MPOA cytotoxic lesions and maternal behavior in the rat: effects of midpubertal lesions on maternal behavior and the role of ovarian hormones in maturation of MPOA control of maternal behavior

Small neurotoxin lesions in the medial preoptic area (MPOA) block maternal behavior (MB) in adults but large lesions are required to produce the same effect in juvenile rats (23-27 days of age). To study the maturation of MPOA control of MB, in Experiment I, we compared the effects of small versus large neurotoxin MPOA lesions at midpuberty (38 days of age) on MB. Midpubertal females with large MPOA lesions showed severe impairment in MB affecting retrieving, crouching, and nest building, but 85% of females with small MPOA lesions exhibited all components of MB and performed like control females without MPOA lesions. To study the role of ovarian hormones during puberty on the maturation of MPOA mediation of MB (Experiment IIA), females were ovariectomized either before or after puberty and small MPOA cytotoxic lesions were made at 53 days of age. At 60 days of age both groups showed similar deficits in MB which indicated that the maturation of the MPOA mediation of MB is not dependent on pubertal ovarian hormones. In Experiment IIB, we administered estradiol benzoate (sc) and this overcame the deficit in MB after small MPOA lesions in females that had been deprived of estrogen for shorter periods (30 days) but had not been deprived for longer periods (60 days). In addition, ovary-intact females with circulating estrogen and small lesions in the MPOA at 53 days of age did not show deficits in MB.     

Effect of preoptic region implants of dilute estradiol on the maternal behavior of ovariectomized, nulliparous rats

Estrogen implanted directly into the medial preoptic region of pregnant Charles River Sprague-Dawley rats hysterectomized and ovariectomized on Day 16 of gestation mimics the effects of systemic estrogen treatment at this time by reducing the latency to respond to foster pups with maternal behavior (Numan, Rosenblatt, and Komisaruk, 1977). The present report describes the pup-directed responses of ovariectomized, nulliparous Zivic-Miller Sprague-Dawley rats that received bilateral medial preoptic implants of either cholesterol (n = 11) or estradiol diluted 1:10 with cholesterol (n = 11). Two days after treatment these animals were housed with three foster pups: their responsivity to pups and quality of nests built were then assessed, at first hourly and then daily. Rats receiving intracranial estradiol required significantly shorter exposures to pups than did cholesterol-treated animals before initiating carrying and grouping of 3 dispersed pups in a maternal nest during a 15-min test. On other measures, however, the groups did not differ (e.g., proportion grouping pups overnight, time required to complete retrieval of pups to the nest, time required to rebuild a disrupted nest). Animals treated with cholesterol and animals with estradiol implants did not differ in uterine weight at the time of sacrifice, suggesting that estrogen did not leak, even from this well-vascularized implant site, into the circulation. Thus, as in the pregnant animal, the facilitating effects of estrogen on maternal behavior can be mediated through the medial preoptic region; however, the effects were evident only when a test requiring retrieval of several pups within an arbitrarily short interval was given.     

Progesterone inhibition of maternal behavior in the rat

The present series of experiments investigated the role of progesterone in inhibiting the onset of maternal behavior in the rat. Female rats hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with 20 μg/kg of estradiol benzoate (EB) show a short latency to onset of maternal behavior when presented with test pups 48 hr later. A subcutaneous injection of either 1 or 5 mg of progesterone on Day 16 of pregnancy and again 24 hr later inhibited this EB-induced short-latency onset of maternal behavior. The central neural site at which progesterone might act to produce this inhibitory effect was explored. Famale rats, hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with EB, received implants of crystalline progesterone on Day 16 of pregnancy into either the medial preoptic area, ventromedial hypothalamus, midbrain tegmentum, dorsal raphe nucleus, or median raphe nucleus. No inhibitory effects were found and all females showed a short-latency onset of maternal behavior. Several possible explanations for this lack of inhibitory effect of intracerebral implantation of progesterone are discussed.     

