Dopamine receptors influence vasoactive intestinal peptide release from turkey hypothalamic explants

Vasoactive intestinal peptide (VIP) is a significant prolactin-releasing factor (PRF) in avian species, and dopamine (DA) exhibits both a stimulatory and inhibitory influence upon this prolactin (PRL) secretion. The stimulatory effect of DA upon PRL release appears to be mediated by VIP. This study investigated DAergic actions upon VIP release using turkey hypothalamic explants perifused with DA and its agonists or antagonists. VIP release was stimulated by DA in a dose-dependent manner (10 nmol DA/min, from 67.2 +/- 3.9 to 164.3 +/- 3.1 pg/5 min; 100 nmol DA/min, from 70.1 +/- 3.2 to 291.0 +/- 7.5 pg/5 min; 1,000 nmol DA/min, from 72.0 +/- 4.8 to 501.0 +/- 24.7 pg/5 min). The D1 DA receptor antagonist (R+)-SCH-23390 HCl completely negated the stimulatory effect of DA (100 nmol/min) upon VIP release. Perifusion with the D2 DA receptor antagonist S(-)-eticlopride HCl by itself stimulated VIP release from the hypothalamic explants, increasing VIP from 38.1 +/- 5.3 to 161.9 +/- 9.7 pg/5 min, where release stabilized until perifusion was terminated. The D1 DA agonist (+)-SKF-38393 HCl increased VIP release from 52.7 +/- 4.6 to 192.6 +/- 16.9 pg/5 min, and this stimulated release was partially inhibited by the D2 DA receptor agonist R(-)-NPA HCl (from 192.6 +/- 16.9 to 139.7 +/- 13.8 pg/5 min). These results suggest that VIP secretion is in part regulated by possible opposite actions between stimulatory D1 and inhibitory D2 DA receptors in the turkey hypothalamus.

Photoperiod mediates the ability of serotonin to release prolactin in the turkey

Photostimulation (PS) of turkeys increases the number of hypothalamic vasoactive intestinal peptide (VIP)-immunoreactive neurons, the number of anterior pituitary VIP binding sites, and prolactin (PRL) secretion. Serotonin (5-HT) was recently shown to stimulate PRL secretion through VIP. This study tested the hypothesis that 5-HT's ability to induce PRL secretion is mediated by reproductive status and/or photoperiod in normally cycling turkey hens. Initially, saline or 5-HT was infused into the third ventricle of nest-deprived, previously incubating (ND) hens for 60 min at rates of 0.1, 1.0, or 10 nmol/min. The results led to use of the 10 nmol/min infusion rate for the remaining 5-HT infusions. Next, 5-HT was infused into short-day (SD;6), laying (6), ND (5), and photorefractory (P/R;6) hens. Plasma PRL was elevated in all groups except for the SD hens (P < 0.05). In Experiment 3, VIP was infused into the median eminence of SD (6), laying (5), and P/R (5) hens, increasing circulating PRL levels in all three groups (P < 0.05). Finally, SD hens were photostimulated for 0, 3, or 10 days and then infused with 5-HT. Only the birds which were photostimulated for 10 days exhibited elevated plasma PRL (P < 0.05). In conclusion, PS regulates PRL secretion at the hypothalamic level and more than 3 days of PS are required for 5-HT-ergic stimulation of PRL secretion.

Dopaminergic control of prolactin secretion in the turkey

The stimulatory and inhibitory effects of dopamine (DA) upon avian prolactin (PRL) secretion suggest that, in birds, these actions are mediated by multiple DA receptors. To test this hypothesis, combined intracranial infusions of DA and selective D1 or D2 DA receptor blockers, plus electrical stimulation (ES) of the brain and vasoactive intestinal peptide (VIP) immunoneutralization, were used to characterize the actions of DA on PRL secretion in the turkey. Blockade of D1 DA receptors prevented the increase in circulating PRL observed in response to infusion of stimulatory concentrations of DA or to ES. Stimulatory infusions of DA also failed to increase circulating PRL in birds immunized against VIP. Results from infusion of the D2 DA receptor antagonist were unclear. Low concentrations had no effect, while the highest concentration (100 nmol/min) produced an increase in plasma PRL. At the high concentration the drug may be affecting PRL secretion by (1) acting nonspecifically, (2) acting as a partial DA agonist on D1 DA receptors, or (3) diffusion to the pituitary and blockade of D2 receptors there. These data suggest that avian PRL secretion is mediated by D1 DA receptors within the brain and that the stimulatory effect of DA upon PRL secretion requires an intact VIPergic system.

Active immunization against vasoactive intestinal peptide prevents photo-induced prolactin secretion in turkeys

Photostimulation initiates and maintains the rise in circulating prolactin (PRL) observed during the reproductive cycle of the female turkey. Vasoactive intestinal peptide (VIP) is the principal PRL-releasing factor. This study tested the hypothesis that gonadal stimulatory photoperiods stimulate PRL secretion by releasing hypothalamic VIP. Therefore, an experiment was designed to determine if VIP immunoneutralization altered photo-induced PRL secretion. Reproductively quiescent female turkeys were divided into two groups comprising turkeys actively immunized with synthetic VIP conjugated to keyhole limpet hemocyanin (VIP-KLH; immunized; n = 48) or KLH alone (control; n = 48). The first immunization was administered 6 weeks before photostimulation. Blood samples were collected at frequent intervals prior to and following photostimulation, and plasma PRL concentrations were determined. Vasoactive intestinal peptide antibody titer was estimated from the percentage of 125I-labeled VIP bound to plasma diluted 1:1000. At the onset of photostimulation (Day 0), plasma PRL levels were similar for immunized and control turkeys (9.1 +/- 0.3 versus 8.9 +/- 0.3 ng/ml, respectively). Plasma PRL of control birds increased (P < 0.05) by Day 16 of photostimulation, reaching a peak value of 724.9 +/- 90.1 ng/ml on Day 84. In contrast, plasma PRL remained essentially unchanged in immunized birds. Titer of anti-VIP antibodies expressed as 125I-VIP bound by plasma in immunized birds was 10.9 +/- 1.5% on the day of photostimulation. Incubation behavior was blocked in immunized birds, whereas 75% of controls exhibited incubation behavior. The control group laid 1.83 eggs/ week/hen compared to 3.40 eggs/week/hen in immunized hens. These findings suggest that photoperiodic modulation of PRL secretion in the turkey is influenced by hypothalamic VIP neuronal system.

Vasoactive intestinal peptide stimulates prolactin mRNA expression in turkey pituitary cells: effects of dopaminergic drugs

It is well documented that vasoactive intestinal peptide (VIP) is a prolactin (PRL)-releasing factor and that dopamine (DA) is an inhibitory neurotransmitter in avian species. However, the roles of VIP and DA in the regulation of PRL gene expression are unclear. In this study, primary anterior pituitary cells cultured from laying turkeys were utilized to investigate the influence of VIP and dopaminergic D1 and D2 receptors on PRL secretion, PRL mRNA, and PRL synthesis. Incubation of pituitary cells with VIP increased PRL secretion up to 3.5-fold within 3 hr. Prolactin mRNA was undetectable during the first 2 hr of pituitary cell treatment; thereafter, the PRL mRNA content response to VIP increased with 24-48 h (P < 0.05). Total PRL content (media + cellular) increased over time in the presence of VIP. The response of cells incubated in the presence of a dopaminergic D1 receptor agonist (SKF38393) was variable and inconclusive. However, cells incubated with a dopaminergic D2 receptor agonist (quinpirole) inhibited VIP-induced PRL secretion (P < 0.05) and PRL mRNA levels (P < 0.05) in a dose-related fashion without effect on the basal levels of PRL release and PRL mRNA. These observations suggest that VIP, in addition to acting as a PRL-releasing peptide, also plays a role in the regulation of PRL gene expression. Moreover, the results of this study also indicate that a drug that can selectively stimulate dopamine D2 receptors can also regulate PRL secretion and PRL mRNA in turkey pituitary cells in culture.

Egg production of cockatiels (Nymphicus hollandicus) is influenced by number of eggs in nest after incubation begins

Cockatiel eggs hatch asynchronously because most eggs are laid after continuous incubation begins. We manipulated numbers of eggs in the nest after cockatiels began incubating to determine whether the number of eggs in the nest influenced clutch size. We also measured plasma prolactin 2, 7, 12, and 17 days after egg laying began to determine whether clutch size covaried with prolactin concentration. We found that total egg production was stimulated in pairs for which the rate of egg accrual was reduced by egg removal, while total egg production was inhibited in pairs for which the egg accrual rate was increased by egg addition. Female, but not male, plasma prolactin concentrations correlated negatively with egg production on day of lay 17 but not before. We conclude that egg production in incubating cockatiels is influenced by feedback from the number of eggs in the nest and that clutch termination may be signaled by rising prolactin levels in females.

