Targeted Disruption of the Mouse Estrogen Sulfotransferase Gene Reveals a Role of Estrogen Metabolism in Intracrine and Paracrine Estrogen Regulation

doi:10.1210/en.142.12.5342

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Targeted Disruption of the Mouse Estrogen Sulfotransferase Gene Reveals a Role of Estrogen Metabolism in Intracrine and Paracrine Estrogen Regulation

Y. M. Qian, X. J. Sun, M. H. Tong, X. P. Li, J. Richa and W.-C. Song

Center for Experimental Therapeutics and Department of Pharmacology (Y.M.Q., X.J.S., M.H.T., X.P.L., W.C.S.) and Center for Research on Reproduction and Women’s Health, Department of Genetics (J.R.), University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104

Address all correspondence and requests for reprints to: W.-C. Song, Ph.D., University of Pennsylvania School of Medicine, Room 1351, Biomedical Research Building II/III, 421 Curie Boulevard, Philadelphia, Pennsylvania 19104. E-mail: song{at}spirit.gcrc.upenn.edu

Elicitation of biological responses by estrogen in target tissues requiresthe presence of ER as well as receptor-active ligand in the localmicroenvironment. Though much attention has been devoted tothe study of the receptor in estrogen target tissues, the conceptis emerging that tissue estrogen sensitivity may also be regulatedby ligand availability through metabolic transformation in situ.Here, we show that targeted disruption, in the mouse, of anestrogen metabolic enzyme, estrogen sulfotransferase (EST),causes structural and functional lesions in the male reproductivesystem. EST catalyzes the sulfoconjugation and inactivationof estrogen and is expressed abundantly in testicular Leydigcells. Although knockout males were fertile and phenotypicallynormal initially, they developed age-dependent Leydig cell hypertrophy/hyperplasiaand seminiferous tubule damage. Development of these lesionsin the testis could be recapitulated by exogenous E2 administrationin younger knockout mice, suggesting that they arose in olderknockout mice from chronic estrogen stimulation. Older knockoutmice were also found to have reduced testis and epididymis weightsbut increased seminal vesicle/coagulating gland weight becauseof tissue swelling. Furthermore, total and forward sperm motilityof older knockout mice was reduced by 60% and 80%, respectively,and these mice produced smaller litters compared with age-matchedwild-type males. These findings establish a role for EST inthe male reproductive system and indicate that intracrine and paracrineestrogen activity can be modulated by a ligand transformation enzymeunder a physiological setting. Thus, inhibition of estrogen metabolicenzymes by environmental chemicals, as has been demonstrated recentlyfor the human EST, may constitute a novel mechanism of endocrinedisruption in vivo.

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				J. M. Naciff, K. A. Hess, G. J. Overmann, S. M. Torontali, G. J. Carr, J. P. Tiesman, L. M. Foertsch, B. D. Richardson, J. E. Martinez, and G. P. Daston Gene Expression Changes Induced in the Testis by Transplacental Exposure to High and Low Doses of 17{alpha}-Ethynyl Estradiol, Genistein, or Bisphenol A Toxicol. Sci., August 1, 2005; 86(2): 396 - 416. [Abstract] [Full Text] [PDF]

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				M. H. Tong and W.-C. Song Estrogen Sulfotransferase: Discrete and Androgen-Dependent Expression in the Male Reproductive Tract and Demonstration of an in Vivo Function in the Mouse Epididymis Endocrinology, August 1, 2002; 143(8): 3144 - 3151. [Abstract] [Full Text] [PDF]

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