Effects of prolonged estrogen-progesterone treatment and hypophysectomy on the stimulation of short-latency maternal behavior and aggression in female rats

Two experiments were undertaken to examine the stimulation of home-cage and/or maternal aggressiveness by a hormonal treatment stimulating short-latency maternal behavior. Nonpregnant ovariectomized rats were treated with a 16-day regimen providing pregnancy levels of estrogen (E, 5-mm Silastic capsule) and progesterone (P, daily injection of 4 mg) followed by E and P withdrawal, with or without a terminal injection of estradiol benzoate (EB, 5 micrograms/kg). In Experiment 1, hormonally treated and control females were exposed continuously to pups and tested for aggression toward male intruders on the fifth day of pup exposure. Females receiving E/P/Oil and E/P/EB were highly aggressive whether or not they had yet shown maternal behavior, whereas vehicle-treated females were nonaggressive. In Experiment 2, hypophysectomized (HYPX) and Sham-HYPX females received either E/P/EB or a control treatment and were tested with male intruders (a) immediately preceding and (b) on the fifth day of continuous pup exposure. HYPX and Sham-HYPX females treated with E/P/EB were almost equally aggressive both preceding and following pup exposure (during which they initiated maternal care), whereas HYPX and Sham-HYPX vehicle-treated females were nonaggressive at both tests. In contrast, maternal behavior latencies were reduced by E/P/EB only among Sham-HYPX females. The results establish that an E/P/EB-treatment which elicits short-latency maternal responses also increases aggressiveness toward intruders. Pituitary products, although involved in the mediation of maternal responsiveness, do not contribute significantly to the stimulation of female aggressiveness by ovarian hormones.     

Early bi-parental separation or neonatal paternal deprivation in mandarin voles reduces adult offspring paternal behavior and alters serum corticosterone levels and neurochemistry

Although the effect of early social environments on maternal care in adulthood has been examined in detail, few studies have addressed the long-term effect on paternal care and its underlying neuroendocrine mechanisms. Here, using monogamous mandarin voles (Microtus mandarinus) that show high levels of paternal care, the effects of early bi-parental separation (EBPS) or neonatal paternal deprivation (NPD) on adult paternal behavior, serum corticosterone levels, and receptor mRNA expression in the nucleus accumbens (NAcc) and medial preoptic area (MPOA) were investigated. Compared to the parental care group (PC), we found that EBPS reduced crouching behavior and increased inactivity, self-grooming, and serum corticosterone levels in adult offspring; and NPD significantly reduced retrieval behavior and increased self-grooming behavior of offspring at adulthood. EBPS displayed more dopamine type I receptor (D1R) mRNA expression in the NAcc, but less oxytocin receptor (OTR) mRNA expression than PC in the MPOA. Both EBPS and NPD exhibited more mRNA expression of estrogen receptor alpha (ERα) than PC in the MPOA. In the EBPS group, increased serum corticosterone concentration was closely associated with reduced crouching behavior, and reduced expression of OTR was closely associated with altered crouching behavior and increased D1R expression. Our results provide substantial evidence that EBPS or NPD has long-term consequences and reduces paternal behavior in adult animals. Importantly the oxytocin system in the MPOA might interact with NAcc dopamine systems to regulate paternal behavior and EBPS may affect interactions between the MPOA and NAcc.     

The quality of hormonally stimulated maternal behavior in ovariectomized rats

Maternal behavior was induced in ovariectomized female rats through injections of estradiol, progesterone, and prolactin followed by continuous pup exposure. This behavior was compared with that of pup-exposed, vehicle-injected, ovariectomized females and of parturient females on a wide variety of measures. The hormone injections did not significantly reduce retrieval latency. However, the performance of hormone-injected females on other measures, especially measures of pup-directed behaviors and of nest building, was markedly superior to that of ovariectomized females and similar to that of parturient animals. These results suggest that the hormonal factors which normally facilitate rapid onset of maternal behavior may not be identical to those affecting the quality of the behavior displayed.     