Protein kinase-C mediates chicken vasoactive intestinal peptide stimulated prolactin secretion and gene expression in turkey primary pituitary cells

This set of experiments investigated the role of protein kinase-C (PKC) as a second messenger in vasoactive intestinal peptide (VIP)-stimulated prolactin (PRL) secretion and PRL mRNA abundance. Dispersed anterior pituitary cells (5 x 10(5) or 10(6) cells/tube) were isolated from laying turkeys and incubated in 1.0 ml of M-199. In Experiment 1, 10(-7) M VIP increased PRL secretion three- to fivefold. Prolactin mRNA abundance was higher in VIP-treated cells (11.45 +/- 2.11 arbitrary optical unit; AOU) than control cells (4.59 +/- 1.2 AOU). In Experiment 2, the addition of 10(-12), 10(-10), 10(-8), and 10(-6) M phorbol 12-myristate 13-acetate (PMA; PKC agonist) increased PRL release from 8.5 +/- 0.7 to 14.9 +/- 1.1, 17.2 +/- 1.3, 18.1 +/- 2.2, and 18.7 +/- 2.8 micrograms/10(6) cells, respectively. PRL mRNA abundance was significantly (P < 0.01) increased in only 10(-6) M PMA treatment. In Experiment 3, PKC desensitization decreased VIP-stimulated PRL release from 10.0 +/- 2.3 to 4.2 +/- 0.6 micrograms/5 x 10(5) cells and PMA-induced release from 7.1 +/- 1.3 to 2.7 +/- 0.3 micrograms/5 x 10(5) cells. VIP and PMA up-regulated PRL mRNA abundance was decreased two- to fourfold by PKC desensitization. In Experiment 4, 10(-6) M staurosporine (ST; PKC antagonist) decreased both 10(-7) M VIP-stimulated PRL secretion from 7.86 +/- 2.9 to 2.43 +/- 0.5 micrograms/5 x 10(5) cells and 10(-8) M PMA-stimulated PRL secretion from 4.26 +/- 0.2 to 2.23 +/- 0.3 micrograms/5 x 10(5) cells (P < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

Serotonergic stimulation of prolactin secretion is inhibited by vasoactive intestinal peptide immunoneutralization in the turkey

The neuronal mechanisms that govern prolactin (PRL) secretion in the turkey appear to involve monoaminergic systems. Considerable evidence indicates that serotonin (5-HT), acting centrally, is a potent stimulator of PRL secretion. This study, using birds actively immunized against VIP, tests the hypothesis that 5-HT stimulates PRL secretion by releasing vasoactive intestinal peptide (VIP). Nonimmunized turkeys were injected ip with saline, quipazine (5-HT agonist; 5 mg/kg), methysergide (5-HT antagonist; 8 mg/kg), or methysergide plus quipazine, and VIP-immunized birds were injected with saline or quipazine. Quipazine increased plasma PRL levels from 26.8 +/- 7.1 ng/ml at Time 0 to a peak value of 148.1 +/- 31.4 ng/ml 2 hr after infection. Pretreatment with methysergide or VIP-immunoneutralization abolished the PRL response to quipazine. Intraventricular infusion of 5-HT (1 nmol/min) caused plasma PRL to rise from a baseline of 16.3 +/- 2.6 ng/ml to 85.2 +/- 14.3 ng/ml after 30 min in nonimmunized control birds. Serotonin infusion did not induce PRL secretion in the VIP-immunized birds. These findings suggest that serotonergic stimulation of PRL secretion in the female turkey requires a functional VIPergic system.

Tissue-specific alternative splicing of turkey preprovasoactive intestinal peptide messenger ribonucleic acid, its regulation, and correlation with prolactin secretion

Although vasoactive intestinal peptide (VIP) is a well characterized physiological PRL-releasing factor in avian species, its regulated expression is not fully understood. We cloned complementary DNAs encoding the prepro-turkey VIP (prepro-tVIP) molecule from an adult turkey hypothalamic complementary DNA library. When the amino acid sequence of the prepro-tVIP was compared to chicken and mammalian sequence, it was found that the isolated tVIP molecules lacked the 27-amino acid peptide histidine isoleucine (PHI) portion of the precursor protein. Several tissues showed an alternatively spliced tVIP transcript that lacked the PHI sequence. Only in the hypothalamus did tVIP-specific primer pairs and reverse transcription-polymerase chain reaction produce two alternatively spliced fragments. The larger hypothalamus-specific fragment was subjected to nucleotide sequence analysis and identified as containing the alternatively spliced PHI-containing exon, which encoded a 27-amino acid PHI peptide in addition to the 8 amino acids that flanked the peptide. Hypothalamic tVIP expression was shown to be up-regulated during the incubation phase of the reproductive cycle. The increased steady state level of tVIP messenger RNA appears to be regulated by nesting behavior, because nest deprivation dramatically suppressed its expression. Levels of the minor tVIP transcript containing both the PHI- and VIP-encoding exons did not significantly change between reproductive stages and were maintained at approximately 4-6% of the total tVIP transcript level. Our findings provide further evidence that VIP is the most important PRL-releasing factor in birds. Our study should serve as a useful model for determining whether PHI contributes in any way to the physiological role of PRL regulation. Revealing the tissue distribution of VIP and PHI gene expression and tissue-specific alternative splicing could contribute to an understanding of the physiological functions of the two peptides as well as their relative roles in PRL regulation.

The stimulatory and inhibitory effects of dopamine on prolactin secretion in the turkey

Dopamine (DA) was infused into the third ventricle of anesthetized laying turkey hens at various concentrations to determine its effect on both basal prolactin (PRL) levels and ongoing electrically induced PRL secretion. The infusion of DA at rates of 1.0 or 10.0 nmol/min resulted in dose dependent increases in plasma PRL. These infusions had no inhibitory effect on electrically stimulated PRL release. The infusion of DA at 100.0 or 500.0 nmol/min caused no stimulation of PRL secretion and totally inhibited the PRL response elicited by electrical stimulation of the medial preoptic nucleus. These results show that dopaminergic influences are involved in both stimulating and inhibiting avian PRL secretion and suggest possible biphasic actions of DA within the brain.

Sequence analysis of the turkey LH beta subunit and its regulation by gonadotrophin-releasing hormone and prolactin in cultured pituitary cells

cDNAs encoding the precursor molecule of the turkey LH beta subunit (tLH beta) were cloned from a turkey pituitary cDNA library. The nucleotide sequence of the longest of two different tLH beta cDNA clones contained 592 bp, and included 23 bp of the 5' untranslated region (UTR) and 92 bp of the 3' UTR in addition to a 477 bp open reading frame that encoded a 39 amino acid leader polypeptide and a 120 amino acid mature apoprotein. Turkey and chicken LH beta sequences shared approximately 92 and 93% nucleotide and amino acid sequence similarities respectively. Northern blot analysis of total cellular anterior pituitary RNA showed that an approximate 800 base transcript hybridized to a 32P-labelled tLH beta cDNA probe. The gonadotrophin-releasing hormone (GnRH)- and prolactin (PRL)-regulated expression of LH and PRL in dispersed pituitary cells was determined by Northern blot analysis of tLH beta and PRL steady-state mRNA levels and by RIA analysis of secreted LH and PRL. GnRH-treated cells showed increased levels of both tLH beta mRNA and secreted LH, whereas mRNA and secreted levels of PRL did not change significantly. Cells treated with PRL showed lower levels of tLH beta and PRL mRNA as well as decreased release of LH and PRL. When cells were treated with both PRL and GnRH, increases in tLH beta mRNA and secreted levels of LH observed with GnRH alone were negated, whereas the decreases in mRNA and secreted levels of PRL observed with PRL alone were abrogated. These findings suggest that PRL can down-regulate tLH beta gene expression and spontaneous release of LH as well as autoregulate PRL gene expression and spontaneous release of PRL, while GnRH appears capable of modulating the effects of PRL-regulated LH and PRL gene expression and spontaneous release.

Increased egg production by active immunization against vasoactive intestinal peptide in the turkey (Meleagris gallopavo)

Vasoactive intestinal peptide (VIP) is a hypothalamic prolactin (PRL)-releasing factor in the turkey. The hypothesis in the present study was that active immunization of turkeys with VIP would neutralize endogenous VIP, decrease circulating PRI, and consequently prevent the expression of incubation behavior. Large white female turkeys were divided into three experimental groups comprising untreated controls, control turkeys immunized with keyhole limpet hemocyanin (KLH), and turkeys immunized with synthetic chicken VIP conjugate (KLH-cVIP). Each turkey received four injections at 4-wk intervals, starting on the day of photostimulation. The immune response, measured by the percentage binding of monoiodinated chicken VIP (cVIP) to plasma at a dilution of 1:1000, averaged 11.8 +/- 2.5% during the reproductive life cycle. Immunization against KLH-cVIP prevented the normal increases of PRL that are associated with the photo-induced reproductive cycle. Over a 21-wk period beginning at photostimulation, KLH-cVIP-immunized birds exhibited a maximal plasma PRL level of 82.2 +/- 29.5 ng/ml, compared to 367.7 +/- 66.6 ng/ml and 227.5 +/- 51.7 ng/ml for non- and KLH-immunized turkeys, respectively. The total number of nest visits per hen during the 147-day experimental period decreased from 320.0 +/- 48.2 in the nonimmunized controls to 180.7 +/- 53.7 and 149.4 +/- 13.1 visits in KLH- and KLH-cVIP conjugate-immunized turkeys. Turkeys that showed an immune response to KLH-cVIP immunization did not exhibit incubation behavior, whereas 54% and 33% of non- and KLH-immunized hens incubated their eggs.(ABSTRACT TRUNCATED AT 250 WORDS)

