Effects of ergocornine and prolactin on aggression in the postpartum golden hamster

The effects on aggressive behavior of prolactin (PRL) and ergocornine hydrogen maleate, an inhibitor of PRL secretion, were investigated in the female golden hamster. Because high aggression and PRL levels are associated with lactation in hamsters, postpartum females were used as subjects. In the first experiment, three groups of ovariectomized and hysterectomized females were compared: normally lactating, ergocornine-treated, and ergocornine plus replacement PRL treated. Normally lactating mothers were typically aggressive towards males in an arena, whereas females given ergocornine were not. Females given both ergocornine and PRL showed an intermediate level of aggression. Although ergocornine suppressed aggression towards adult males, attacks on pups increased. A second experiment sought to determine if ergocornine would depress aggression when PRL involvement was unlikely. At least 30 days following pup removal, females from the first experiment were “trained” to attack home-cage intruders consistently. After ergocornine administration, home-cage attacks by these experienced females were not diminished. Since PRL levels were probably low in these animals, it was concluded that the effects of ergocornine on aggression were limited to instances in which PRL was involved, and that PRL probably can facilitate aggression.     

Studies of anterior pituitary-grafted rats: I. Abnormal prolactin response to thyrotropin releasing hormone,clonidine, insulin,and fasting

Although the rat implanted with extra anterior pituitary glands (AP) under the kidney capsule has been widely used as a model of chronic hyperprolactinemia, its hormonal status has not been fully characterized. Using conscious, unrestrained female pituitary-grafted rats and sham-operated littermates, we investigated prolactin (PRL) secretion in response to the following stimuli: thyrotropin releasing hormone (TRH), clonidine, insulin, and fasting. The AP-implanted rats had a greater and more sustained rise in serum PRL after TRH than control rats, reflecting a direct effect of TRH on the ectopic lactotropes. In contrast after clonidine, which acts via the hypothalamus, the serum PRL rose to much higher levels in sham-operated rats than in rats bearing ectopic pituitary tissue. Both insulin-induced hypoglycemia and fasting decreased serum PRL in control rats, but the AP-implanted animals manifested a rise in serum PRL in response to these stimuli. Thus, the AP-implanted rat is not only a valid model of excess and abnormal PRL secretion, but it may also be useful for distinguishing between stimuli requiring an intact hypothalamic-pituitary unit and agents which act directly on the pituitary gland.     

Seasonally Dependent Effect of Ectopic Pituitary Grafts on 24-Hour Rhythms in Serum Prolactin and Gonadotropins in Rats

To assess to what extent the presence of an ectopic pituitary differentially affected circulating prolactin (PRL) and gonadotropin levels at different times of the year, rats kept under 12h light, 12h dark (12:12 LD) photoperi-ods and receiving a pituitary graft or a sham operation in summer or winter were examined 3 months later. In both male and female sham-operated rats, a circadian variation in serum PRL levels was found, with an acrophase varying from 21:53h to 00:54h and the mesor and amplitude higher in spring than autumn in males and higher in autumn than in spring in females. After grafting a pituitary, changes in serum PRL related to time of day were no longer observed. In pituitary-grafted male rats killed during spring, serum PRL levels were higher than controls at only a few time points throughout the 24h cycle, whereas in rats killed during autumn, there were no significant differences in PRL levels between grafted and control rats. Pituitary-grafted female rats killed during spring showed serum PRL levels significantly higher than those of sham-operated rats, while in female rats killed in autumn, PRL levels of pituitary-grafted and sham-operated rats did not differ. Significant variations of luteinizing hormone (LH) related to time of day were found in sham-operated male rats only, with acrophases at 23:52h and 00:24h for spring and autumn, respectively, and the mesor and amplitude of the rhythm significantly higher in autumn. Pituitary transplants suppressed 24h variations in circulating LH and depressed its levels during the two seasons examined. As far as follicle-stimulating hormone (FSH), pituitary grafts decreased circulating levels, with the extent of decrease higher during autumn than in spring. The results indicate that some endocrine consequences of the grafting of an ectopic pituitary are dependent on time of year.     

