Effects of chronic bromocriptine treatment of an estrone-induced, prolactin-secreting rat pituitary adenoma

Bromocriptine (BROM), a dopamine (DA) agonist, is commonly and successfully used for long-term treatment of human prolactinomas. We have studied the effects of chronic BROM administration to female 344 Fisher/Lis rats bearing an estrone-induced, prolactin (PRL)-secreting pituitary tumor recently characterized as a model for human prolactinoma. The animals were injected twice daily with BROM (2.5 mg/kg) or with diluent. After 1 month of treatment, the animals were sacrificed, and plasma collected and stored at -20 degrees C for PRL radioimmunoassay. The pituitary tumors were removed and tumoral mammotrophs dispersed enzymatically for studies of DA receptor binding and PRL release in vitro. BROM treatment significantly reduced tumor weight, cell size, rough endoplasmic reticulum, Golgi complexes and plasma PRL levels. [3H]-spiroperidol binding to tumoral mammotrophs was also evaluated. BROM induced a significant decrease in the number of DA binding sites without any changes in affinity. These results indicate that chronic BROM treatment of an animal model of prolactinoma induces tumor involution, reduction of PRL release and probably synthesis, and down regulation of dopaminergic binding sites.     

A comparison of the effects of suckling or transient dopamine antagonism on thyrotropin-releasing hormone and suckling induced prolactin release in lactating rats

Prolactin (PRL) release was studied in mid-lactational female rats by comparing the stimulatory influence of suckling to a drug protocol that mimics the effect of suckling on the anterior pituitary (AP). Animals that nursed pups for 15 minutes and were allowed to suckle again 60 minutes later for 10 minutes, released PRL effectively during both nursing episodes; however, in animals that received the dopamine (DA) agonist 2-Br-alpha-ergocryptine maleate (CB-154, 0.5 mg/rat i.v.) at the end of the first nursing period did not show an increase in plasma PRL to a second suckling stimulation by the pups. When thyrotropin releasing hormone (TRH) was substituted for the second suckling period in CB-154 treated rats, a slight increase in plasma PRL occurred 5 minutes after the injection. In a third study we transiently blocked the action of DA at the AP by injecting the DA antagonist domperidone (0.01 mg/rat i.v.), followed 5 minutes later by the administration of CB-154. One hour later animals were either allowed to suckle pups for 10 minutes or were injected with TRH. Treatment with TRH resulted in an 11 fold increase in plasma PRL but suckling was completely ineffective in inducing PRL release. These data suggest that the lack of PRL release to suckling in CB-154 treated rats was due to inhibitory effects of CB-154 on neural mechanisms which link nursing to PRL release. In addition, the data show that pharmacologic DA antagonism affects TRH releasable PRL more than does suckling. This may be due to a reduction, by suckling, of the pool of PRL that is available to be released by TRH administration.     

Differential effects of bromocriptine treatment on LH release and copulatory behavior in hyperprolactinemic male rats

Hyperprolactinemia (hyperPRL) induced by grafting four pituitary glands under the kidney capsule suppresses copulatory behavior in male rats and sexually naive male mice. In mice sexual experience attenuates the suppressive effects of hyperPRL on mating behavior, thus a comparison of the behavioral consequences of inducing hyperPRL in sexually naive and experienced male rats was undertaken. Hyperprolactinemia had a significant suppressive effect on mating behavior in both groups of animals. Experienced animals showed deficits in all parameters studied except mount frequency and postejaculatory interval, while naive animals differed from respective controls only in mount latency, intromission latency, and intromission frequency. To determine if the inhibition of chronically elevated prolactin (PRL) levels would reverse the suppression of gonadotropin secretion and copulatory behavior in hyperprolactinemic animals, the effects of bromocriptine (CB-154) administration on plasma hormone levels and mating behavior were examined in pituitary-grafted and control rats. Bromocriptine treatment (1 mg/day for 14 days) led to increases in sexual activity in both the sham-operated and grafted animals. In the grafted animals, plasma PRL was reduced and plasma LH significantly increased in the CB-154-treated animals when compared to oil-treated controls. In sham-operated animals, CB-154 produced no significant changes in plasma LH or FSH despite the suppressed PRL levels. These results indicate that (1) hyperPRL induced by pituitary grafts can cause deficits in mating behavior in male rats despite previous sexual experience, and (2) while CB-154 may be acting through other mechanisms to stimulate copulatory behavior, the reduction of chronically elevated PRL levels due to CB-154 treatment is responsible for reversal of the suppressive effects of hyperPRL on LH secretion.     