Theca cell cytochrome P450 17-hydroxylase and aromatase messenger ribonucleic acid abundance and serum steroid levels during follicular atresia associated with incubation behavior in the domestic turkey hen

This study was designed to examine changes in cytochrome P450 17 alpha-hydroxylase (C17) and aromatase (ARO) mRNA contents in the theca layer of preovulatory follicles (POF) as turkey hens transit from egg laying to incubation. Hens were grouped into the following categories: 1) laying hens--laid one egg per day and nested 1-2 times per day; 2) transitional hens--laid one egg per day and nested > 4 times per day; and 3) Day 1, Day 3, and Day 5 incubating hens--laid no eggs for 2, 4, or 6 days, respectively, and nested > 4 times per day. Small white follicles (SWF) and the theca layer from the largest (F1) and the third (F3), fifth (F5), and seventh (F7) largest POF were dispersed and challenged with testosterone (T) for 5 h. Relative levels of C17 and ARO mRNA were examined from the theca layers of F1, F3, F5, F7, and SWF. The number of atretic follicles increased from 0 (layers) to 8 (Day 5 incubating hens). Serum LH, progesterone (P), and estradiol (E), but not T, declined on Day 1 of incubation. Basal levels of P, T, and E from theca and SWF cells declined in incubating hens. Both basal and T-stimulated theca and SWF production of E decreased in incubating hens. C17 and ARO mRNA declined in SWF, F7, and F5 during follicular atresia. It is suggested that reduced gene expression of ovarian steroidogenic enzymes may be a partial determinant of reduced circulating sex steroid levels in incubating hens.(ABSTRACT TRUNCATED AT 250 WORDS)

Active immunization with vasoactive intestinal peptide prevents the secretion of prolactin induced by electrical stimulation of the turkey hypothalamus

Immunoneutralization of endogenous vasoactive intestinal peptide (VIP) by active immunization with chicken VIP (cVIP) reduced both basal circulating prolactin (PRL) and steady-state levels of pituitary PRL mRNA in the turkey. This immunoneutralization severely curtailed the plasma PRL response induced by infusion of cVIP into the median eminence, and totally blocked the plasma PRL release effected by electrical stimulation of the medial preoptic nucleus. This is the first demonstration that a stimulated PRL secretion can be blocked by neutralizing VIP availability. These findings imply that among the neurochemicals released by electrical stimulation, only VIP directly stimulates PRL secretion. In addition to serving as a PRL releasing factor, VIP also appears to be involved in the regulation of pituitary PRL mRNA expression.

Role of vasoactive intestinal peptide in the control of prolactin-induced turkey incubation behavior. II. Chronic infusion of vasoactive intestinal peptide

Hyperprolactinemia is associated with incubation behavior in avian species. Increased nesting activity is a major indication of incubation behavior. Vasoactive intestinal peptide (VIP) stimulates prolactin (PRL) secretion from the anterior pituitary. The goal of this study was to induce incubation behavior by stimulating PRL through chronically infusing VIP into the third ventricle of turkey brains. In experiment 1, porcine VIP (pVIP) was infused into the median eminence at a rate of 60 ng/min for 7 days by means of osmotic pumps implanted s.c.. Plasma PRL increased significantly in the pVIP-treated turkeys (p < 0.001). Although egg laying was not affected by the pVIP infusion, the mean oviduct weight decreased (p < 0.057). In experiment 2, saline or pVIP (30 or 60 ng/min) was infused into the third ventricle of laying turkeys for 12 days. Both pVIP treatments increased plasma PRL for 9 days (p < 0.05). The 30-ng pVIP/min infusion decreased nesting activity, plasma LH, ovary and oviduct weight, hypothalamic GnRH I, and anterior pituitary VIP receptors (p < 0.1). However, ovine PRL infusion (20.8 ng/min) into the same turkey flock increased nesting activity (p < 0.01). In conclusion, pVIP does not induce incubation behavior in laying turkeys.

Role of vasoactive intestinal peptide in the control of prolactin-induced turkey incubation behavior. I. Acute infusion of vasoactive intestinal peptide

Vasoactive intestinal peptide (VIP) stimulates prolactin (PRL) secretion. Ovine PRL induces incubation behavior in avian species. This study was designed to determine whether VIP can elevate plasma PRL for up to 3 h. Saline or porcine VIP (pVIP; 30, 60, or 150 ng/min) was infused into the median eminence of laying turkeys for 1 h. The 60- and 150-ng doses of pVIP increased plasma PRL (p < 0.01), whereas the 30-ng dose was insignificant. Pituitary PRL content decreased in pVIP-treated turkeys. Two-hour infusion of 60 or 150 ng chicken VIP (cVIP)/min produced similar elevations of plasma PRL (p < 0.001), which declined within 80 min. Both treatments induced insignificant increases in pituitary PRL mRNA. Saline or cVIP (30, 60, or 60 [pulsed] ng/min) was infused into the median eminence for 3 h. Sixty ng cVIP/min induced the largest PRL release (p < 0.05). The pulsatile and low-cVIP treatments resulted in release of a significant amount of PRL in comparison to the saline treatment (p < 0.01). All cVIP treatments resulted in decreased pituitary PRL content (p < 0.05). The 60-ng dose increased PRL mRNA (p < 0.1). This study shows that 60 ng VIP/min causes the maximum PRL release in laying turkeys. However, pituitary PRL content is depleted and PRL synthesis cannot maintain PRL secretion at high levels.

Hypothalamic and posterior pituitary content of vasoactive intestinal peptide and gonadotropin-releasing hormones I and II in the turkey hen

An inverse relationship often exists between prolactin (Prl) and LH in avian species. Our study was designed to investigate the relationship between hypothalamic and posterior pituitary vasoactive intestinal peptide (VIP)--an endogenous Prl-releasing peptide--and chicken GnRH-I and GnRH-II. Hypothalamic VIP content was increased after photostimulation, reaching its highest levels in incubating and photorefractory birds. The highest hypothalamic GnRH-I content was in laying hens followed by that in photostimulated and incubating birds. The lowest levels were in the nonphotostimulated birds. Hypothalamic GnRH-II increased after photostimulation, then fell to nonphotostimulated levels during incubation and photorefractoriness. Posterior pituitary VIP content was elevated in response to photostimulation, reaching a peak value in the laying and incubating birds, then declining in the photorefractory hens. Posterior pituitary GnRH-I and GnRH-II content peaked in the incubating birds. Ovariectomy caused a significant reduction in hypothalamic GnRH-I and GnRH-II with no effect on VIP; no changes were found in the posterior pituitary due to ovariectomy. Reducing day length caused a significant decrease in the hypothalamic and the posterior pituitary content of VIP and GnRH-I, and GnRH-II. Ovine Prl (oPrl) administration to laying hens reduced the hypothalamic VIP and GnRH-I and GnRh-II content. Posterior pituitary GnRH-I content was also reduced. Although GnRH-II levels were reduced by Day 4 of injections, they rose to peak levels by Day 14 of oPrl administration. Posterior pituitary VIP content was not altered by oPrl.

Influence of ovariectomy and photostimulation on luteinizing hormone in the domestic turkey: evidence for differential regulation of gene expression and hormone secretion

We have investigated the effects of ovariectomy (OVX) and photostimulation (PS) on anterior pituitary LH beta mRNA abundance and circulating levels of LH in the domestic turkey. The birds were divided into the following four treatment groups: non-PS SHAM, PS SHAM, non-PS OVX, and PS OVX. Photostimulation was initiated 7 days after OVX. Anterior pituitaries and blood samples were collected on Days 0, 1, 3, 7, 14, and 26 after PS. The experiment was terminated when the PS SHAM birds were laying eggs regularly. Photostimulation of intact birds induced an increase in both LH beta mRNA levels (Days 3, 14, and 26 of PS) and serum LH (Days 14 and 26 of PS; p < 0.05), while OVX of non-PS birds significantly elevated LH on Days 7, 10, 21, and 33 and LH beta mRNA levels on Days 7, 8, 10, 14, and 33 post-OVX. Circulating LH titers in the PS OVX birds were well above the levels in the non-PS OVX group (p < 0.005); however, LH beta mRNA abundance was not significantly greater (p > 0.05). Our results indicate that OVX and PS appear to be additive in stimulating LH secretion but do not have this effect on LH beta mRNA levels. We have hypothesized that gonadectomy induces near-maximal accumulation of LH beta mRNA and that therefore the subsequent stimulus of a long photoperiod has no additional effect. We suggest that increases in serum LH levels, beyond those of the OVX bird, may be controlled post-transcriptionally.