Seasonally Dependent Effect of Ectopic Pituitary Grafts on 24-Hour Rhythms in Serum Prolactin and Gonadotropins in Rats

To assess to what extent the presence of an ectopic pituitary differentially affected circulating prolactin (PRL) and gonadotropin levels at different times of the year, rats kept under 12h light, 12h dark (12:12 LD) photoperi-ods and receiving a pituitary graft or a sham operation in summer or winter were examined 3 months later. In both male and female sham-operated rats, a circadian variation in serum PRL levels was found, with an acrophase varying from 21:53h to 00:54h and the mesor and amplitude higher in spring than autumn in males and higher in autumn than in spring in females. After grafting a pituitary, changes in serum PRL related to time of day were no longer observed. In pituitary-grafted male rats killed during spring, serum PRL levels were higher than controls at only a few time points throughout the 24h cycle, whereas in rats killed during autumn, there were no significant differences in PRL levels between grafted and control rats. Pituitary-grafted female rats killed during spring showed serum PRL levels significantly higher than those of sham-operated rats, while in female rats killed in autumn, PRL levels of pituitary-grafted and sham-operated rats did not differ. Significant variations of luteinizing hormone (LH) related to time of day were found in sham-operated male rats only, with acrophases at 23:52h and 00:24h for spring and autumn, respectively, and the mesor and amplitude of the rhythm significantly higher in autumn. Pituitary transplants suppressed 24h variations in circulating LH and depressed its levels during the two seasons examined. As far as follicle-stimulating hormone (FSH), pituitary grafts decreased circulating levels, with the extent of decrease higher during autumn than in spring. The results indicate that some endocrine consequences of the grafting of an ectopic pituitary are dependent on time of year.     

Catecholaminergic control of plasma growth hormone and thyrotropin levels in hypophysectomized rats bearing ectopic pituitary transplants

Transplantation of the anterior pituitary to an ectopic site leads to stimulation of PRL secretion and suppression of the release of other adenohypophyseal hormones. We have previously reported that precursors and blockers of catecholamine synthesis can affect PRL release from the ectopic pituitary. In the present study we have measured the effects of L-3,4-dihydroxyphenylalanine (DOPA), DL-threo-dihydroxyphenylserine (DOPS), alpha-methyl-para-tyrosine (alpha-mpt) and diethyldithiocarbamate (ddc) on plasma growth hormone (GH) and thyrotropin (TSH) levels in hypophysectomized rats with pituitary transplants under the renal capsule. In these animals, peripheral plasma GH levels were elevated by a precursor (DOPA) and reduced by a blocker (alpha-mpt) of catecholamine synthesis. Plasma TSH levels were increased by a precursor (DOPS) and reduced by a blocker (ddc) of norepinephrine synthesis. We suspect that GH and TSH present in the circulation of pituitary-grafted animals were derived, in part, from the ectopic pituitary tissue and suggest that the small but detectable secretion of hormones other than PRL in this animal model is under the control of endogenous catecholamines.     

Direct effect of estradiol on the number of dopaminergic receptors in the anterior pituitary, in ovariectomized rats

The effect of estradiol on anterior pituitary dopaminergic receptor content was studied in vivo and in vitro, in relation with the serum PRL secretion. A progressive and significant decrease in the number of these receptors was observed, a few hours before the serum release of PRL induced in ovariectomized females by a sequential treatment with different doses of estradiol benzoate. This decrease in the number of dopaminergic membrane receptors can be obtained as well in vitro, when anterior pituitaries, from ovariectomized rats, are incubated with 17 beta-estradiol. These results suggest that the stimulatory effect of estradiol on PRL secretion may be due, at least in part, to the direct "desensitization" to DA of anterior pituitary cells, which is produced by the decrease of dopaminergic receptor level.     

Increased serum prolactin levels mediate the suppressive effects of ectopic pituitary grafts on copulatory behavior in male rats

To determine if deficits in sexual activity observed in pituitary-grafted male rats are due to elevated serum prolactin (PRL) levels found in these animals, the effects of whole pituitary grafts, pars distalis grafts, and ovine (o) PRL treatment on male copulatory behavior were compared. Adult sexually experienced CDF male rats were given four whole pituitary grafts, four pars distalis grafts, or were sham operated. Both groups of grafted animals exhibited suppressed copulatory behavior patterns when tested 18 days after pituitary transplantation. Animals given whole pituitary grafts had significantly longer latencies to mount (P less than 0.05) and to intromit (P less than 0.01) than did the sham-operated controls, while the animals given anterior pituitary grafts differed from the sham-operated controls in latencies to mount (P less than 0.05) and to intromit (P less than 0.01), as well as in the number of intromissions (P less than 0.05). Prolactin-injected animals had significantly reduced intromission rates (P less than 0.01) and significantly increased latencies to mount (P less than 0.05) and to intromit (P less than 0.01) when compared to vehicle-injected controls. Furthermore, the time course of behavioral suppression was similar in oPRL-treated animals to that observed in pars distalis-grafted males, with both groups showing the onset of deficits in sexual activity within 8 to 9 days from the induction of the hyperprolactinemic state. The similarity in pattern and time to onset of behavioral suppression in pituitary-grafted and oPRL-treated animals suggests that behavioral deficits observed in animals with pituitary grafts result from chronic elevation of serum PRL levels.     