Guanine nucleotide regulation of dopamine receptor agonist affinity states in rat estradiol-induced pituitary tumors

We have investigated dopamine (DA) receptor agonist high- and low-affinity states in female rat estradiol-induced prolactin (PRL)-secreting pituitary tumors and intact pituitary tissue. Estradiol treatment increased the anterior pituitary weight 9-fold and plasma prolactin levels 74-fold and these measures are correlated (R = 0.745, n = 73, p less than 0.001). Competition for [3H]-spiperone binding to the DA receptor by apomorphine was compared in normal and adenomatous pituitary tissue. The inhibition constants (Ki) and the proportions of the two apomorphine sites are unchanged in tumors compared to intact pituitary tissue. Guanosine 5'-[beta-gamma-imino]triphosphate (Gpp(NH)p) causes complete conversion of the high into low affinity dopaminergic agonist site in normal pituitary and in tumors. These results suggest that rats with primary estradiol-induced pituitary tumors have normal and functional DA receptors.     

Presence of high affinity dopamine receptors in estrone-induced, prolactin-secreting rat pituitary adenomas: a model for human prolactinomas

Adenomatous cells obtained from a pituitary tumor induced in Fisher 344/Lis rats by the subcutaneous implantation of estrone (E1) were found to secrete large amounts of prolactin (PRL). The secretion of PRL was stimulated by thyrotropin-releasing hormone (TRH) and low concentrations of dopamine (DA), while micromolar concentrations of DA were inhibitory. High affinity binding sites for 3H-spiroperidol (3H-SPIR) were found to be present on the cells and to conform to the criteria of dopaminergic receptors. An adenylate cyclase (AC) present in the cells could be activated by a guanyl nucleotide and was inhibited by DA in the presence of guanosine 5'-triphosphate (GTP). Fractionation of the adenomatous cells by Percoll gradients identified two groups of cells capable of secreting PRL and bearing 3H-SPIR binding sites. These data indicate that this rat pituitary adenoma may be a model for human prolactinomas that might be utilized for the study of the mechanism of action of dopaminergic drugs.     

The effect of transient dopamine antagonism on thyrotropin-releasing hormone-induced prolactin release in female rats during the estrous cycle

Prolactin (PRL) release induced by TRH was examined on each day of the estrous cycle in female rats in which pituitary dopamine (DA) receptors were blocked pharmacologically. The objective was to determine if an interaction exists between hypothalamic inhibitory and releasing hormones with regard to prolactin (PRL) secretion. Domperidone (0.01 mg/rat i.v.) followed 5 minutes later by the administration of the DA agonist 2-Br-alpha-ergocryptine maleate (CB-154, 0.5 mg/rat i.v.) were used to produce a transient (less than 1 hr) dopamine blockade. One hour later, thyrotropin-releasing hormone (TRH, 1.0 microgram/rat i.v.) was given to stimulate PRL release. On the morning of proestrus, TRH released a significantly greater quantity of PRL into the plasma after DA antagonism compared to control animals which did not receive the dopamine antagonist. Dopamine antagonism also enhanced the effectiveness of TRH on the mornings of estrus and metestrus. The response on estrus was significantly greater than the response on proestrus. However by the morning of diestrus, TRH-"releasable" PRL was greatly diminished. Our results suggest that DA antagonism is able to shift differing quantities of PRL into a TRH "releasable" pool on several days of the estrous cycle and that the control of this mechanism is acute.     

Receptors and neurohormones in human pituitary adenomas

In order to go further into the pathogenesis of human pituitary adenomas, we studied receptors for neurohormones (thyroliberin, TRH; dopamine, DA; somatostatin, SRIH), for estradiol and epidermal growth factor (EGF) thought to influence hormone secretion and/or cell growth. The following results were obtained: (1) the receptors listed above, with the exception of EGF receptors in the adenomas, are present in normal pituitary tissue and in prolactin (PRL)- and growth hormone (GH)-secreting adenomas; (2) they are functional and their affinities are not different in normal or tumoral tissues; (3) their density is variable and depends on the type of secreting adenoma (GH or PRL), the size of the tumor and the plasma level of the hormone which is secreted, and (4) in nonsecreting adenomas, only TRH receptors are found with characteristics identical to those observed in secreting adenomas. We also showed that TRH is contained in normal and tumoral pituitary tissues. TRH and SRIH are released in vitro from adenomatous cells in large amounts, suggesting their possible synthesis by the pituitary. In both cases a local regulation is observed. TRH release is stimulated in the presence of DA while SRIH is inhibited in the presence of TRH. This neuropeptide release may be implicated in the pituitary hormone regulation through a paracrine or an autocrine mechanism. Thus, the neurohormone receptors found in pituitary adenomas should be dependent on a more complex regulation than it has been envisaged till now.     

