Author:
Fitch Roslyn Holly,Denenberg Victor H.
Abstract
Historically, studies of the role of endogenous hormones in
developmental differentiation of the sexes have suggested that
mammalian sexual differentiation is mediated primarily by testicular
androgens, and that exposure to androgens in early life leads to a
male brain as defined by neuroanatomy and behavior. The female brain
has been assumed to develop via a hormonal default mechanism, in
the absence of androgen or other hormones. Ovarian hormones have
significant effects on the development of a sexually dimorphic
cortical structure, the corpus callosum, which is larger in male than
in female rats. In the females, removal of the ovaries as late as Day
16 increases the cross-sectional area of the adult corpus callosum.
Treatment with low-dose estradiol starting on Day 25 inhibits this
effect. Female callosa are also enlarged by a combination of daily
postnatal handling and exogenous testosterone administered prior
to Day 8. The effects of androgen treatment are expressed early in
development, with males and testosterone-treated females having
larger callosa than control females as early as Day 30. The effects of
ovariectomy do not appear until after Day 55. These findings are more
consistent with other evidence of a later sensitive period for ovarian
feminization as compared to androgenic masculinization.
Publisher
Cambridge University Press (CUP)
Subject
Behavioral Neuroscience,Physiology,Neuropsychology and Physiological Psychology
Cited by
147 articles.
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