Studies of anterior pituitary-grafted rats: II. Normal growth hormone secretion

Of the various animal models used to study chronic hyperprolactinemia, the otherwise intact rat implanted with extra anterior pituitary glands (AP) under the kidney capsule is assumed to be normal except for excess circulating prolactin (PRL). Since the ectopic glands contain numerous somatotropes in addition to abundant and active lactotropes, it was important to assess growth hormone (GH) secretion as well in this model of hyperprolactinemia. The structural and functional similarities of PRL and GH are such that it is necessary to demonstrate that metabolic abnormalities noted in AP-implanted rats are due to hyperprolactinemia and not to altered GH secretion. AP-implanted female rats have significantly higher resting serum PRL concentrations when compared to sham-operated control rats, but baseline serum GH levels are similar in normal and pituitary-grafted rats. Suppression of GH by insulin and clonidine is comparable in AP-implanted and control rats. The intrasellar pituitary GH concentration is also similar (ca. 20 μg/mg wet weight) in hyperprolactinemic and normal rats. We conclude that GH secretion is normal in the non-hypophysectomized AP-implanted rat, in contrast to the hypophysectomized AP-implanted rat model which has been reported to have diminished GH secretion. Despite the presence of recognizable somatotropes, the ectopic anterior pituitary does not appear to secrete significant amounts of GH, making the intact rat bearing multiple pituitary grafts an excellent model of chronic hyperprolactinemia.     

Differential hormonal control of aggression and sexual behavior in female Syrian hamsters

These experiments were designed to test the effects of chronic estradiol treatment on aggression and sexual behavior in female hamsters. Isolated female hamsters were ovariectomized and tested for their behavioral responses to a group-housed, ovariectomized female hamster (aggression test) and a group-housed, intact male hamster (sexual behavior test). Following these baseline tests, the experimental females were implanted sc with Silastic capsules containing different concentrations of estradiol (100, 25, 10, or 0%) diluted with cholesterol and retested 3, 7, 10, and 14 days after implantation. High levels of aggression were observed on the baseline test, with no changes in aggression toward an intruder female observed for any implant group on subsequent tests. Despite these high levels of aggression toward another female, most of the estradiol-treated females (80% at 14 days) were sexually responsive in the presence of a male. There was no effect of Silastic estradiol concentration on sexual behavior, even though a range of serum estradiol levels (39–105 pg/ml) resulted. Lordosis latencies decreased and lordosis durations increased over the extent of estradiol treatment. Seventeen days after Silastic implantation, all females were injected with progesterone and retested. Estradiol-treated females showed an extreme reduction in aggression toward a stimulus female, as well as a further stimulation of sexual behavior after progesterone treatment. High levels of aggression in cholesterol-treated females (0% estradiol) were maintained even after progesterone injection, and these females never displayed any sexual responsivity. These results suggest that sexual behavior in the female hamster is sensitive to estradiol alone, whereas the inhibition of aggression requires the combination of estradiol plus progesterone.     

Depressed prolactin cell activity in long-term blind-pinealectomized female hamsters is due to loss of estrous cyclicity

Pinealectomy in the female golden Syrian hamster is not always completely effective in preventing the suppressive effects of long-term light deprivation due to blinding on pituitary prolactin (PRL) cell activity. We examined this curious phenomenon by measuring pituitary PRL mRNA levels, PRL synthesis, and radioimmunoassayable PRL, and correlating these changes with the status of estrous cyclicity. As expected, 12 weeks of light deprivation resulted in loss of estrous cyclicity and a greater than 90% decline in all indices of pituitary PRL cell activity, compared with intact cycling controls. Pinealectomy prevented only 40-50% of this decline. However, if noncycling light-deprived pinealectomized animals were excluded, pinealectomy was completely effective, i.e., cycling intact control animals were no different than cycling blind-pinealectomized. We conclude that the inability of pinealectomy to completely prevent the decline in prolactin cell activity seen after blinding is due to the loss of estrous cyclicity in some blind-pinealectomized females, with the attendant loss of the prolactin-stimulating hormone estrogen.     