Effect of experimentally induced hyperprolactinemia on growth hormone secretion

In order to study the existence of possible interrelation-ships between prolactin (PRL) and growth hormone (GH) secretions, adult male rats bearing an anterior pituitary graft under the kidney capsule since day 90 of life and their sham-operated controls were submitted to a single i.p. administration of L-dopa (50 mg/kg weight) or saline 30 days after the operation. Plasma PRL and GH levels were measured by using specific RIA methods. Dopamine (DA) and norepinephrine (NE) contents in the hypothalamus and in the in situ anterior pituitary gland were measured by using a specific radioenzymatic assay. An increase in plasma PRL levels and a decrease in plasma GH levels were shown in grafted rats. Hypothalamic contents of DA and NE were increased in these animals, while the anterior pituitary content of DA was not modified as compared to controls. The administration of a single injection of L-dopa led to decreases of plasma PRL and GH levels in both grafted and control rats, but while marked increases in hypothalamic and anterior pituitary contents of DA were shown in both groups, the hypothalamic content of NE was only increased in control animals. These data suggest that PRL and GH secretions were closely related. Dopamine could be mediating the action of PRL on GH, while NE would be less involved.     

Immunohistochemical localization of prolactin in functioning and regressing corpus luteum of pituitary autotransplanted rats

In an attempt to shed light on the intimate mechanism by which prolactin (PRL) switches from supporting corpus luteum (CL) progesterone secretion (P) to promote structural regression of the CL, day 2 (metestrous) autopituitary transplanted (APTr) rats were used. In APTr rats the CL is under the only control of PRL since an almost complete absence of LH and FSH exist. The experimental group was given bromocriptine (CB-154: 0.4 mg/day) on days 12, 13 and 14 of the cycle and 0.25 ml of ethanol from day 15 to day 21. The control group was given CB-154 from day 12 to day 21. Rats were hemiovariectomized on day 12 to assess the morphological characteristics of the active CL. PRL and P were determined by RIA on days 12, 15 and 22. On day 12, both PRL and P levels were higher than 80 ng/ml (luteotrophic action of PRL). On day 15, due to treatment with CB-154, the levels of both hormones had fallen below 7 ng/ml (functional luteolysis). On day 22, PRL levels were again high (greater than 50 ng/ml) in the shortly CB-154-treated rats and low (less than 5 ng/ml) in the controls; the P levels were lower than 5 ng/ml in both groups. PRL-induced structural luteolysis in the experimental group (hyperprolactinemic) was assessed by the structural characteristics and by the CL weight loss on day 22 in comparison with that exhibited by control rats. The immunohistochemical staining of both endogenous and total PRL in the lutein cells showed that the internalization of PRL is not modified by the functional state of the CL, nevertheless the intracellular redistribution of the internalized hormone varied in relation with the PRL action on the CL (luteotrophic, day 12 vs luteolytic, day 22). These results seem to indicate that intracellular mechanisms rather than receptor content determine CL response to PRL.     

Role of prolactin and luteinizing hormone in regulating timing of implantation in the spotted skunk

The western spotted skunk exhibits an obligate delay of implantation lasting 200-220 days. The pituitary is essential for luteal activation. The corpora lutea, in turn, secrete the hormones necessary for blastocyst implantation. Two experiments were designed to determine which pituitary hormones are responsible for increasing luteal activity and induction of implantation. Forty-two pregnant skunks with delayed implanting blastocysts were treated as follows: 13 served as untreated controls, 6 received 0.5 mg prolactin (PRL) daily, and 5 received diluent beginning in January. Four received 1.5 mg bromocriptine (CB-154) daily, 3 received both CB-154 and PRL, 3 received diluent, 5 received a gonadotropin-releasing hormone agonist (GnRHa) dispensed from osmotic minipumps, and 3 received diluent dispensed from osmotic minipumps starting in April. The skunks were subjected to a natural photoperiod. Duration of preimplantation and blood levels of progesterone and luteinizing hormone were measured. PRL significantly (p less than 0.05) shortened and CB-154 significantly (p less than 0.05) prolonged the duration of preimplantation when compared to controls (148 +/- 33.6 vs. 251 +/- 3.2 vs. 199 +/- 5.1 days, respectively). PRL was able to reverse the inhibitory effect of CB-154 when both were administered simultaneously (195 +/- 4.0 vs. 251 +/- 3.2 days). GnRHa had no significant (p greater than 0.05) effect on duration of preimplantation (199 +/- 5.1 days) when compared to controls (203 +/- 3.2 days). These results indicate that PRL is the primary pituitary hormone responsible for increased luteal activity and subsequent blastocyst implantation in the spotted skunk.     

