Elucidating endometrial function in the post-genomic era

doi:10.1093/humupd/dmg019

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Human Reproduction Update, Vol.9, No.3 pp.223-235, 2003
© European Society of Human Reproduction and Embryology 2003; all rights reserved

Elucidating endometrial function in the post-genomic era

Linda C. Giudice¹

¹ Stanford University School of Medicine, Stanford, CA 94305-5317, USA. e-mail: giudice@stanford.edu

To whom correspondence should be addressed at: Linda C. Giudice, Stanford University School of Medicine, Stanford, CA 94305-5317, USA. e-mail: giudice{at}stanford.edu

Abstract

The post-genomic era has now arrived, and science and biologyare on the threshold of a transition from understanding functionsof single molecules and pathways in cells, tissues and wholeorganisms to understanding integrative systems. The endometriumis a dynamic tissue that responds to multiple stimuli, dependingon physiological and environmental conditions, including steroidhormones, an implanting conceptus, withdrawal of steroid hormones,contraceptive steroids, selective steroid hormone receptor modulators,infection, transient cell populations, and metaplastic and neoplasticagents. High throughput technologies with regard to DNA, RNAand proteins are well positioned to enable a thorough understandingof the dynamic changes and integrative systems involved in endometrialmaturation, desquamation, receptivity to implantation, infertility,pregnancy maintenance and failure, inflammation and infection,and malignant transformation. This monograph reviews some ofthe salient features of the new technologies and summarizescurrent information on endometrial biology derived from theseapproaches.

Key words: decidualization / endometrium / genomics / implantation / neoplasia

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