Effects of prepubertal ovariectomy on the development of scent glands, scent marking, and aggressive behaviors of female tamarin monkeys (Saguinus fuscicollis)

The effects of prepubertal ovariectomy on scent gland development, scent marking behavior, and on social interactions with strange adult conspecifics were studied in adult females cohabiting with intact males. Eight females were ovariectomized and eight underwent control surgery at 6 months of age. All were returned to their families after surgery and allowed to reach sexual maturity. At 18 months of age, each female was permanently paired with an adult, intact male. When the subjects were 21 months old, the social interactions of all pairs with strange adults were tested in a situation analogous to a territorial encounter. The scent marking activities of the subjects and their mates were studied during “territorial encounters,” in trial-free control situations, and in the presence of novel objects. Ovariectomy prior to puberty retarded the development of the scent gland but did not inhibit it completely. Social interactions with strange conspecifics were also affected. Ovariectomized females showed fewer threat displays than did control females, but there was no significant difference in the amount of injurious aggression both female groups directed at the strangers. Under all testing conditions, ovariectomized females tended to scent mark less frequently with the circumgenital-suprapubic gland than did controls. This difference was statistically significant only under some of the testing conditions. Intact females scent marked more frequently than their males but ovariectomized females did so only under trial-free testing conditions. The sternal scent gland was used very infrequently by all subjects and there was no difference in marking activity between males and females or between ovariectomized and control females.     

Hormonal regulation of aggression toward juveniles in female house mice

Adult female house mice that had been living in groups inflicted more wounds upon juvenile opponents than did females that had been housed in isolation. Ovariectomy blocked this enhancement of aggression by grouping. Aggression in ovariectomized females was augmented by treatment with testosterone propionate, but not by treatment with estradiol benzoate or progesterone. Preputial gland size was greater in group-housed females than in isolates; this difference was abolished by ovariectomy. Testosterone proprionate, but not estradiol benzoate or progesterone stimulated preputial gland growth in ovariectomized mice. These results are interpreted as supporting the hypothesis that the groupinginduced enhancement of juvenile-directed aggression in female mice is mediated by an increased secretion of ovarian androgens.     

Effects of gonadal steroids on agonistic behavior of female Peromyscus leucopus

The role of gonadal hormones in modifying agonistic behavior of female P. leucopus was examined by means of ovariectomy and treatment with estradiol benzoate (EB), progesterone (P), or testosterone propionate (TP). Aggression was lower in diestrous females than in proestrous females, and was eliminated by ovariectomy. Submissive behavior increased following ovariectomy; surgery had no effect on investigative behavior. Administration of EB had no effect on aggressive or submissive behavior, but higher dosages caused an increase in investigative and sexual behavior. Higher dosages of P increased aggression; P had no effect on submissive or investigative behavior. An increase in aggression also resulted from administration of high levels of TP. TP also caused an increase in investigative behavior, and had no effect on submissive behavior. These results may be due to direct effects of the administered hormones on behavior or to indirect effects such as a stimulation of prolactin secretion or alteration of adrenal function.     

Prolactin secretion after hypothalamic deafferentation in beef calves: response to haloperidol, alpha-methyl-rho-tyrosine, thyrotropin-releasing hormone and ovariectomy

In ruminant species photoperiod regulates prolactin (PRL) secretion. It is hypothesized that the inhibition of PRL secretion resides in dopaminergic neurons of the medial basal hypothalamus (MBH). To test this hypothesis, anterior (AHD), posterior (PHD) and complete (CHD) hypothalamic deafferentation and sham operation control (SOC) surgeries were carried out during May (long-day photoperiod) in beef heifer calves (6-8 mo old) to measure basal PRL secretion and PRL secretion as affected by intravenous secretagogues. On the day of surgery (day 0), PRL secretion reflected stress of anesthesia and surgery in all groups. Thyrotropin-releasing hormone (TRH), alpha-methyl-rho-tyrosine (alphaMrhoT), and haloperidol (HAL) was iv injected on days 11, 13 and 15, respectively. AHD, PHD, CHD, and SOC calves responded to TRH (100 microg) with an acute increase in PRL that peaked within 20 min. All heifers responded to alphaMrhoT (10 mg/kg BW) with an acute elevation in PRL within 10 min and remaining elevated for 3 h. HAL (0.1 mg/kg BW) induced an acute increase in PRL secretion in all groups, peaking within 15-30 min. Seven months later (December, short-day photoperiod) these heifers were ovariectomized. Basal plasma PRL levels were seasonally low, PRL secretion in AHD, PHD and CHD animals abruptly increased within 15 min to iv injection of 100 microg TRH to a greater amount than seen in SOC heifers. Although a biphasic effect on PRL secretion entrains under long-day and short-day photoperiods, hypothalamic deafferentation in cattle did not affect the pituitary gland's responsiveness to secretagogues.     

