Protein free diet feeding: effects on sympathetic activity and salivary evoked secretion in the submandibular gland of the rat.

Protein restriction impairs the salivary flow rate and composition in human and rats. The aim of the present work was to establish the effect of low protein (casein 5%) and protein free (casein 0%) isocaloric diets on sympathetic activity and salivary evoked secretion in the submandibular gland (SMG) of the rat. After 21 days, rats fed casein 0% presented: (a) a significant shift to the left of the dose-response curves (DRC) to the autonomic agonists-norepinephrine (NE), methoxamine, isoproterenol (ISO) and methacholine; (b) increased food consumption (p<0.001); (c) decreased body (p<0.001) and SMG (p<0.001) weights maintaining SMG/body (w/w) relation; (d) enhanced submandibular alpha1-adrenoceptor number without changes in the apparent dissociation constant (Kd); (e) increased submandibular NE content (p<0.05) and phosphoinositoside hydrolysis (p<0.001); (f) decreased submandibular tyrosine hydroxylase activity (TH) (p<0.01). Casein 5% feeding increased food consumption (p<0.01) and reduced body weight (p<0.05). This protein restriction increased metacholine-evoked salivation, but it altered neither submandibular sympathetic activity nor sympathetic-induced salivary secretion as compared to the Control group (C) fed a similar diet containing 25.5% protein. Present results suggest that in the adult rat, a protein free diet during 21 days lowers SMG sympathetic and cholinergic activity leading to supersensitivity as revealed by up-regulation of alpha1-adrenergic receptor number and increased autonomic-evoked salivation.

Prolactin inhibition by p-tyramine in the male rat: site of action.

In a previous report, a consistent hypoprolactinemic effect of p-tyramine was observed in male rats under several experimental conditions in vivo. In the present experiments the action of p-tyramine on PRL release in vitro, or after challenge with different hyperprolactinemic drugs (serotonin, morphine, and TRH) was tested. Furthermore the participation of octopamine, a metabolite of tyramine, was evaluated with regard to the hypoprolactinemic action of the amine. P-Tyramine inhibited PRL release from hemipituitaries incubated in vitro at doses of 10(-4) and 10(-6) M (inhibition to 31% and 59% of control values, respectively). When tested for its ability to displace [3H]spiperone binding in vitro to a crude fraction of anterior pituitary membranes it was found that it did not compete with the D2 receptor labeled by [3H]spiperone, even at the concentration of 10(-4) M. P-Tyramine (40 mg/kg) antagonized the elevation of serum PRL levels by morphine, serotonin, and TRH. On the other hand, octopamine, which is formed from tyramine, also inhibited high PRL values found after stress, though the effective dose was higher than that of tyramine. Pretreatment with diethyldithiocarbanic acid, which inhibits conversion of p-tyramine to octopamine, did not modify the effect of tyramine in stress. The present results indicate that tyramine can inhibit PRL release due to certain drugs, by acting directly at the pituitary level. It does not displace [3H]spiperone binding from anterior pituitary membranes, and octopamine which lowers PRL release itself, cannot account for the effect of tyramine.

[3H]Dihydroergocryptine binding in anterior pituitary and prolactin secretion: further evidence of brain regulation of adenohypophyseal receptors.

Secretion of PRL by the pituitary gland is under tonic inhibitory control by tuberoinfundibular dopaminergic neurons. The aim of the present work was to assess the influence of the hypothalamus on the binding of [3H]dihydroergocryptine, a dopamine agonist, in the adenohypophysis and its role in the hypoprolactinemic action of exogenous dopamine. Serum PRL levels were elevated in ovariectomized adult rats with electrolytic lesions of the median eminence compared to levels in sham-operated animals; [3H]dihydroergocryptine binding to anterior pituitary was elevated from a control value of 161.2 +/- 7.7 to 229.0 +/- 10.0 fmol/mg protein in rats studied 7-21 days after placement of the lesion (P < 0.05). Scatchard analysis of [3H]dihydroergocryptine binding in lesioned and sham-operated animals indicated an increase of 62% in the number of binding sites without a change in binding affinity. In a second group of rats, with or without median eminence destruction, the effects of different doses of ip dopamine on serum PRL were determined. The hypoprolactinemic effect of each dose of the amine was more evident in median eminence-lesioned rats than in sham-operated controls. These results suggest that when hypothalamic influences on the anterior pituitary are removed, there is increased binding of dopamine by the gland and increased hypoprolactinemic effects of the exogenous amine. This indicates that receptors in the pituitary are under hypothalamic control, and this could be an important regulatory mechanism in neuroendocrine events.

