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1 - Placental expression of neurohormones and other neuroactive molecules in human pregnancy
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- By Felice Petraglia, Pasquale Florio, Department of Pediatrics, Obstetrics and Reproductive Medicine, University of Siena, Siena School of Medicine, Siena, Italy, Wylie W. Vale, Peptide Biology Laboratory, Salk Institute, La Jolla, CA, USA
- Edited by Michael L. Power, American College of Obstetricians and Gynecologists, Washington DC, Jay Schulkin, American College of Obstetricians and Gynecologists, Washington DC
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- Book:
- Birth, Distress and Disease
- Published online:
- 16 October 2009
- Print publication:
- 28 July 2005, pp 16-73
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- Chapter
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Summary
Introduction
The human placenta and its accessory membranes (amnion and chorion) actually undertake the role of intermediary barriers and source(s) of active messengers in the maternal—fetal dialog. In the past decades, an accelerated progress in the understanding of physiological roles and of pathological influences of the placenta and other gestational intrauterine tissues (fetal membranes and deciduae) has occurred. These organs and tissues produce brain, pituitary, gonadal and adrenocortical hormones (Petraglia et al., 1990b; 1996d; Petraglia, 1991; Reis et al., 2001; 2002), chemically identical and as biologically active as their hypothalamic/gonadal counterparts and, when added to placental cell cultures, they modulate the release of both pituitary-like peptide hormones and gonadal/adrenal cortex-like steroid hormones. Thus, the intraplacental mechanism of control of hormone secretion resembles in many aspects the organization of hypothalamus—pituitary—target organ axes. Under this perspective, the human placenta may be considered as a neuroendocrine organ, since its secretion of substances analogous to neurohormones, neuropeptides, neurosteroids and monoamines (Table 1.1) have endocrine, paracrine and autocrine function (Petraglia et al., 1996d).
Physiological functions of these placental secretions include:
to maintain an equilibrium between the fetus and the mother;
to provide a favorable uterine environment at implantation;
to regulate fetal growth during pregnancy;
to direct the appropriate signals for the timing of parturition.