Dopamine inhibition of prolactin release but not synthesis in the male Syrian hamster: in vitro studies

The hypothalamic mechanisms controlling prolactin (PRL) cell function in the male Syrian hamster are unclear. Equally unclear is the role of dopamine (DA) in regulating lactotrophic cell activity in long photoperiod-exposed hamsters particularly with respect to PRL synthesis and release. The synthesis of PRL, as measured by the incorporation of 3H-leucine into newly synthesized PRL, by anterior pituitary glands from male hamsters is linear over a five h incubation period. Approximately two-fold more 3H-PRL remained in the pituitary glands than in the medium by the end of the incubation period. The incubation of hamster hemipituitaries with DA at concentrations of either 5 X 10(-7) M or 5 X 10(-5) M, resulted in a 77% to 83% inhibition of the release of immunoreactive PRL into the medium as compared with controls. Similarly, the release of 3H-PRL into the medium was inhibited by 71% to 76% as compared with controls; however, the synthesis of PRL was virtually the same among the experimental and control groups. These results suggest that DA may be an important regulator of short-term PRL release but not synthesis in the long photoperiod-exposed male hamster.     

Responses of pituitary and adrenal medulla to insulin-induced hypoglycemia in patients with anorexia nervosa

The responses of pituitary and adrenomedullary hormones to insulin-induced hypoglycemia were studied in 10 patients with anorexia nervosa and 7 control females of comparable age. The increases in plasma GH and PRL were significantly smaller in the patients, while the responses of GH to arginine and of PRL to TRH were indistinguishable. Plasma cortisol attained similar peak levels in both groups with higher basal levels and smaller increments in the patients. The response of plasma epinephrine was markedly lower in the patients, although urinary epinephrine showed similar increase in both groups. These results suggest the possibility that the process by which hypoglycemic stimulus causes pituitary and adrenomedullary hormone secretion is deranged in patients with anorexia nervosa.     

Involvement of the neurointermediate lobe of the pituitary gland in the secretion of prolactin and luteinizing hormone in the rat

The relationship between prolactin (PRL) secretion and the neurointermediate lobe (NIL) of the pituitary gland was investigated. Plasma PRL concentrations in rats bearing anterior pituitaries autografted with or without the NIL to the renal capsule were elevated to equal extents at 1 through 6 weeks after surgery (p > 0.10). PRL levels in ovariectomized rats in which the NIL had been removed surgically (NIL-X) or only visualized (NIL-C) were 3–7 ng/ml 4, 7, and 28 days after surgery (p > 0.10); however, they were slightly higher in NIL-X $\text{vs.}$ NIL-C rats 14 days after surgery (p < 0.05). Plasma luteinizing hormone (LH) concentrations in NIL-C rats increased by 36% from 2 to 4 weeks after surgery (p < 0.05); this increase was not detected in NIL-X rats. PRL and LH surges were induced by estradiol implants in ovariectomized NIL-X and NIL-C rats; the profiles of the PRL surges were superimposable, although the magnitude of the LH surge was only 50% that in NIL-C rats (p < 0.05). These results cast doubt on the importance of the NIL in the regulation of PRL secretion either $\text{via}$ secreting hypophysiotropic hormones or $\text{via}$ conducting anterior pituitary hormones directly to the median eminence. However, the NIL may have a physiologically important role in the regulation of LH secretion.     