Use of DES-treated rats as an animal model for assessment of pituitary adenoma imaging agents

Prolactin (PRL) secreting pituitary adenomas are the most common type of pituitary tumors. An imaging agent which specifically localized in prolactinomas would be of considerable clinical value for both initial detection and also for monitoring the effects of dopamine agonist therapy. Tritiated spiroperidol (³HSp) was selected for initial evaluation as a possible imaging agent based on: (1) demonstrated localization in the pituitary and (2) demonstrated binding to human PRL-secreting tumor tissue. DES was implanted in Fischer F344 rats and induced prolactinoma formation was evidenced by increased pituitary weight, elevated serum PRL levels and by an increase in the proportion of PRL-secreting cells in the pituitary. ³HSp concentrations in pituitary and other tissues of DES-treated rats were assessed in female rats and correlation studies showed that a 5-fold increase in serum PRL was associated with a 6-fold increase in both pituitary weight and % dose/organ accumulation of ³HSp. The number of pituitary D₂ receptors per mg of protein in tissue homogenates was similar in both normal and DES-treated females. A blocking study with (+)-butaclamol demonstrated a D₂ receptor-mediated component to ³HSp localization. In summary, an animal model for prolactinoma was characterized. An assessment of ³HSp accumulation indicates that radiolabelled spiroperidol shows excellent potential for detecting PRL-secreting tumors of the pituitary.     

2-bromo-alpha-ergocryptine mesylate (CB-154) inhibits prolactin and luteinizing hormone secretion in the prepubertal female rat

Treatment of immature female rats with 100 micrograms 2-bromo-alpha-ergocryptine mesylate (CB-154) per ml drinking water beginning on Day 30 of age until vaginal opening delayed puberty by 6 days. Rats treated with CB-154 exhibited vaginal opening at 43.3 +/- 0.6 days whereas controls exhibited vaginal opening at 37.9 +/- 0.8 days. Most interestingly, serum levels of luteinizing hormone (LH) and prolactin (PRL) on Days 31-35, determined by a homologous radioimmunoassay were significantly lower in treated rats than in controls. The ovarian concentrations of progesterone (P) and androstenedione (A) were lower in rats treated with CB-154 than in controls; ovarian estradiol (E2) concentrations were low in both groups. Serum levels of P (but not A and E2) were reduced on Days 31-35 of the treatment period. Cessation of the CB-154 treatment on the morning of Day 35 returned the onset of puberty to normal values; steroid and gonadotropin levels also returned to normal values within 2 days after removal of the CB-154 from the drinking water. Near the time of onset of puberty, serum levels of LH in rats treated with CB-154 returned to control values. These data indicate that in the female rat the delay in puberty induced by CB-154 might be due to a reduction in the secretion of LH, especially since the onset of delayed puberty in rats treated with CB-154 correlates with an increase in the serum level of LH. Further studies are needed to elucidate the specific effects of hypoprolactinemia on ovarian function and the onset of puberty in the rat.     

A comparison of the effects of anti-psychotic drugs on pituitary, striatal and limbic system post-synaptic dopamine receptors.

