming placentomes that are linked by flat interplacentomal areas. In vivo, the placenta consists of an intimate apposit ...