Sibling rivalry: training effects, emergence of dominance and incomplete control

Within-brood or -litter dominance provides fitness-related benefits if dominant siblings selfishly skew access to food provided by parents in their favour. Models of facultative siblicide assume that dominants exert complete control over their subordinate sibling's access to food and that control is maintained, irrespective of the subordinate's hunger level. By contrast, a recent functional hypothesis suggests that subordinates should contest access to food when the cost of not doing so is high. Here, we show that within spotted hyena (Crocuta crocuta) twin litters, dominants most effectively skew access to maternal milk in their favour when their aggression prompts a highly submissive response. When hungry, subordinates were less submissive in response to aggression, thereby decreasing lost suckling time and increasing suckling time lost by dominants. In a species where adult females socially dominate adult males, juvenile females were more often dominant than males in mixed-sex litters, and subordinate sisters used more effective counter-tactics against dominant brothers than subordinate brothers against dominant sisters. Our results provide, to our knowledge, the first evidence in a mammal that dominant offspring in twin litters do not exert complete control over their sibling's access to resources (milk), and that sibling dominance relationships are influenced by sibling sex and training effects.     

Measurement of peptide secretion and gene expression in the same cell

A combined reverse hemolytic plaque-in situ hybridization assay was developed to allow analysis of the relationship between peptide secretion and gene expression within individual cells. We used the pituitary lactotroph as a model system, but this strategy should be widely applicable. It can be used to test hypotheses regarding if and when peptide secretion and gene expression are coupled in any system in which antibodies to the secreted peptide and probes complementary to the mRNA are available. Using the mRNA hybridization signal to identify certain cell types, this method may also be useful in further studies on the biochemical mechanism of peptide secretion. In addition, questions regarding whether a cell known to secrete a given peptide contains other specific mRNAs and the relationship between these mRNAs and the secretion of the peptide can be studied using this strategy. We found striking heterogeneity among lactotrophs in both gene expression and PRL secretion and a lack of correlation of these parameters within individual lactotrophs under every treatment examined. We also present the first direct visualization and quantitation of the percentage of nonsecreting PRL mRNA-containing cells after estradiol treatment and in the presence or absence of the PRL secretagogue, TRH. Finally, we found that in ovariectomized rats, nonsecreting lactotrophs exhibited significantly higher levels of PRL mRNA than lactotrophs that were actively secreting PRL during the assay.     

Differential involvement of protein kinase C in basal versus acetylcholine-regulated prolactin secretion in rat anterior pituitary cells during aging

Although it is well known that plasma concentration of prolactin (PRL) increases during aging in rats, how the anterior pituitary (AP) aging per se affects PRL secretion remains obscure. The objectives of this study were to determine if changes in the pituitary PRL responsiveness to acetylcholine (ACh; a paracrine factor in the AP), as compared with that to other PRL stimulators or inhibitors, contribute to the known age-related increase in PRL secretion, and if protein kinase C (PKC) is involved. We also determined if replenishment with aging-declined hormones such as estrogen/thyroid hormone influences the aging-caused effects on pituitary PRL responses. AP cells were prepared from old (23-24-month-old) as well as young (2-3-month-old) ovariectomized rats. Cells were pretreated for 5 days with diluent or 17beta-estradiol (E(2); 0.6 nM) in combination with or without triiodothyronine (T(3); 10 nM). Then, cells were incubated for 20 min with thyrotropin-releasing hormone (TRH; 100 nM), angiotensin II (AII; 0.2-20 nM), vasoactive intestinal peptide (VIP; 10(-9)-10(-5) M), dopamine (DA; 10(-9)-10(-5) M), or ACh (10(-7)-10(-3) M). Cells were also challenged with ACh, TRH, or phorbol 12-myristate 13-acetate (PMA; 10(-6) M) following PKC depletion by prolonged PMA (10(-6) M for 24 h) pretreatment. We found that estrogen priming of AP cells could reverse the aging-caused effects on pituitary PRL responses to AII and DA. In hormone-replenished cells aging enhanced the stimulation of PRL secretion by TRH and PMA, but not by AII and VIP. Aging also reduced the responsiveness of cells to ACh and DA in suppressing basal PRL secretion, and attenuated ACh inhibition of TRH-induced PRL secretion. Furthermore, ACh suppressed TRH-induced PRL secretion mainly via the PMA-sensitive PKC in the old AP cells, but via additional mechanisms in young AP cells. On the contrary, basal PRL secretion was PKC (PMA-sensitive)-independent in the old AP cells, but dependent in the young AP cells. Taken together, these results suggest differential roles of PMA-sensitive PKC in regulating basal and ACh-regulated PRL responses in old versus young AP cells. The persistent aging-induced differences in AP cell responsiveness to ACh, DA, TRH, and PMA following hormone (E(2)/T(3)) replenishment suggest an intrinsic pituitary change that may contribute, in part, to the elevated in vivo PRL secretion observed in aged rats.