Loss of calcineurin from the medial preoptic area of primiparous rats

Western blot analyses reveal that calcineurin A (CNA), which is present in the hippocampus, basolateral amygdala, parietal cortex, and MPOA of virgin males and females, is undetectable only in the MPOA of primiparous females regardless of whether they had postpartum pup contact or not. In contrast, CNB was expressed at unchanging levels in the PC and MPOA. Similarly, G(alphao) and PKA(RI) were expressed at high levels in all of the brain regions of virgin males, virgin females, and primiparous females, supporting the concept that this loss of CNA is a specific event. Understanding how and why the expression of CNA, the sole neuronal Ca2+/CaM-dependent protein phosphatase, is down-regulated specifically in the MPOA of primiparous females may yield some insight into the signal transduction events that mediate the onset of mammalian maternal behavior.     

Adrenal inhibition of maternal behavior in virgin female rats.

The role of the adrenal gland in suppressing the onset of maternal behavior in virgin female rats was investigated. Virgin female rats were either ovariectomized, adrenalectomized, or subjected to the combined operation and tested for the induction of maternal behavior by being exposed to young pups. Females that were both ovariectomized and adrenalectomized 4 weeks prior to testing exhibited significantly shorter latencies to the onset of maternal behavior than that of females subjected to either ovariectomy or adrenalectomy alone. Replacement of either estrogen or progesterone in the group that was both adrenalectomized and ovariectomized resulted in a prolongation of the average latency to become maternal. The results indicated that both estrogen and progesterone can act to inhibit the onset of maternal behavior and that the adrenal gland may act to suppress the onset of such behavior by supplying an extra-ovarian source of endogenous progesterone and estrogen.     

Hormonal factors influence the onset of maternal aggression in laboratory rats

This experiment addressed the hypothesis that aggressiveness toward conspecifics is stimulated by hormonal factors known to mediate the onset of maternal care. Subjects included both pregnant and virgin females. Sixteen-day pregnant rats were hysterectomized (H), hysterectomized-ovariectomized and injected with estrogen (HO-EB), or subjected to sham procedures. Nonpregnant females were HO-EB or sham operated. The females were sensitized by continuous exposure to pups and were judged to have initiated maternal care when all pups were retrieved and grouped, Aggressiveness was observed during 5-min intruder tests using unfamiliar males, administered (a) 10 min prior to the introduction of test pups, (b) following the first 3 hr of pup exposure, and (c) after females had initiated maternal care. The results revealed that treatments known to reduce sensitization latencies also increased aggressiveness even prior to exposure to pups. Aggressiveness was displayed before sensitization only in groups having elevated estrogen levels. After initiating maternal behavior, pregnant and pregnancy-terminated females increased further in aggressiveness whereas nonpregnant females did not. Pregnancy-terminated, HO-Oil females became aggressive (only) after initiating maternal behavior, indicating that factors other than estrogen also influence the onset of maternal aggression.     

Hormonal regulation of maternal behavior in rats: stimulation following treatment with ectopic pituitary grafts plus progesterone