Dopamine (DA) antagonists promote the secretion of prolactin (PRL) from the anterior pituitary gland by blocking the effects of DA at receptors in the pituitary itself. Thus, comparison of the properties of these receptors with DA receptors in the striatal, meso-limbic and meso-cortical regions is of interest. Evidence is presented that clozapine, RMI-81, 582 (a morphanthridine derivative), trebenzomine (CI-686, a chromanamine derivative) and sultopride (a benzamide) have much weaker effects on human and rat PRL secretion than would be predicted by their anti-psychotic potency. The reverse is true of two other benzamides, sulpiride and metoclopramide. Classical neuroleptics of the phenothiazine, butyrophenone and thioxanthene types appear to affect rat and human PRL secretion in a manner which is mainly but not entirely consistent with their known effects on striatal and meso-limbic/meso-cortical postsynaptic DA receptors. Preliminary studies indicate presynaptic receptors which affect prolactin secretion are not present in rats. Supersensitivity may develop in the tubero-infundibular (TI) system after chronic neuroleptic treatment but altered sensitivity of these receptors was not found in schizophrenics given apomorphine.     

Effects of CB-154 (2-Br-alpha-ergocryptine) on prolactin and growth hormone release in an acromegalic patient with galactorrhea.

An acromegalic patient with galactorrhea was treated with an ergot alkaloid, 2-Br-alpha-ergocryptine (CB-154). Serum prolactin decreased rapidly to normal level by CB-154 and the complete cessation of galactorrhea was noted. The inhibitory effect of CB-154 On growth hormone (GH) release was also noted, but slight. The mechanism of inhibitory action of CB-154 on both prolactin and GH secretion was discussed in connection with the experimental model of pituitary tumors, in which both hormones were produced by a single type of tumor cells. The discontinuation of CB-154 treatment was associated with the return of both prolactin and GH levels to the initial high values with resumption of galactorrhea.     

The lack of a physiologic effect of the stress-induced decrease of the proestrous prolactin surge in the rat

Experiments were performed to determine whether the restraint stress-induced decrease in the proestrous prolactin (PRL) surge blocked luteolysis of the corpora lutea (CL), affected ovulation, or prevented the induction of pregnancy/pseudopregnancy in the next cycle. In all experiments rats were either stressed on proestrus and estrus, administered daily sc injections of 1 mg/day of 2-Br-alpha-ergocryptine (CB-154) for 4 days starting on diestrus II or not treated. In one experiment animals were sampled on the afternoon of proestrus to determine the effect of restraint stress on plasma PRL values and sacrificed on the morning of proestrus in the next cycle. Ovaries were removed, weighed, fixed and examined for number of CL. Restraint stress resulted in a significant increase in ovarian weight when compared to controls; CB-154 resulted in significant increases in ovarian weight when compared to stress and control animals. However, only CB-154-treated animals had a significant increase in the number of CL when compared to controls. In another experiment, animals were sacrificed on estrus of the next cycle and the oviducts examined for the number of ova. There were no differences among groups. In the final experiment, animals were placed with males of proven fertility on proestrus of the next cycle and examined for evidence of sperm in the vaginal lavage and/or vaginal plugs. CB-154 prevented the induction of pregnancy or pseudopregnancy due to a carry over effect of the drug on PRL surges. Restraint stress had no significant effect on the induction of pregnancy or pseudopregnancy. We conclude that there is no physiological significance to the stress-induced decrease of the proestrous PRL surge with respect to ovarian function or fertility.     

Estrogen stimulates both prolactin and growth hormone mRNAs expression in the MtT/F4 transplantable pituitary tumor

The effects of 17 beta-estradiol (E2) on MtT/F4 pituitary tumor growth and on prolactin (PRL) and growth hormone mRNA expression were analyzed in F344 female rats. E2 (10 mg) stimulated pituitary PRL cell hyperplasia and PRL mRNA, but inhibited growth of the transplantable tumors. The expression of both PRL and growth hormone mRNA levels was increased in the MtT/F4 tumors. The effects of E2 on increasing PRL mRNA levels were more marked in the pituitary compared with the tumors. These results indicate that estrogens stimulate proliferation and PRL expression in the pituitary while inhibiting cell proliferation in the MtT/F4 tumor. E2 also stimulated both growth hormone and PRL mRNA expression in the MtT/F4 transplantable tumor.     

Inhibition of pituitary bioactive prolactin secretion in the male rat by the glucocorticoid agonist decadron phosphate.