Dynorphin modulates prolactin secretion in the turkey

Big dynorphin (prodynorphin 209-240), dynorphin A (prodynorphin 209-225), dynorphin B (prodynorphin 228-240), beta-endorphin (beta-lipotrophin 61-90), or Met-enkephalin, each infused into the third ventricle, were tested for their effect on PRL release in the anesthetized turkey hen. Laying hens that received big dynorphin at the rate of 0.35 nmol/min showed a 5.1-fold increase in serum PRL at the end of a 30-min infusion period. In a second experiment, the big dynorphin-induced PRL increase was 2.6-fold. Nest-deprived, previously incubating hens that received big dynorphin displayed an 8.2-fold increase in serum PRL. Laying and nest-deprived incubating control birds infused with saline displayed no PRL increases. Laying hens that received dynorphin A (0.35 nmol/min) showed a 1.5-fold increase in serum PRL after 30 min of infusion; after 40 min of infusion, this increase rose to 2.7-fold. Infusions of beta-endorphin (0.35 nmol/min), or Met-enkephalin (0.35 nmol/min) failed to evoke PRL increases in either laying or nest-deprived incubating turkeys. Infusion of big dynorphin or dynorphin A for 120 min maintained an elevated PRL level across the period, a level equal to that evoked by electrical stimulation of the medial preoptic nucleus (ES/POM). Infusion of dynorphin B (0.48 nmol/min) or a reduced dose of dynorphin A (0.09 nmol/min) augmented the PRL response evoked by ES/POM. No augmentation was noted for beta-endorphin or Met-enkephalin, nor for saline-infused controls. The dynorphin-induced PRL response appeared to be dose-dependent.(ABSTRACT TRUNCATED AT 250 WORDS)

Ovarian involvement in the suppression of luteinizing hormone in the incubating turkey (Meleagris gallopavo)

A series of experiments were conducted to elucidate the role of the ovary in incubation behavior-associated luteinizing hormone (LH) suppression. Ovariectomy (Ovx) increased (p < 0.05) serum LH levels in nonphotostimulated, laying and photorefractory turkeys but not in incubating birds (p > 0.05). Ovx had no effect on intramuscularly injected mammalian luteinizing hormone-releasing hormone (4 micrograms/kg i.m.)-induced LH in incubating hens, but enhanced the LH response in laying hens. Serum LH and prolactin (Prl) were unaffected by Ovx, and nest deprivation (ND) decreased Prl levels (p < 0.05) with no effect on serum LH of incubating turkeys. However, serum LH increased (p < 0.05) and Prl decreased in Ovx-ND birds. Prl mRNA abundance (11.9 +/- 1.2 ng/microgram total RNA) decreased following Ovx (3.4 +/- 0.4 ng/microgram total RNA) or ND (3.6 +/- 0.5 ng/microgram total RNA). Nest deprivation increased LH beta mRNA (2.5-fold) which was further increased (4.8-fold) by Ovx. Hypothalamic GnRH-I and GnRH-II contents increased (p < 0.05) in Ovx-ND turkeys. We conclude that serum LH suppression during incubation behavior requires ovarian participation acting synergistically with elevated Prl and/or nesting stimulus on hypothalamic GnRH, and that the concentration fo LH beta mRNA may be a limiting factor in LH secretion.

Immunohistochemical localization of chicken gonadotropin-releasing hormones I and II (cGnRH I and II) in turkey hen brain

The distribution of cells and fibers immunoreactive (ir) for either chicken gonadotropin-releasing hormone I (cGnRH I; [Gln8]GnRH) or II ([His5,Trp7,Tyr8]GnRH) was determined in brains of turkey hens to reveal whether these peptides occur in separate neuronal systems. ir-cGnRH I cells were located: along the medial aspect of the ventriculus lateralis, nucleus accumbens, and bed nucleus of the stria terminalis; ventral to the tractus septomesencephalicus and extending medially to the third ventricle, and caudally into the lateral hypothalamic area; and in a diffuse band extending from the nucleus preopticus medialis to the nucleus dorsomedialis anterior thalami. cGnRH I fibers were evident in these areas in addition to the hippocampus, nucleus subhabenularis medialis, nucleus ventromedialis hypothalami, and median eminence. Two groups of ir-cGnRH II cells were observed: a magnocellular group lying between the substantia grisea centralis and the nucleus ruber; and a parvicellular group lying medial to the nucleus of the basal optic root and extending into the lateral hypothalamic area. ir-cGnRH II fibers were prominent in limbic structures (cortex piriformis, lateral to nucleus taeniae, hippocampus); olfactory areas (tuberculum olfactorium, nucleus subhabenularis lateralis, nucleus septalis lateralis); areas that in other avian species have steroid-concentrating cells or receptors (medial edge of lobus parolfactorius, nucleus septalis medialis, nucleus periventricularis magnocellularis, nucleus dorsomedialis posterior thalami); and areas containing ir-GnRH I cells or fibers but not in median eminence. These results suggest that cGnRH I and II occur in separate neuronal systems and that cGnRH II does not directly promote pituitary gonadotropin secretion.

Effect of ovine prolactin administration on hypothalamic vasoactive intestinal peptide (VIP), gonadotropin releasing hormone I and II content, and anterior pituitary VIP receptors in laying turkey hens

The effect of ovine prolactin (oPRL) administration to laying and incubating turkey hens was studied. In experiment one, five treatment groups (n = 6) of laying hens received injections of vehicle or oPRL (4 mg/bird/day) for 2, 4, 8, or 14 days. Hypothalamic vasoactive intestinal peptide (VIP) content decreased to its lowest level (p < 0.05) by Day 2 of oPRL injection. Serum turkey PRL decreased by Day 8 of injection, reaching nadir by Day 14. Similar to the decline in hypothalamic VIP content, the maximal decline in the number of anterior pituitary VIP binding sites was achieved by Day 2 of oPRL administration. Hypothalamic GnRH-I content decreased after 2 days of oPRL injection and remained low through Day 14 of the experiment. GnRH-II levels declined with time, reaching significantly lower levels after 8 days of injections, and remained low through Day 14. Plasma LH levels also declined (p < 0.05) after Day 14 of oPRL administration. In experiment 2, two groups (n = 6) of incubating birds were used: controls receiving injections of vehicle only and birds receiving injections of oPRL (4 mg/bird/day) for 10 days. Exogenous oPRL had no effect on hypothalamic VIP, GnRH-I or II, anterior pituitary VIP binding sites, or plasma turkey PRL or LH. The findings suggest that in laying hens, PRL inhibits its own secretion by acting on both the hypothalamus and the anterior pituitary; this phenomenon does not occur in incubating birds. Furthermore, we provide evidence that pRL acts centrally to reduce LH levels by reducing GnRH levels in the hypothalamus.

Characterization of vasoactive intestinal peptide pituitary membrane receptors in turkey hens during different stages of reproduction

Vasoactive intestinal peptide (VIP) is a prolactin-releasing factor in turkey hens. Membranes from anterior pituitaries of turkey hens were used to characterize VIP receptors. Using HPLC-purified monoiodinated VIP, we found specific VIP receptors in the anterior pituitary glands. Binding was saturable and was time- and temperature-dependent. Scatchard analysis of competitive binding studies indicated two binding sites, a high-affinity binding site (Kd1) of 6.6 +/- 1.8 pM and maximum binding (Bmax1) of 1.52 +/- 0.2 pM, and a low-affinity binding site (Kd2) of 542 +/- 200 pM and Bmax2 of 15.8 +/- 8.0 pM. Binding of VIp to pituitary membranes was specific, as compared to other peptides of the glucagon family. The rank order of potency of the peptides tested was chicken VIP > porcine VIP > peptide histidine isoleucine > secretin > glucagon > growth hormone-releasing factor. Two binding sites were found in all the examined reproductive stages. The lowest binding site levels were found in nonphotostimulated and photorefractory birds, followed by photostimulated birds and layers; highest levels were found in incubating birds. Nest deprivation significantly reduced Bmax1 levels without changing hypothalamic VIP content. These results suggest the involvement of the anterior pituitary VIP receptors in the regulation of prolactin secretion from the pituitary gland.

Effect of reproductive condition on luteinizing hormone and prolactin release induced by electrical stimulation of the turkey hypothalamus

In the turkey, the onset of incubation behavior is associated with decreased luteinizing hormone (LH) and increased prolactin (PRL). This study was designed to clarify the contribution of the hypothalamus and the anterior pituitary to the changes in plasma LH during the reproductive cycle of the turkey. Plasma LH and PRL were measured in anesthetized turkey before, during, and after electrical stimulation in the median eminence. In one experiment, luteinizing hormone releasing hormone (LHRH; 4 micrograms/kg) was injected intramuscularly 30 min after termination of electrical stimulation, and blood samples were obtained 5, 10, 20, and 30 min after injection. Electrical stimulation in the median eminence significantly increased (P < 0.05) plasma LH of laying (LAY), nest-deprived, previously incubating (NEST DEP), and photorefractory (REFRAC) hens, but not of photosensitive short-day (SHORT DAY) birds (P > 0.05). Plasma LH of LAY hens peaked at 4.06 +/- 0.78 ng/ml from a prestimulation baseline of 2.30 +/- 0.21 ng/ml and that in NEST DEP birds increased from 1.08 +/- 0.18 ng/ml to 2.57 +/- 0.53 ng/ml. Administration of LHRH increased plasma LH levels in SHORT DAY, LAY, and NEST DEP hens with the increase being 2.0-, 2.5-, and 6.1-fold, respectively. Electrical stimulation in the median eminence increased plasma PRL (P < 0.05) in all the reproductive groups tested, with peak response being greatest for NEST DEP birds (661 +/- 126 ng/ml) followed by LAY (317 +/- 26 ng/ml), REFRAC (50 +/- 7 ng/ml), and SHORT DAY (39 +/- 12 ng/ml) hens.(ABSTRACT TRUNCATED AT 250 WORDS)