Changes in hormone secretions during pregnancy help to stimulate the onset of maternal behavior at parturition. To date, studies have demonstrated that estradiol (E2) appears to be a necessary component in the hormonal induction of maternal behavior in rats and other mammals. In the present study, we have reevaluated the contribution of E2, progesterone (P), and hormone-secreting pituitary grafts in the rapid induction of maternal behavior by measuring the behavioral effects of exposure to various combinations of P and prolactin-secreting ectopic pituitary grafts in the absence of estrogen. Adult hypophysectomized and nonhypophysectomized nulliparous rats were ovariectomized 2-3 days (Treatment Day 1) after their arrival in our laboratory. In Experiment #1, experimental, hypophysectomized rats were implanted s.c. with 6 P-filled Silastic capsules and given 2 anterior pituitary (AP) glands that were grafted beneath the kidney capsule on Treatment Day 1. Controls were given blank implants and were sham-grafted. P-filled and blank Silastic capsules were removed on Day 11, and behavioral testing was conducted once-a-day beginning on Day 12 for eleven days. Animals treated with P-plus-pituitary grafts displayed full maternal behavior significantly faster than did controls (median latencies of 3.0 and 7.5 days, respectively). In Experiment #2, nonhypophysectomized rats were assigned to one of three treatments. On Treatment Day 1, one group of rats received 6 P-filled Silastic implants and had 2 AP glands grafted under their renal capsules. A second group of animals received 6 P capsules and was sham-grafted, while controls were given blank implants and were sham-grafted.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ovarian hormone-induced short-latency maternal behavior in ovariectomized virgin Long-Evans rats

Two ovarian hormone regimens reported to induce rapid-onset maternal behavior (MB) in maternally naive virgin, ovariectomized Sprague-Dawley (SD) albino rats (R. S. Bridges, 1984, Endocrinology 114, 930-940; A. L. Giordano, 1987, Doctoral Dissertation, Rutgers University, Newark, NJ) were assessed in Long-Evans (LE) hooded rats, a strain which tends to be less maternally responsive in various situations dissociated from parturition. The combination of sufficiently high and long-lasting treatments with estradiol (E, 10-mm Silastic capsule, sc, on Day 1) and progesterone (P, 3 x 30-mm Silastic capsules, Days 3-13) resulted in a mean MB onset latency (after pup presentation on Day 14) of 1.8 days. In contrast, no-hormone or P-only controls had latencies of about 5.5 days. However, the E + P combination was completely ineffective if the E capsule was withdrawn along with the P capsules, unlike the case for SD rats. Also in contrast to the albinos, E alone was ineffective, while E treatment following P withdrawal was only partially effective. The most efficacious regimen, which included a P treatment (injections of 4 mg/day, Days 3-12 or 3-15) known to maintain pregnancy in ovariectomized rats, resulted in mean latencies of less than or equal to 1 day; 39% overall displayed MB rapidly, i.e., retrieval within 15 min of exposure to pups and crouching by 3 hr, and 89% became maternal by the next day. With this regimen, neither duration of 4 mg/day P treatment (10 or 13 days) nor hysterectomy 2 days before testing affected MB latencies. Thus, the essential features of the previously reported ovarian hormone regimens for induction of short-latency MB are efficacious in LE rats, but the hormonal requirements in this strain seem to be more precise. Factors which might contribute to an even higher percentage maternal on the first day of pup exposure are considered.     

Effect of forebrain implants of testosterone or estradiol on scent-marking and sexual behavior in male and female rabbits

Chinning consists of rubbing the chin against an object, thereby depositing secretions from the submandibular glands. As mating, chinning is stimulated in male and female rabbits by testosterone and estradiol, respectively. To investigate the brain sites where steroids act to stimulate chinning and mating we implanted into the ventromedial hypothalamus (VMH) or the medial preoptic area (MPOA) of gonadectomized male and female rabbits testosterone propionate (TP; males) or estradiol benzoate (EB; females) and quantified chinning and sexual behavior. EB implants into the VMH or MPOA reliably stimulated chinning in females. Most of those implanted into the VMH and around half of the ones receiving EB into MPOA or diagonal band of Broca (DBB) showed lordosis. Chinning, but not sexual behavior, was stimulated in males by TP implants into the MPOA or DBB. Neither chinning nor mounting were reliably displayed by males following TP implants into the VMH. Results indicate that, in females, the VMH is an estrogen-sensitive brain area that stimulates both chinning and lordosis while the MPOA seems to contain subpopulations of neurons involved in either behavior. In males, androgen-sensitive neurons of the MPOA, but not the VMH, are involved in chinning stimulation but it is unclear if these areas also participate in the regulation of copulatory behavior.     