In the present studies, the soluble glucocorticoid agonist, decadron phosphate (DEC), was administered i.v. to intact adult male rats in order to evaluate the effects of glucocorticoid receptor stimulation on circulating levels of immunoreactive (ir-) and bioactive (bio-) prolactin (PRL). In light of reports that glucocorticoid-specific receptors exist within the rat brain, additional experiments investigated the effects of intracerebroventricular (i.c.v.) administration of graded doses of the same drug on pituitary ir- and bioPRL secretion. Concentrations of ir- and bioPRL in samples obtained before and after drug treatments were determined by standard PRL radioimmunoassay and the Nb2 rat node lymphoma bioassay, respectively. Rats injected i.v. with 0.5 mg DEC/kg body weight, but not those treated with a tenfold lesser dose, exhibited decreased plasma irPRL concentrations. However, both doses promoted a decline in circulating levels of bioPRL compared to vehicle-treated controls, along with an overall reduction in the plasma bio/irPRL ratio. The magnitude and duration of this drug-induced decline in biopotency of secreted hormone was dose-dependent. While the plasma bio/irPRL ratio was diminished only transiently in rats injected with 0.05 mg DEC/kg, treatment with the higher dose led to a sustained decrease in the plasma bio/irPRL ratio for the duration of the experiment. The current studies also show that intracerebral administration of DEC resulted in dose-dependent alterations in pituitary PRL release. Circulating levels of ir- and bioPRL were not altered in rats injected i.c.v. with 10 ng of DEC, the lowest dose tested.(ABSTRACT TRUNCATED AT 250 WORDS)     

Depletion and release of prolactin from rat pituitaries and pituitary tumors in vitro

Depletion of pituitary prolactin (PRL) and PRL release into culture medium were simultaneously examined over a 3.5- to 4.0-hr incubation period from anterior pituitary fragments obtained from Fischer-344 or Wistar-Furth female rats treated with estrogen for 5 days, in pituitary tumors induced by 8 weeks of diethylstilbestrol (DES) treatment in Fischer-344 rats and in MtTW15 pituitary tumors transplanted subcutaneously in Wistar-Furth rats for 4 weeks. Our objective was to determine if the event known as transformation, which we define as a loss in the tissue PRL content without a corresponding and equivalent increase in the medium PRL content, occurs in rat pituitary tumors. Our results indicated that transformation did not occur in vitro in rat anterior pituitary tumors induced in Fischer-344 rats by DES treatment but was present in pituitaries from Fischer-344 rats treated for 5 days with estrogen, which served as controls. We also observed in vitro transformation in the anterior pituitary of Wistar-Furth rats treated with estrogen for 5 days (controls) and in the pituitaries of Wistar-Furth rats inoculated with the MtTW15 tumor for 4 weeks, but not in the MtTW15 tumor itself. Although transformation was present in both Fischer-344 and Wistar-Furth rats treated acutely with estrogen the timing of the transformation was delayed 1-2 hr in the Fischer-344 rats compared with Wistar-Furth females. We concluded that transformation does not precede release of prolactin in rat pituitary tumors and that in normal pituitaries the mechanisms of transformation are induced differently between the strains of rats examined.     

Beta-endorphin concentrations in pituitary and brain areas of animals bearing pituitary hormone secreting tumors

Beta-endorphin-like immunoreactivity was measured in the pituitary and brain areas of rats and mice bearing tumors which secrete different pituitary hormones. The DCCXLIIId tumor secretes both luteinizing hormone and follicle stimulating hormone, and the AtT20 tumor secretes corticotropin, beta-lipotropin and beta-endorphin. Beta-endorphin concentrations in the pituitary and brain areas of rats or mice bearing these tumors are similar to those present in the respective controls, but for a decrease in the hindbrain of AtT20 tumor bearing mice. We conclude that peripheral concentrations of gonadotropins, corticotropins, beta-lipotropin and beta-endorphin do not affect the pituitary and brain concentrations of beta-endorphin.     

The effects of dopaminergic antagonism by sulpiride on TRH and VIP-induced prolactin release in nonsuckled lactating rats

Prolactin (PRL) release was studied in female rats during midlactation using pharmacologic manipulations designed to mimic the hypothalamic effects of suckling. In the first experiment pituitary dopamine (DA) receptors were blocked by sulpiride (10 micrograms/rat i.v.). One hour later, thyrotropin-releasing hormone (TRH, 1.0 micrograms/rat i.v.) was given to induce PRL release. TRH released significantly more PRL following DA antagonism than when no DA antagonism was produced, suggesting that DA receptor blockade increased the sensitivity of the AP to TRH. In a second experiment, VIP (25 micrograms/rat) increased plasma prolactin 3-4 fold but this effect was not enhanced significantly by prior dopamine antagonism with sulpiride. We conclude that dopamine antagonism enhances the PRL releasing effect of TRH but not VIP in lactating rats.