Complementary DNA cloning and expression of Pit-1/GHF-1 from the domestic turkey

The transition from egg laying to incubation activity in birds is associated with a dramatic rise in serum prolactin levels. To further our understanding of the regulation of prolactin gene expression in birds, a cDNA clone encoding turkey Pit-1/GHF-1 was isolated. The turkey cDNA, designated tPit-1/GHF-1, was 1,123 nucleotides in length and encoded a protein of 327 amino acids, including a conserved 80-amino-acid POU-specific domain and a 60-amino-acid POU homeodomain. tPit-1/GHF-1 POU-specific domain and POU-homeodomain showed 94-95% amino acid identity with the corresponding rat Pit-1/GHF-1 domains. At its amino terminus, tPit-1/GHF-1 contained a 26-amino-acid insertion comparable to that found in the rat variant isoform, Pit-1 beta. Two other insertions of 38 and 7 amino acids were present and were not found in the mammalian protein. Levels of tPit-1/GHF-1 mRNA in pituitary tissue were examined at different phases of the turkey reproductive cycle by Northern blotting. tPit-1/GHF-1 mRNA was expressed as a 3.5-kb transcript, whose abundance remained relatively constant throughout the reproductive cycle. Thus, the dramatic rise in prolactin mRNA, observed during hyperprolactinemia in incubating turkey hens, was not associated with a concomitant increase in tPit-1/GHF-1 gene expression.

Pituitary luteinizing hormone and prolactin messenger ribonucleic acid levels are inversely related in laying and incubating turkey hens

The relationships of prolactin (PRL) and LH messenger (m) RNA to serum and pituitary content were determined for turkey hens at different phases of the reproductive cycle. In the nonphotostimulated, reproductively inactive hen, serum and pituitary PRL content and pituitary PRL mRNA levels were low. All three PRL values rose after photostimulation and peaked during the incubation phase. Relative to nonphotostimulated hens, hyperprolactinemic incubating hens showed 220-, 11-, and 57-fold increases in serum PRL, pituitary PRL content, and pituitary PRL mRNA levels, respectively. These peak levels declined 80-, 3-, and 6-fold, respectively, in photorefractory hens. In contrast to PRL levels, serum LH, pituitary LH, and pituitary LH beta-subunit mRNA levels did not change as dramatically. Serum LH showed no significant changes for the different reproductive phases. Pituitary LH peaked after photostimulation and declined to its lowest level in incubating hens. Pituitary LH-beta mRNA abundance was highest in photostimulated and laying hens and lowest in incubating and photorefractory hens. These results demonstrate that the abundance of LH-beta and PRL mRNA shows an inverse relationship in photostimulated/laying and incubating turkey hens.

Evidence of a role for the turkey posterior pituitary in prolactin release

The aims of this study were: (1) to examine whether the posterior pituitary contains prolactin releasing factor (PRF) activity, (2) to determine to what extent known neurohypophyseal peptides contribute to this activity, and (3) to compare posterior pituitary PRF activities of hens in different reproductive stages. Anterior pituitary cells derived from juvenile female turkeys were incubated with posterior pituitary extracts or test substances for 3 hr. Posterior pituitary extracts (0.1-0.8 equivalent) contained a potent substance(s) which stimulated PRL release in a concentration-dependent manner (2.4 +/- 0.08 to 6.5 +/- 0.23 micrograms/500 k cells). Arginine vasotocin (AVT) and vasoactive intestinal peptide (VIP) antisera (1:500) completely abolished the PRL-releasing activities of their respective peptides but partially reduced (P less than 0.05) the PRF activity of the posterior pituitary (AVT, 19.9%; VIP, 55.1%). Mesotocin antiserum did not alter (P greater than 0.05) PRL release induced by posterior pituitary extract. Posterior pituitary extract (0.01-0.5 equivalent) from hens in each of the various stages of the reproductive cycle induced a concentration dependent PRL release. The 0.5 posterior pituitary equivalent dose from reproductively quiescent (nonphotostimulated), laying, photorefractory, and incubating hens increased PRL release 2.4-, 2.9-, 3.8-, and 11.1-fold, respectively. The turkey posterior pituitary contains a potent PRF activity, partially accounted for by VIP and AVT, at the assayed concentrations, which varies with the reproductive cycle.

Effects of reproductive status, ovariectomy, and photoperiod on vasoactive intestinal peptide in the female turkey hypothalamus

Vasoactive intestinal peptide (VIP) appears to be a physiologically relevant prolactin (PRL)-releasing factor during the avian reproductive cycle, yet little is known of the factors involved in modulating the hypothalamic concentrations of this neuropeptide. A heterologous chicken VIP radioimmunoassay was developed to examine the effects of reproductive status, ovariectomy, and photoperiod on hypothalamic VIP immunoreactivity in the female turkey. VIP concentrations were highest in the median eminence/infundibular nuclear complex (ME/INF) relative to other subregions of the hypothalamus and changed only in this region during the reproductive cycle. Quiescent, nonphotostimulated hens subjected to stimulatory photoperiod exhibited a 1.6-fold increase in VIP in the ME/INF (quiescent 59.9 +/- 6.0 vs photostimulated 95.8 +/- 7.1 pg/microgram protein). An additional 2-fold increase in ME/INF VIP concentrations was observed in laying hens (183.0 +/- 28.5 pg/microgram protein). Coincident increases in plasma PRL were also observed. In contrast, during incubation and the photorefractory stage, a dissociation between hypothalamic VIP and plasma PRL occurred. No changes were observed in VIP in incubating hens, yet a 6-fold increase in PRL was noted, compared to layers. In addition, ME/INF VIP concentrations exhibited no change during the photorefractory stage, whereas a 28-fold decrease in plasma PRL occurred. VIP concentrations in the ME/INF of laying hens were unaffected by ovariectomy, whereas exposure to short photoperiod reduced VIP by 44%. The inhibitory effects of short photoperiod could not be reversed by administration of exogenous steroids, while steroid treatment reduced VIP concentrations by 45% in the ovariectomized hens. These results provide additional correlative evidence for a modulatory role of VIP in PRL secretion and suggest that the expression of this neuropeptide in the INF may serve as a neural link between photoperiodic mechanisms and PRL release during the avian reproductive cycle.

Involvement of dopamine in prolactin release induced by electrical stimulation of the hypothalamus of the female turkey (Meleagris gallopavo)

Controversy exists regarding the role of dopamine (DA) in the regulation of avian prolactin (PRL) secretion. Consequently, we injected apomorphine, a DA agonist, and pimozide, a DA receptor blocker, into laying and nest-deprived incubating turkeys and studied their effect on PRL secretion before (-20, -10, 0 min), during (5, 10, 20, 30 min), and after (5, 15, 30 min) electrical stimulation in the ventromedial nucleus of the hypothalamus. Apomorphine (10 mg/kg, ip) completely abolished the electrical stimulation-induced PRL increase in both laying and nest-deprived incubating hens. Pimozide (2 mg/kg, ip) potentiated electrical stimulation-induced PRL secretion in laying hens. In the two pimozide experiments, peak responses were 10.9-fold for the pimozide-treated group vs 2.9-fold for the control group, and 5.4-fold for the pimozide-treated group vs 2.6-fold for the control group. In nest-deprived incubating hens, PRL response to electrical stimulation was unaffected by pimozide treatment. These data support the concept that DA is inhibitory to the neuroendocrine system which stimulates PRL secretion in laying hens. In incubating hens, the dopaminergic inhibition is diminished, allowing for the increased PRL level observed during incubation.

