Sexual Dimorphism and the NMDA Receptor in Alloparental Behavior in Juvenile Prairie Voles (Microtus ochrogaster).

The present report demonstrates the existence of a marked sexual difference in the volume of an intensely staining cellular component of the medial preoptic nucleus (MPON) of the rat. Moreover, this sexual dimorphism is shown to be independent of several specific hormonal conditions in the adult, but significantly influenced, perhaps determined, by the perinatal hormone environment. Adult rats were gonadectomized and sacrificed 2 or 5-6 weeks later, or sacrificed after gonadectomy and priming with estradiol benzoate (2 microgram/day x 3) and 500 microgram progesterone, or testosterone propionate (TP, 500 microgram/day x 14), or the ingestion of propylthiouracil (0.15% of the diet) for one month, or following water deprivation for 24 h. These treatments did not affect the sexual dimorphism in the MPON and, in all groups, nuclear volume in the male animals was significantly greater than that of females whether nuclear volume was expressed in absolute terms or relative to brain weight. On the other hand, the volume of the MPON of the adult male castrated neonatally was significantly reduced when compared to that of the male castrated at the time of weaning, i.e. after the period of sexual differentiation of the brain. Consistent with the view that this nuclear region undergoes sexual differentiation is the fact that the volume of the MPON was significantly greater in female rats injected with 1 mg TP on day 4 of life than in oil-treated females. More subtle sex differences in the volume of the suprachiasmatic nucleus were also detected, as were several treatment effects. Although these differences may fall within the error of the analytical procedure, it is possible that hormone- or sex-dependent morphological differences exist elsewhere in the brain. Nevertheless, the gross sexual dimorphism in the MPON clearly demonstrates a possible morphological basis for the sexual differentiation of brain function.

The compound MK-801 [(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d] cyclohepten-5,10-imine maleate)] is a potent anticonvulsant that is active after oral administration and whose mechanism of action is unknown. We have detected high-affinity (Kd = 37.2 +/- 2.7 nM) binding sites for [3H]MK-801 in rat brain membranes. These sites are heat-labile, stereoselective, and regionally specific, with the hippocampus showing the highest density of sites, followed by cerebral cortex, corpus striatum, and medulla-pons. There was no detectable binding in the cerebellum. MK-801 binding sites exhibited a novel pharmacological profile, since none of the major neurotransmitter candidates were active at these sites. The only compounds that were able to compete for [3H]MK-801 binding sites were substances known to block the responses of excitatory amino acids mediated by the N-methyl-D-aspartate (N-Me-D-Asp) receptor subtype. These comprised the dissociative anesthetics phencyclidine and ketamine and the sigma-type opioid N-allylnormetazocine (SKF 10,047). Neurophysiological studies in vitro, using a rat cortical-slice preparation, demonstrated a potent, selective, and noncompetitive antagonistic action of MK-801 on depolarizing responses to N-Me-D-Asp but not to kainate or quisqualate. The potencies of phencyclidine, ketamine, SKF 10,047, and the enantiomers of MK-801 as N-Me-D-Asp antagonists correlated closely (r = 0.99) with their potencies as inhibitors of [3H]MK-801 binding. This suggests that the MK-801 binding sites are associated with N-Me-D-Asp receptors and provides an explanation for the mechanism of action of MK-801 as an anticonvulsant.

Prairie voles (Microtus ochrogaster) are monogamous rodents that form pair bonds characterized by a preference for a familiar social partner. In male prairie voles, exposure to either the stress of swimming or exogenous injections of corticosterone facilitate the development of a social preference for a female with which the male was paired after injection or swimming. Conversely, adrenalectomy inhibits partner preference formation in males and the behavioral effects of adrenalectomy are reversed by corticosterone replacement. In female prairie voles, swim stress interferes with the development of social preferences and corticosterone treatments inhibit the formation of partner preferences, while adrenalectomized females form preferences more quickly than adrenally intact controls. Because sex differences in both behavior and physiology are typically reduced in monogamous species, we initially predicted that male and female prairie voles would exhibit similar behavioral responses to corticosterone. However, our findings suggest an unanticipated sexual dimorphism in the physiological processes modulating social preferences. This dimorphic involvement of stress hormones in pair bonding provides a proximate mechanism for regulating social organization, while permitting males and females to adapt their reproductive strategies in response to environmental challenges.