The aromatase knock-out mouse provides new evidence that estradiol is required during development in the female for the expression of sociosexual behaviors in adulthood
Bakker, Julie; Honda, S. I.; Harada, N.et al.
2002 • In Journal of Neuroscience, 22 (20), p. 9104-9112
aromatase; olfaction; sex; behavior; preference; development
Abstract :
[en] We used estrogen-deficient aromatase knock-out (ArKO) mice to determine whether estrogens contribute to the development of the brain and behavior in females. Female mice of three different genotypes [i.e., wild type (WT), heterozygous (HET), and homozygous (ArKO)] were ovariectomized in adulthood and subsequently tested for odor preferences (choice: intact male vs estrous female) in a Y-maze. When treated with testosterone, ArKO females spent significantly less time sniffing odors (both volatile and nonvolatile) from either male or female stimuli compared with WT and HET females. When given direct access to anesthetized stimulus animals or when given a choice between odor and visual cues from both stimulus animals, ArKO females continued to spend less time investigating the stimuli compared with WT and HET females. These defects in olfactory investigation of ArKO females were partially corrected with estradiol treatment in adulthood. Estradiol-treated ArKO females no longer differed from WT and HET females in the time spent investigating either nonvolatile odors or the anogenital region of anesthetized animals. However, ArKO females still investigated volatile odors and/or visual cues less than WT and HET females. Sexual receptivity was severely impaired in ArKO females after treatments with estradiol and progesterone that successfully induced receptivity in WT and HET females. Furthermore, ArKO females showed diminished levels of male sexual behaviors, whereas WT and HET females readily mounted an estrous female. Together, these findings demonstrate that estrogen is required for normal female development. The concept that the female brain develops in the absence of any hormonal stimulation should therefore be reconsidered.
Disciplines :
Neurosciences & behavior
Author, co-author :
Bakker, Julie ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Biologie de la différenciation sexuelle du cerveau
Honda, S. I.
Harada, N.
Balthazart, Jacques ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Biologie de la différenciation sexuelle du cerveau
Language :
English
Title :
The aromatase knock-out mouse provides new evidence that estradiol is required during development in the female for the expression of sociosexual behaviors in adulthood
Publication date :
15 October 2002
Journal title :
Journal of Neuroscience
ISSN :
0270-6474
eISSN :
1529-2401
Publisher :
Soc Neuroscience, Washington, United States - Washington
Baillien M, Bakker J, Honda S, Harada N, Balthazart J (2002) Aromatase activity in the brain of wild-type and ArKO mice. Soc Neurosci Abstr 28:383.4.
Bakker J, van Ophemert J, Slob AK (1993) Organization of partner preference and sexual behavior and its nocturnal rhythmicity in male rats. Behav Neurosci 107:1049-1058.
Bakker J, van Ophemert J, Slob AK (1996) Sexual differentiation of odor and partner preference in the rat. Physiol Behav 60:489-494.
Bakker J, Honda S, Harada N, Balthazart J (2002) Sexual partner preference requires a functional aromatase (Cyp19) gene in male mice. Horm Behav, in press,
Baum MJ (1979) Differentiation of coital behavior in mammals: A comparative analysis. Neurosci Biobehav Rev 3:265-284.
Brown RE (1979) Mammalian social odors: A critical review. Adv Study Behav 10:103-162.
Döhler KD, Hancke JL, Srivastava SS, Hofmann C, Shryne JE, Gorski RA (1984) Participation of estrogens in female sexual differentiation of the brain: Neuroanatomical, neuroendocrine, and behavioral evidence. In: Progress in Brain Research, Vol 61, Sex Differences in the Brain (de Vries GJ, de Bruin JPC, Uylings HBM, Corner MA, eds), pp 99-117. Amsterdam: Elsevier.
Fadem BH, Barfield RJ (1981) Neonatal hormonal influences on the development of proceptive and receptive feminine sexual behavior in rats. Horm Behav 15:282-288.
Feder HH, Whalen RE (1965) Feminine behavior in neonatally castrated and estrogen-treated male rats. Science 147:306-307.