Ovarian steroid production in vitro during gonadal regression in the turkey. I. Changes associated with incubation behavior

The mechanism regulating ovarian regression during incubation behavior in the domestic turkey has not been elucidated. This study was designed to determine whether ovarian steroidogenic potential is depressed during gonadal regression associated with the onset of incubation behavior. Hens were housed in floor pens equipped with trap nests that were checked 7 times per day. Hens were grouped, according to nesting frequency and egg production, into the following classifications: laying (laid an egg every day and trapped in the nest only once/day); transitional (laid an egg every day but trapped in the nest 4 or more times/day); and Day 1, Day 3, and Day 5 incubating (no egg for 2, 4, or 6 days, respectively, while trapped in the nest at least 4 times/day). Follicular atresia was evident in the largest preovulatory follicle (F1) in transitional hens, extensive in F1 through the third largest follicle (F3) in Day 1 incubating hens, and extensive in F1 through F7in Day 3 incubating hens. Levels of circulating LH, progesterone (P), androgen (A), and estradiol (E) decreased in transitional hens relative to concentrations in laying hens and remained low thereafter. In contrast, levels of prolactin were greater in Day 3 and Day 5 incubating hens than in laying, transitional, or Day 1 incubating hens. Basal production of P by F1 granulosa cells was lower from Day 1 incubating hens than from the other groups. Production of P in response to porcine-luteinizing hormone (pLH) was greater by cells from transitional and Day 1 incubating hens than from those of laying hens.(ABSTRACT TRUNCATED AT 250 WORDS)

Ovarian steroid production in vitro during gonadal regression in the turkey. II. Changes induced by forced molting

In the turkey, the onset of incubation behavior is associated with altered ovarian steroidogenesis, ovarian regression, decreased, LH secretion, and increased serum prolactin (Prl) levels. To clarify the relative contribution of circulating LH and Prl to the initiation of ovarian regression, laying hens were exposed for 0, 3, 7, or 14 days to a forced molting procedure (exposure to reduced day length of 6L:18D and removal of feed and water for the initial 3 days) that induces ovarian regression and decreased LH levels but does not increase Prl levels. On each of these days, hens were killed and granulosa and theca interna cells from the largest (F1) and fifth largest (F5) preovulatory follicles and total cells from the small white follicles (SWF) were incubated for 5 h in the presence or absence of ovine LH (oLH; 0-1,000 ng/ml). Force-molted hens exhibited diminished levels of circulating LH, Prl, progesterone (P), androgen (A), and estradiol (E) by Day 3 of treatment. Ovarian atresia began in F1 by the third day of treatment, and included F1 and F5 by the seventh day. No preovulatory follicles were present on the fourteenth day. With both F1 and F5 granulosa cells, production of P in the presence of oLH was initially enhanced (Day 3) and later absent (Day 7). In contrast, production of A by F5 theca interna cells in the presence of oLH was initially suppressed (Day 3) and then returned to pretreatment levels (Day 7).(ABSTRACT TRUNCATED AT 250 WORDS)

Characterization of dissimilar steroid productions by granulosa, theca interna and theca externa cells during follicular maturation in the turkey (Meleagris gallopavo)

Unlike the established models for steroidogenesis in the rat and human, we have previously demonstrated that in the turkey progesterone (P), androgen (A), and estrodiol (E) are primarily produced by the granulosa, theca interna, and theca externa cells, respectively. In the present study, experiments were conducted to further characterize steroid productions by these cell types during follicular maturation. In Experiments 1 and 2, granulosa cells and theca internal cells, respectively, from the larger (F1) and fifth largest (F5) preovulatory follicles were incubated (1 x 10(5) cells/ml) with ovine luteinizing hormone (oLH) or porcine follicle stimulating hormone (pFSH) for 5 hr. Granulosa production of P from both follicles was stimulated in response to oLH, with both basal and LH-stimulated P production greater in the larger F1 than in the smaller F5 follicle. No A or E production was detected in granulosa cells from either follicle size tested. Theca interna cell productions of P and A were stimulated by oLH in the smaller F5, but not in the larger F1, with both basal and stimulated levels of A greater in F5 than in F1. Medium content of E was non-detectable in cultures of theca interna cells from all follicles tested. In Experiment 3, theca externa cells were incubated (1 x 10(6) cells/ml) from F1 and F5 follicles. The theca interna cells from F5 and the seventh largest follicle (F7) were pooled (1 x 10(5) cells/ml) to provide substrate(s) for theca externa steroidogenesis. Theca externa cells were incubated alone and in combination with the pooled theca interna cells and with or without oLH or pFSH.(ABSTRACT TRUNCATED AT 250 WORDS)

Cloning of a turkey prolactin cDNA: expression of prolactin mRNA throughout the reproductive cycle of the domestic turkey (Meleagris gallopavo)

A cDNA-encoding turkey prolactin (PRL) has been isolated from a turkey pituitary library. The 953-base pair cDNA clone contains a 229-amino acid open reading frame which consists of a 30-amino acid signal peptide followed by a 199-amino acid mature PRL. The deduced amino acid sequence of turkey PRL shows greater than 90% homology to chicken PRL and 54-78% homology to other mammalian prolactins. A mRNA of 1100 nucleotides was detected in total RNA extracted from turkey pituitaries. Levels of PRL mRNA increased approximately 10-, 20-, and 100-fold in photostimulated, laying, and incubating hens, respectively, relative to that found in nonphotostimulated hens. The corresponding increases in plasma PRL levels were 2-, 5.5-, and 50-fold and in pituitary PRL content were 2-, 4-, and 13.4-fold, respectively. The transition from incubation to the photorefractory phase resulted in a 10-fold reduction in PRL mRNA, a 3.7-fold decrease in pituitary PRL, and a dramatic 50-fold decrease in plasma PRL. The changes in the abundance of pituitary PRL mRNA appear to be related to the changes in PRL-releasing activity observed at each of the reproductive stages. This study provides the first characterization of pituitary PRL mRNA and its comparison with plasma and pituitary PRL levels during the avian reproductive cycle.

Sexual differentiation of copulatory behaviour in the male chick requires gonadal steroids

1. Embryonic injections of 0.3 mg/egg of tamoxifen (TAM), 0.2 mg/egg CI-628 (both antioestrogens), 0.5 mg/egg (ATD (aromatisation inhibitor), or antibodies to oestradiol (E), all suppressed male copulatory activity (MCA) in young male chicks. 2. Embryonic injections with either flutamide (F, androgen antagonist) or high dose of antibodies to testosterone (T) only slightly suppressed MCA. 3. TAM had no effect on embryonic plasma LH levels, 24 and 48 h after injection. 4. It seems that at the embryonic stage oestradiol is required for the normal differentiation of MCA.

Effect of diet and population density on male turkeys under various environmental conditions. 1. Turkey growth and health performance

The performance of 1,312 male market turkeys (Large White, Nicholas strain) from 0 to 20 wk of age fed diets varying in feed form and energy level was measured under two stocking densities (.21 or .46 m2 per bird) and four lighting and temperature programs. The four diets were 1) corn and soybean meal with 1% supplemental fat, mash (CSM); 2) as 1, pelleted (CSP); 3) as Diet 1 but with 1, 2, 4, 6, and 8% supplemental fat during 0 to 4, 4 to 8, 8 to 12, 12 to 16, and 16 to 20 wk of age, respectively (CSF); and 4) as Diet 1 but with barely included at 0, 20, 35, 50, and 65% during the respective 4-wk age periods (CSB). The four light and temperature programs were 1) Environment A with intermittent light [4 [2 h light (L):4 h dark (D)]] in combination with cycling temperature at 7 and 21 C during light and dark photoperiod, respectively; Environment B with intermittent light, 21 C; Environment C with continuous light (18L:6D) and cycling temperature of 7 to 21 C; and Environment D with intermittent light, 7 C. Lighting and temperature programs started at 1 and 4 wk of age, respectively. Body weights at 20 wk of age decreased (P less than .05) with increasing temperature (13.86 versus 12.26 kg for Environments D and B, respectively) with cycling temperature intermediate (13.51 kg for Environment A). Intermittent light (P less than .05) improved BW and feed conversion by 3.4 and 2.0%, respectively, compared with continuous light. Rearing males at .21 m2 per bird versus .46 m2 per bird decreased weight (P less than .05) by 5.5%. Twenty-week BW of males fed the CSP (13.52 kg) and CSF (13.58 kg) diets were greater (P less than .05) than those fed CSM (12.90 kg) and CSB (12.69 kg) diets. Significant (P less than .05) interactions between diet, environment, and density were not detected for most performance characteristics. Environmental measurements indicated higher dust and ammonia levels in the warm environment (B). Isolates of aspergillus and incidence of airsacculitis at time of processing were greatest in Environment B.

Effect of diet and population density on male turkeys under various environmental conditions. 2. Body composition and meat yield

Large White Nicholas male turkeys were reared at two stocking densities (.21 or .46 m2 per bird) and fed one of four diets: 1) control corn and soybean (mash) with 1% fat (CSM); 2) as Diet 1, pelleted (CSP); 3) as Diet 1 with supplemental fat increasing from 1 through 8% with age (CSF); and 4) as Diet 1 with barley at 0, 20, 35, 50, and 65% during successive 4-wk periods (CSB). The turkeys were reared in four environments: (A) intermittent light schedule [4(2 h light (L):4 h dark D))] with temperature at 7 or 21 C during light and dark photoperiod, respectively; (B) and (D) with intermittent light (2L:4D) with a constant 21 and 7 C temperatures, respectively; (C) continuous light cycle (18L:6D) with temperatures as in Environment A. At 20 wk of age, two turkeys per replicate pen, were killed for determination of body composition and meat yield. Compared with turkeys fed CSM diet, those on CSF and CSP diet had increased percentage carcass fat. Meat yield per bird and percentage carcass fat were greater for turkeys reared at .46 m2 per bird compared with rearing at .21 m2 per bird. Pelleting and fat supplementation resulted in significantly increased amounts of breast meat and leg compared with CSM. Breast meat yield (percentage) and amount were greater at 7 C (Environment D) than at 21 C (Environment B) and the cycling regimen (Environment A). Percentage abdominal fat was greatest at 7 C. Interactions of environment and diet were detected for breast meat yield percentage (P less than .023) and weight (P less than .036). Diet type had no effect on percentage breast meat or weight in Environment C. An increased amount of breast meat was obtained by feeding CSP in Environments A, B, and D, and dietary fat supplementation increased breast meat yield in Environments A and D over CSM treatment.