Effect of forebrain implants of testosterone or estradiol on scent-marking and sexual behavior in male and female rabbits

Chinning consists of rubbing the chin against an object, thereby depositing secretions from the submandibular glands. As mating, chinning is stimulated in male and female rabbits by testosterone and estradiol, respectively. To investigate the brain sites where steroids act to stimulate chinning and mating we implanted into the ventromedial hypothalamus (VMH) or the medial preoptic area (MPOA) of gonadectomized male and female rabbits testosterone propionate (TP; males) or estradiol benzoate (EB; females) and quantified chinning and sexual behavior. EB implants into the VMH or MPOA reliably stimulated chinning in females. Most of those implanted into the VMH and around half of the ones receiving EB into MPOA or diagonal band of Broca (DBB) showed lordosis. Chinning, but not sexual behavior, was stimulated in males by TP implants into the MPOA or DBB. Neither chinning nor mounting were reliably displayed by males following TP implants into the VMH. Results indicate that, in females, the VMH is an estrogen-sensitive brain area that stimulates both chinning and lordosis while the MPOA seems to contain subpopulations of neurons involved in either behavior. In males, androgen-sensitive neurons of the MPOA, but not the VMH, are involved in chinning stimulation but it is unclear if these areas also participate in the regulation of copulatory behavior.     

Antagonism of V1b receptors promotes maternal motivation to retrieve pups in the MPOA and impairs pup-directed behavior during maternal defense in the mpBNST of lactating rats

Recent studies using V1b receptor (V1bR) knockout mice or central pharmacological manipulations in lactating rats highlighted the influence of this receptor for maternal behavior. However, its role in specific brain sites known to be important for maternal behavior has not been investigated to date. In the present study, we reveal that V1bR mRNA (qPCR) and protein levels (Western blot) within either the medial preoptic area (MPOA) or the medial-posterior part of the bed nucleus of the stria terminalis (mpBNST) did not differ between virgin and lactating rats. Furthermore, we characterized the effects of V1bR blockade via bilateral injections of the receptor subtype-specific antagonist SSR149415 within the MPOA or the mpBNST on maternal behavior (maternal care under non-stress and stress conditions, maternal motivation to retrieve pups in a novel environment, maternal aggression) and anxiety-related behavior in lactating rats. Blocking V1bR within the MPOA increased pup retrieval, whereas within the mpBNST it decreased pup-directed behavior, specifically licking/grooming the pups, during the maternal defense test. In addition, immediately after termination of the maternal defense test, V1bR antagonism in both brain regions reduced nursing, particularly arched back nursing. Anxiety-related behavior was not affected by V1bR antagonism in either brain region. In conclusion our data indicate that V1bR antagonism significantly modulates different aspects of maternal behavior in a brain region-dependent manner.     

Neuroendocrinology of maternal behavior in the rabbit

Rabbit maternal behavior consists of building an underground nest of straw and body hair during late pregnancy and displaying, with circadian periodicity, a single 3-min nursing bout/day across lactation. Estrogen, androgen, progesterone, and prolactin regulate specific aspects of nest-building and promote the onset of maternal responsiveness. However, the maintenance of this behavior relies on stimuli from the litter: by preventing mother/young contact at parturition or during early lactation maternal responsiveness is altered or abolished. The brain areas controlling the expression of nest-building and nursing were investigated by implanting estradiol, locating the distribution of estrogen and prolactin receptors, quantifying the expression of immediate-early genes, and lesioning structures of the olfactory system. These studies revealed that: (a) estrogen receptor-alpha, alpha, present in the preoptic region, may mediate the stimulation of nest-building by estradiol; (b) prolactin binding sites, located mainly in periventricular structures, are more abundant in late pregnancy and early lactation; (c) the number of FOS-immunoreactive neurons increases in the lateral septum, but not in the mediobasal hypothalamus, following nursing; (d) the accessory olfactory bulb tonically inhibits the expression of maternal behavior because its removal promotes maternal responsiveness in virgins, which are otherwise unresponsive to daily pup exposure. In summary, rabbits rely on the same hormonal and extrahormonal factors that stimulate maternal behavior in other mammals, yet the way in which such factors promote elaborate nest-building and the unfailing display of circadian nursing is unique to rabbits and warrants future investigation.     

