Wendy Portillo scite author profile

The dichotomous anxiogenic and anxiolytic properties of estrogens have been reported to be mediated by two distinct neural estrogen receptors (ER), ERα and ERβ, respectively. Using a combination of pharmacological and genetic approaches, we confirmed that the anxiolytic actions of estradiol are mediated by ERβ and extended and these observations to demonstrate the neuroanatomical targets involved in ERβ activation in these behavioral responses. We examined the effects of the biologically active S-enantiomer of diarylpropionitrile (S-DPN) on anxiety-related behavioral measures, the corresponding stress hormonal response to hypothalamo-pituitary-adrenal axis reactivity, and potential sites of neuronal activation in mutant female mice carrying a null mutation for ERβ gene (βERKO). S-DPN administration significantly reduced anxiety-like behaviors in the open field, light-dark exploration, and the elevated plus maze (EPM) in ovariectomized wild-type (WT) mice, but not in their βERKO littermates. Stress-induced corticosterone (CORT) and ACTH were also attenuated by S-DPN in the WT mice but not in the βERKO mice. Using c-fos induction after elevated plus maze, as a marker of stress-induced neuronal activation, we identified the anterodorsal medial amygdala and bed nucleus of the stria terminalis as the neuronal targets of S-DPN action. Both areas showed elevated c-fos mRNA expression with S-DPN treatment in the WT but not βERKO females. These studies provide compelling evidence for anxiolytic effects mediated by ERβ, and its neuroanatomical targets, that send or receive projections to/from the paraventricular nucleus, providing potential indirect mode of action for the control of hypothalamo-pituitary-adrenal axis function and behaviors.

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Sexual incentive motivation, olfactory preference, and activation of the vomeronasal projection pathway by sexually relevant cues in non-copulating and naive male rats

Portillo

Paredes

2004

Hormones and Behavior

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Comparative Analysis of Immunoreactive Cells for Androgen Receptors and Oestrogen Receptor α in Copulating and Non‐Copulating Male Rats

Portillo

Díaz

Antonio-Cabrera

et al. 2006

J Neuroendocrinology

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In some species, including gerbils, guinea pigs, mice, rams and rats, some apparently normal males fail to mate. These kinds of animals have been named 'noncopulating (NC)'. The cause of this behavioural deficit is unknown. The present study aimed to determine whether NC male rats have alterations in the amount of androgen (AR) and oestrogen receptor alpha (ERalpha) in a neuronal circuit important for the control of male sexual behaviour; the vomeronasal projection pathway. We evaluated the number of AR and ERalpha immunoreactive (AR-IR and ERalpha-IR) cells in the accessory olfactory bulb (AOB), the bed nucleus of the stria terminalis (BNST), the anterior-dorsal medial amygdala (MeAD), the posterior dorsal amygdala (MePD) and the medial preoptic area (MPOA). The results demonstrate that the number of AR-IR cells in NC males was significantly higher compared to copulating (C) males in the MePD, but no significant differences were found in any of the other structures analysed. ERalpha-IR cells were more abundant in NC than in C males in the MeAD and the MePD. However, in the MPOA the number of ERalpha-IR cells was significantly reduced in NC males. No significant differences were found in the AOB or in the BNST. A similar pattern of results was observed when regions within these structures that are activated by Fos expression, on mating or exposure to sexually relevant cues were analysed. The differences in the number of AR and ER in particular brain areas could be associated with alterations in sexual behaviour as well as partner and olfactory preference for receptive females seen in NC male rats.

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Activation of progestin receptors in female reproductive behavior: Interactions with neurotransmitters

Mani

Portillo

2010

Frontiers in Neuroendocrinology

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The steroid hormone, progesterone (P), modulates neuroendocrine functions in the central nervous system resulting in alterations in physiology and reproductive behavior in female mammals. A wide body of evidence indicates that these neural effects of P are predominantly mediated via their intracellular progestin receptors (PRs) functioning as "ligand-dependent" transcription factors in the steroid-sensitive neurons regulating genes and genomic networks. In addition to P, intracellular PRs can be activated by neurotransmitters, growth factors and cyclic nucleotides in a ligand-independent manner via crosstalk and convergence of pathways. Furthermore, recent studies indicate that rapid signaling events associated with membrane PRs and/or extra-nuclear, cytoplasmic PRs converge with classical PR activated pathways in neuroendocrine regulation of female reproductive behavior. The molecular mechanisms, by which multiple signaling pathways converge on PRs to modulate PR-dependent female reproductive behavior, are discussed in this review.

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Repeated paced mating promotes the arrival of more newborn neurons in the main and accessory olfactory bulbs of adult female rats

et al. 2013

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Wendy Portillo

Anxiolytic Effects and Neuroanatomical Targets of Estrogen Receptor-β (ERβ) Activation by a Selective ERβ Agonist in Female Mice

Sexual incentive motivation, olfactory preference, and activation of the vomeronasal projection pathway by sexually relevant cues in non-copulating and naive male rats

Comparative Analysis of Immunoreactive Cells for Androgen Receptors and Oestrogen Receptor α in Copulating and Non‐Copulating Male Rats

Activation of progestin receptors in female reproductive behavior: Interactions with neurotransmitters

Repeated paced mating promotes the arrival of more newborn neurons in the main and accessory olfactory bulbs of adult female rats

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