Exogenous prolactin delays photo-induced sexual maturity and suppresses ovariectomy-induced luteinizing hormone secretion in the turkey (Meleagris gallopavo)

A direct effect of prolactin (Prl) on gonadotropin secretion has been suggested but not convincingly demonstrated. The secretion of LH in response to photostimulation (phs) and ovariectomy (ovx) was evaluated in adult female turkeys that had received injections of ovine Prl (124 IU/bird/day for 14 days). In experiment 1, oPrl administration initiated on the day of ovx and phs in reproductively quiescent birds suppressed (p less than 0.05) the elevated LH from a peak level of 11.7 +/- 3.5 ng/ml to 5.1 +/- 0.8 ng/ml in ovx hens. The photo-induced LH increase was unaffected by the oPrl treatment in intact birds. In experiment 2, the oPrl treatment was initiated 7 days before ovx and/or phs. This treatment blunted the peak increase in LH level that follows phs in intact (p less than 0.05) and in ovx (p less than 0.05) hens. In both experiments, onset of lay following phs was delayed (p less than 0.05) in the oPrl-treated groups (29.4 +/- 0.9 days vs. 22.3 +/- 0.9 days; 34.8 +/- 0.5 days vs. 25.0 +/- 0.9 days). In experiment 3, administration of oPrl after ovx of laying hens suppressed the LH rise at essentially all sampling times tested. At the end of the experimental period, 6 of the 7 sham-operated, oPrl-treated laying hens, but none of the sham controls, displayed incubation behavior and had Prl levels of 1020 +/- 370 ng/ml compared to 34 +/- 7 ng/ml in vehicle-treated controls. The results suggest a role for Prl in incubation behavior and LH secretion in the turkey.

Intracranial prolactin perfusion induces incubation behavior in turkey hens

Intracranial perfusion of ovine prolactin (oPrl) via osmotic pump in laying turkey hens caused a sudden onset in incubation behavior, defined as an increase in nest visits. The hens also displayed a gradual decrease in egg laying during the time they were receiving oPrl, another indicator of the onset of incubation. Circulating immunoreactive turkey Prl levels fell during the perfusion period, even though the hens were displaying persistent nesting activity and reduced egg laying. No effects on serum LH were noted. Perfusion of oPrl during the first 14 days of photostimulation delayed the onset of egg laying by several days. No effects on serum Prl or serum LH were noted. It is suggested that incubation behavior is facilitated by central levels of Prl.

Protein and energy self-selection of turkey hens. Serum prolactin and luteinizing hormone concentrations

1. The incidence of broodiness was four times as high among turkey hens fed a complete control diet than among hens allowed to self-select their diet from two different feed sources, one being relatively high in protein and the other relatively high in energy (i.e. split-diet). 2. Among non-broody birds, hens fed the split-diet had a significantly lower serum prolactin concentration in the third month of production as compared to control hens. 3. Hens in their second season of egg production had significantly lower serum luteinizing hormone concentrations during the latter stages of egg production than did first season hens.

Magnesium-aspartate-hydrochloride reduces weight loss in heat-stressed laying hens

Two separate experiments were conducted to determine the ability of magnesium aspartate hydrochloride (Mg-Asp-HCl) to antagonize the effects of thermal stress in laying hens. In both experiments, hens were exposed to either a cyclic ambient temperature of 27 C to 35 C (hyperthermic group) or 23 C (control group) for 7 days. In Experiment 1, hens were given a single injection of either saline, 40 mg, or 80 mg Mg-Asp-HCl. Experiment 2 hens received a single injection of saline, 40 mg Mg-Asp-HCl, or twice daily injection of 40 mg Mg-Asp-HCl. In both experiments, heat-stressed hens had elevated body temperature and reduced body weight, feed consumption, and circulating mean Mg concentrations. Hyperthermic hens also had reduced egg weights in Experiment 1. A single daily injection of 40 mg of Mg-Asp-HCl significantly reduced body weight loss in heat stressed hens by 41 and 51%, in Experiment 1 and 2, respectively, when compared with heat-stressed hens not receiving Mg-Asp-HCl (controls). The Mg-Asp-HCl treatment did not affect overall feed intake, egg production, or body temperature in either experiment. The highest dose of Mg-Asp-HCl (80 mg) elevated circulating magnesium concentrations. A single daily injection of 80 mg of Mg-Asp-HCl or twice daily injections of 40 mg Mg-Asp-HCl did not provide any additional benefit when compared with a single daily dose of 40 mg. The antistress effects of Mg-Asp-HCl are apparent in these experiments as evidenced by the increased body weight of heat-stressed hens. Use of this compound may prove to be beneficial in maintaining the performance characteristics of poultry exposed to elevated ambient temperature.

Enhanced vasoactive intestinal peptide-induced prolactin secretion from anterior pituitary cells of incubating turkeys (Meleagris gallopavo)

During incubation, female turkeys exhibit elevated circulating prolactin (PRL) which may be the result of enhanced pituitary responsiveness to vasoactive intestinal peptide (VIP). This hypothesis was tested by comparison of spontaneous and porcine VIP-induced PRL secretion from anterior pituitary cells of hens in various reproductive conditions. The effect of VIP and luteinizing hormone releasing hormone (LHRH), alone and in combination, on luteinizing hormone (LH) secretion was also examined. Incubation with pVIP (10(-10) to 10(-6) M) significantly stimulated PRL secretion at all incubation times tested (1-5 hr). This increase was greatest in cells from incubating hens, with those from laying, photorefractory, and quiescent (nonphotostimulated) hens secreting successively less PRL. These responses were obtained when spontaneous PRL secretions were compared. VIP induced approximately a similar 1.5-fold increase in LH secretion, in all reproductive groups. Also, VIP enhanced LHRH-induced LH secretion (1.2- to 1.6-fold; P less than 0.0001). It is concluded that PRL secretion in vitro by pituitary cells from turkey hens in various reproductive stages reflects the circulating levels of PRL at these stages.

Vasoactive intestinal peptide is a hypothalamic prolactin-releasing neuropeptide in the turkey (Meleagris gallopavo)

The hypothesis that vasoactive intestinal peptide (VIP) functions as a hypothalamic prolactin (PRL)-releasing peptide in the turkey was tested by determining the effects of hypothalamic VIP immunoneutralization and pituitary VIP receptor blockade on hypothalamic extract (HE)-induced PRL secretion from dispersed anterior pituitaries. Incubation of cells with porcine VIP (pVIP; 0.5 or 10 nM) significantly stimulated PRL secretion. This effect was inhibited in a dose-related manner by 1-hr preincubation of pVIP with a VIP antisera (A/S; 1:500-1:50,000). Likewise, HE (0.3 equivalent)-stimulated PRL secretion was inhibited by preincubation with VIP A/S (P less than 0.0001). A 96-98% reduction in PRL secretion was obtained from cells cultured with HE, that was previously incubated with 1/500 dilution of antiserum. Pretreatment of pituitary cells for 15 min with [4Cl-D-Phe6,Leu17] VIP, a VIP receptor antagonist (10(-5) M), significantly depressed the PRL response to 0.5 nM VIP (9.9 +/- 0.5 micrograms/500,000 cells vs 4.9 +/- 0.1 micrograms/500,000 cells; 22.4 +/- 0.9 micrograms/500,000 cells vs 14.7 +/- 0.4 micrograms/500,000 cells) or 0.3 eq HE (8.8 +/- 0.6 micrograms/500,000 cells vs 5.2 +/- 0.2 micrograms/500,000 cells; 15.3 +/- 0.3 micrograms/500,000 cells vs 8.2 +/- 0.2 micrograms/500,000 cells). These results suggest that hypothalamic stimulation of PRL secretion appears to be mediated by receptors specific for VIP and that VIP is an endogenous hypothalamic PRL-releasing peptide in the turkey.

Alterations in hypothalamic vasoactive intestinal peptide-like immunoreactivity are associated with reproduction and prolactin release in the female turkey

Vasoactive intestinal peptide (VIP) has potent PRL-releasing activity, but its physiological role in the regulation of PRL release during the avian reproductive cycle is not known. We used indirect immunofluorescence to determine if changes in hypothalamic VIP are associated with the shifts in circulating PRL during the reproductive cycle of the domestic turkey. In the naturally hyperprolactinemic incubating hen, the majority of VIP immunoreactivity (VIP-IR) existed within neurons of the infundibular nuclear complex (INF) and fibers in the external layer of the median eminence. Within the INF, the numbers of VIP-IR cells increased during the cycle, paralleling increases in serum PRL. In the reproductively inactive, nonphotostimulated hen with low serum PRL, essentially no positive cells were noted, whereas the incubating hen exhibited 32.1 +/- 2.2 cells/pair of adjacent sections in the anterior INF and 59.6 +/- 2.0 cells in the posterior INF. Exposure of inactive hens to a stimulatory photoperiod resulted in a 2.6-fold increase in serum PRL with the appearance of VIP-IR cells in the INF. During laying and incubation, further increases were observed in the number of positive cells in the INF and serum PRL as well as a greater fiber density in the median eminence. To further examine the association between changes in VIP-IR and serum PRL, circulating PRL was artificially lowered by depriving incubating hens of their nests for 0, 2, 5, and 10 days. On day 2 of nest deprivation, serum PRL declined markedly to 12% of day 0 levels, with VIP-IR cell numbers at 64% and 46% in the anterior and posterior INF, respectively. By day 10, birds exhibited cell numbers in the INF averaging 20% of those observed in the day 0 incubating hens, with serum PRL at 6% of day 0 levels. The results of these studies indicate a possible causal relationship between hypothalamic VIP and changes in PRL secretion during the avian reproductive cycle, providing a basis for further research on the importance of this peptide as well as factors responsible for the modulation of its expression in hypothalamic INF neurons.