Fisher CR, Graves KH, Parlow AF, Simpson ER (1998) Characterization of mice deficient in aromatase (ArKO) because of targeted disruption of the Cyp19 gene. Proc Natl Acad Sci USA 95:6965-6970.
Fitch RH, Denenberg VH (1998) A role for ovarian hormones in sexual differentiation of the brain. Behav Brain Sci 21:311-327.
Grady KL, Phoenix CH, Young WC (1965) Role of the developing rat testis in differentiation of the neural tissues mediating mating behavior. J Comp Physiol Psychol 59:176-182.
Honda S, Harada N, Ito S, Takagi Y, Maeda S (1998) Disruption of sexual behavior in male aromatase-deficient mice lacking exons 1 and 2 of the Cyp19 gene. Biochem Biophys Res Commun 252:445-449.
Jost A (1985) Sexual organogenesis. In: Handbook of Behavioral Neurobiology, Vol 7, Reproduction (Adler N, Pfaff D, Goy RW, eds), pp 3-19. New York: Plenum.
Mack CM, Fitch RH, Cowell PE, Schrott LM, Denenberg VH (1993) Ovarian estrogen acts to feminize the female rat's corpus callosum. Brain Res Dev Brain Res 71:115-119.
MacLusky NJ, Naftolin F (1981) Sexual differentiation of the central nervous system. Science 211:1294-1302.
McEwen BS, Lieberburg I, Chaptal C, Krey LC (1977) Aromatization: Important for sexual differentiation of the neonatal rat brain. Horm Behav 9:249-263.
Meredith M, O'Connell RJ (1979) Efferent control of stimulus access to the hamster vomeronasal organ. J Physiol (Lond) 286:301-316.
Naftolin F, Ryan KJ, Davies IJ, Reddy VV, Flores F, Petro Z, Kuhn M, White RJ, Takoaka Y, Wolin L (1975) The formation of estrogens by central neuroendocrine tissues. Recent Prog Horm Res 31:295-315.
O'Connell RJ, Meredith M (1984) Effects of volatile and nonvolatile chemical signals on male sex behaviors mediated by the main and accessory olfactory systems. Behav Neurosci 98:1083-1093.
Olsen KL (1992) Genetic influences on sexual behavior differentiation. In: Handbook of Behavioral Neurobiology, Vol 11, Sexual Differentiation (Gerall AA, Moltz H, Ward IL, eds), pp 1-40. New York: Plenum.
Petrulis A, Johnston RE (1999) Lesions centered on the medial amygdala impair scent-marking and sex-odor recognition but spare discrimination of individual odors in female golden hamsters. Behav Neurosci 113:345-357.
Phoenix CH, Goy RW, Gerall AA, Young WC (1959) Organizing actions of prenatally administered testosterone propionate on the tissues mediating behavior in the female guinea pig. Endocrinology 65:369-382.
Smith ER, Damassa DA, Davidson JM (1977) Hormone administration: Peripheral and intracranial implants. Methods Psychobiol 3:259-279.
Toran-Allerand CD (1976) Sex steroids and the development of the newborn mouse hypothalamus and preoptic area in vitro: Implications for sexual differentiation. Brain Res 106:407-412.
Vreeburg JTM, van der Vaart PDM, van der Schoot P (1979) Prevention of central defeminization but not masculinization in male rats by inhibition neonatally of oestrogen biosynthesis. J Endocrinol 74:375-382.
Weniger JP (1993) Estrogen production by fetal rat gonads. J Steroid Biochem Mol Biol 44:459-462.
Weniger JP, Zeis A, Chouraqui J (1993) Estrogen production by fetal and infantile rat ovaries. Reprod Nutr Dev 33:129-136.
Wersinger SR, Haisenleder DJ, Lubahn DB, Rissman EF (1999) Steroid feedback on gonadotropin release and pituitary gonadotropin subunit mRNA in mice lacking a functional estrogen receptor α. Endocrine 11:137-143.
Whitten PL, Lewis C, Russell E, Naftolin F (1995) Potential adverse effects of phytoestrogens. J Nutr 125:771S-776S.