Oxytocin receptors in the nucleus accumbens shell are involved in the consolidation of maternal memory in postpartum rats

Female rats with maternal experience display a shorter onset of maternal responsiveness compared to those with no prior experience. This phenomenon called ‘maternal memory’ is critically dependent on the nucleus accumbens (NA) shell. We hypothesized that activation of OT receptors in the NA shell facilitates maternal memory. In Experiment 1, postpartum female rats given 1 hour of maternal experience were infused following the experience with either a high or low dose of an OT antagonist into the NA shell and tested for maternal behavior after a 10-day pup isolation period. Females receiving a high dose of the antagonist showed a significantly longer latency to exhibit full maternal behavior after the pup isolation period compared to females that received vehicle or a high dose of antagonist in a control region. In Experiment 2, postpartum female rats were infused with either a high or low dose of OT into the NA shell after a 15-minute maternal experience and tested for maternal behavior after a 10-day pup isolation period. There were no significant differences between the females infused with OT and females treated with a vehicle infused into the NA shell or with OT infused into the control region. One possible reason for a lack of facilitation is a floor effect, since females in the control groups displayed a rapid maternal response after the pup isolation period. These findings suggest that OT receptors, likely in combination with other neurotransmitters, in the NA shell play a role in the consolidation of maternal memory.     

Reproductive success,postpartum maternal behavior,and masculine sexual behavior of neonatally androgenized female hamsters

Sex differences in maternal behavior induced by pup stimulation (sensitization) have been reported for rats and hamsters and may be affected by the presence or absence of perinatal androgen treatment. Postpartum maternal behavior and litter survival in golden hamsters treated with testosterone propionate (TP) as neonates were studied. A high dose of TP (300 μg) eliminated feminine reproductive capacity when given on Day 2 or 4 postpartum and had no discernible effect on Day 12. Treatment on Days 6, 8, or 10 resulted in treatment day-dependent deficiencies in reproductive success which fell short of sterility in most females. These deficiencies included low birth weight, weight gain, and higher litter losses than controls. However, the maternal behavior of TP dams, as measured by retrieval and crouching, appeared to be normal. The disparity between delivery and successful rearing of normal-weight young may include uterine incompetence, lactation deficiency, and hypercannibalism. Behavioral masculinization was a more sensitive index of neonatal androgen action than any aspect of defeminization, but the two phenomena were dissociated in individuals.     

Effects of intracranial implants of dihydrotestosterone on the reproductive physiology and behavior of male guinea pigs

An experiment was conducted to determine whether the intracranial application of dihydrotestosterone (DHT), a nonaromatizable androgen, would stimulate male guinea pig mating. Of three castrate groups studied, one was a control group in which subjects were implanted both in the medial preoptic area (MPOA) and under the skin with cannulae containing cholesterol (NoDHT). Males in one of the experimental groups received implants of cholesterol in the MPOA plus subcutaneous implants containing DHT (ScDHT). Members of the other experimental group were subcutaneously implanted with cholesterol and simultaneously given intracranial implants of DHT (IcDHT). Compared to either the NoDHT control group of the ScDHT experimental group, greater numbers of males in the IcDHT group displayed mounts (P less than 0.01), intromissions (P less than 0.01), and ejaculations (P less than 0.001). Additionally, the hypothalamic implants of DHT had no significant effects on peripheral target tissues. These data indicate that androgenic stimulation of the guinea pig brain is sufficient to activate masculine sexual behavior in this species.