Effects of preoptic and hypothalamic lesions in female turkeys during a photoinduced reproductive cycle

Prolactin (Prl) is released by electrical stimulation in the turkey hypothalamus and preoptic area (POA). Possible trajectories for POA efferents to the median eminence (ME) were tested by placing lesions in the POA, the lateral hypothalamus (LHy), or the ventromedial nucleus of the hypothalamus (VMN) of reproductively quiescent turkey hens, then subjecting them to long photoperiods while monitoring their blood Prl levels and nesting activities. In addition, lesions were made in the VMN of a group of incubating hens to learn whether the lesions would cause the elevated Prl levels to fall or interfere with incubation behavior. Lesions in medial POA, LHy, or VMN prevented the onset of incubation and prevented the large rise in Prl associated with it. However, these lesions did not interfere with the initial, more gradual Prl rise caused by increasing daylengths. Lesions in LHy or VMN appeared to interfere with a pathway lying laterally from POA to ME. Electrical stimulation in medial POA, which caused an increase in circulating Prl, failed to do so in hens with LHy or VMN lesions. Lesions in the VMN of incubating hens caused them to leave the nest and suffer a large decline in Prl, both within 48 h. It is tentatively suggested that incubation behavior and its associated elevated Prl are prevented by the POA lesions and that lesions in LHy or VMN, which mimic POA lesion effects, interfere with POA efferents projecting to ME.

Testosterone-induced inhibition of incubation in the spotted sandpiper (Actitis mecularia)

The spotted sandpiper (Actitis macularia) is characterized by intense female intrasexual competition and predominantly male parental care. Females often are polyandrous. Incubating males were implanted with testosterone (T)-filled Silastic tubes. Plasma T levels were significantly elevated by T implants while prolactin (Prl) remained unchanged. Birds implanted with T deserted clutches (30%) or exhibited reduced incubation constancy (50%) while controls incubated normally. The T implants appeared to heighten sexual receptivity and hence reduce incubation constancy. Variation in male incubation behavior may have been further influenced by the degree to which males were exposed to courting females.

Differential steroid production between theca interna and theca externa cells: a three-cell model for follicular steroidogenesis in avian species

In avian species, the granulosa cells produce progesterone (P), but not testosterone (T) or estradiol (E). The theca folliculi in avian species produces T and E and is anatomically comprised of the theca interna and the theca externa. It is not known, however, whether both T and E are produced by the same cell type. In the present study, preovulatory follicles of adult female turkeys were separated into their anatomical subdivisions, the granulosa, theca interna, and theca externa, and the relative steroidogenic contribution by each layer was investigated. Granulosa cells from the largest (F1) and fifth largest (F5) preovulatory follicles produced increasing levels of P in response to ovine LH (oLH; 0-10 micrograms/ml); however, T and E were not detectable. Theca interna and theca externa cells from F5 follicles were cultured alone or in combination. Theca interna cells produced P and T, but not E. Theca externa cells produced P, T, and E. E production was greatly enhanced by coincubation of cells from the two theca layers. oLH, (0-100 ng/ml) stimulated theca interna P and T production and E production by the coincubation of theca interna and theca externa cells. When theca interna and theca externa cells from the F1 and F5 follicles were tested, theca externa cells from F5, but not F1, converted androstenedione and T, but not P into E, indicating a loss of aromatase activity in the theca externa with follicular maturation. Neither F1 nor F5 theca interna cells converted P, A, or T into estradiol, providing additional evidence that aromatase activity is limited exclusively to the theca externa. Addition of oLH (0-100 ng/ml) did not increase conversion of T into E by the F5 theca externa cells, suggesting that production of E by the theca externa is substrate driven and not influenced by direct LH action. Avian ovarian steroidogenesis is described using a three-cell model, with the principle sources of P, T, and E being the granulosa, theca interna, and theca externa cells, respectively.

Embryonic sex steroids affect mating behavior and plasma LH in adult chickens

Chicken embryos of both sexes were treated with either antiestrogen (tamoxifen = T), antiandrogen (flutamide = F), aromatization inhibitor (ATD = A), estradiol (E), or oil (control = C). Before puberty, some males of each group were castrated. At puberty, birds were tested under the following regimes: castrated males injected daily with testosterone propionate (CAS + TP) or estradiol benzoate (CAS + EB), intact males (M-INT), intact females (F-INT), and females injected daily with TP (F-TP). In the M-INT and CAS + TP males, E treatment suppressed masculine mating behavior. The embryonic treatments with T, F, and A demasculinized only the frequency of copulations. None of the antihormone treatments caused any masculinization of the sexual activity in the F-TP birds. Untreated males had higher plasma LH than females. The embryonic treatment with E reduced (feminized) the LH levels in CAS + EB birds. This effect was less pronounced in M-INT birds. The results suggest that in chickens, estradiol plays a role in the masculinization of copulatory behavior potential in the developing male embryo. High embryonic estradiol reduces the potential for displaying male sexual behavior at puberty. Feminization of LH secretion requires a high level of estradiol in both embryonic and adult life.

Enhanced progesterone and testosterone secretion and depressed estradiol secretion in vitro from small white follicle cells of incubating turkey hens

This study was conducted to determine if lower steroid secretion by the small white follicles in incubating turkey hens contributes to lower circulating steroid concentrations during this time. Turkey hens were grouped as either laying or incubating. Serum samples and the ovarian small white follicles (SWF; 2-7 mm diameter) were collected from each hen. The SWF were pooled for each group and their cells were dispersed by trypsin digestion. Serum-luteinizing hormone (LH), progesterone (P), testosterone (T), and estradiol (E) concentrations were lower and serum prolactin concentration was higher during incubation than during egg laying. SWF cells from incubating hens secreted more P and T and less E in response to ovine luteinizing hormone (oLH) than did similar cell suspensions from laying hens. The incubating hens' SWF cells' capacity to secrete E but not their capacity to secrete P or T in vitro is consistent with the observed circulating levels. It is hypothesized that lower levels of circulating LH and/or higher levels of prolactin found in incubating hens may have a depressing effect on aromatase activity and/or an up-regulating effect on LH-induced P and T secretion by the SWF cells.

Pineal and ocular influences on male and female turkeys: plasma luteinizing hormone and prolactin levels during gonadal development

Plasma levels of prolactin (PRL) and luteinizing hormone (LH) were determined in pinealectomized (PX) and/or bilateral ocular enucleated (EX) turkey hens and toms during gonadal development. Measurements were obtained weekly for 6 weeks following photo-induced ovarian recrudescence in adult hens and biweekly from 12 to 34 weeks of age in sexually developing toms. Both hens and toms were maintained on a photoperiod of 16L:8D. Plasma PRL levels were significantly correlated with time (P less than 0.01) and were linear with significant slopes (P less than 0.01) in all treatment groups of hens and toms. However, the regression coefficients were positive for the hens and negative for the toms. Both PX and EX reduced PRL levels in the hens. PX did not significantly affect PRL levels of toms but EX depressed PRL levels. In hens LH was not correlated with weeks of photostimulation but in toms LH was positively correlated to age and linear with significant slopes in all treatment groups. There were no significant treatment effects on plasma LH levels of hens or toms. It was concluded that neither the pineal gland nor the eyes affect plasma LH levels of male turkeys during testicular development or female turkeys during photostimulated ovarian recrudescence. Although the eyes affected plasma PRL of both males and females during gonadal development, the pineal only influenced female PRL levels.

Plasma LH and prolactin levels during the reproductive cycle of the cockatiel (Nymphicus hollandicus)

Plasma-luteinizing hormone (LH) and prolactin (Prl) levels were determined using radioimmunoassay during two reproductive cycles in captive cockatiels (Nymphicus hollandicus)--an altricial species in which both parents share incubation and care of young. Birds were stimulated to breed by increasing daylength, light intensity, ambient temperature, and presenting nest boxes. LH levels were elevated during the time of nest inspection in females and peaked during egg laying. In contrast, LH levels were highest in males during nest inspection but were lower during egg laying. In both sexes, LH continued to decline during incubation and care of the young but rose in pairs laying a second clutch. Female and male Prl levels increased during egg laying, peaked during incubation, then declined to egg-laying levels during the nestling stage. Prl continued to decline during the fledgling stage and reached prelaying levels unless a second clutch was begun. In conclusion, in cockatiels, nest inspection and laying are characterized by high LH levels while high Prl levels occur during incubation and feeding of nestlings in both males and females.