Inhibition of human platelet aggregation and thromboxane-B2 production by melatonin: evidence for a diurnal variation.

The effects of melatonin on platelet aggregation and thromboxane-B2 (TxB2) production induced by 1-4 x 10(-6) M adenosine diphosphate (ADP) or 0.6 x 10(-3) M arachidonic acid (AA) were assessed in platelet-rich plasma (PRP). Micromolar concentrations of melatonin inhibited in a dose-dependent way ADP-induced platelet aggregation with individual inhibitions 40% or more at 10(-6)-10(-5) M. A significant depression of AA-induced platelet aggregation was observed only at 10(-5)-10(-4) M melatonin. Morning (0830 h)-evening (1800 h) studies of ADP-induced platelet aggregation in seven normal men showed a higher sensitivity at 1800 h when analyzed as a global inhibitory effect of melatonin (P less than 0.01). Moreover, only during the evening hours did melatonin induce reversible aggregation, an index of inhibition of the platelet secretory process elicited by ADP exposure. No diurnal variability in melatonin inhibition of AA-induced aggregation was detected. TxB2 production elicited by AA in the evening was inhibited significantly in a concentration-related manner by a 2-min preincubation with 10(-9)-10(-5) M melatonin, while during the morning hours the inhibition was significant only at 10(-6) M or higher melatonin concentrations. In the case of ADP, the inhibition of TxB2 release attained significance at 10(-5)-M (0830 h) or 10(-6)-M concentrations (1800 h). In the presence of either stimulatory agent, melatonin depression of TxB2 generation was about 2-fold greater at 1800 h than at 0830 h. The diurnal changes in melatonin effect on TxB2 production were also observed in thrombin-stimulated washed platelets. The present data indicate the existence of circadian variations in platelet responsiveness to melatonin in humans.

Effect of pentoxifylline on alpha- and beta-adrenoceptor sites in cerebral cortex medial basal hypothalamus and pineal gland of the rat.

The intraperitoneal injection of the methylxanthine derivative pentoxifylline (3,7-dimethyl-1-(5-oxo-hexyl)-xanthine] brought about, 3 hr later, a significant depression of alpha- and beta-adrenoceptor sites in the cerebral cortex, and of beta-adrenoceptor sites in medial basal hypothalamus and pineal gland, (assessed from the specific binding of radioactive dihydroergocryptine and dihydroalprenolol respectively). The changes in the density of binding sites were not accompanied by significant modifications of the Kd's. Sympathetic denervation of the pineal gland by superior cervical ganglionectomy (SCGx) abolished the changes of beta-adrenoceptor number in the pineal caused by pentoxifylline. The increase of alpha-adrenoceptor sites in the hypothalamus brought about by ganglionectomy was not affected by injection of pentoxifylline. Pentoxifylline did not compete in vitro for radioligand binding to brain membranes. These results suggest that methylxanthines depress brain adrenoceptor sites acutely, probably by down-regulation of receptors following the increase in catecholamine release caused by injection of the drug.

In vitro effects of adenohypophysial hormones on rat pineal melatonin content and release.

The effect of adenohypophysial hormones on rat pineal melatonin content and release was examined in vitro. Medium concentration of radioimmunoassayable melatonin decreased after a 6 h exposure to 1-100 ng/ml FSH; pineal levels of melatonin were only decreased by 100 ng/ml FSH. LH (1-100 ng/ml) augmented significantly medium melatonin concentration, tissue levels being increased at 10 ng/ml LH. Parallel increases of explant and medium melatonin content were found after exposure to 1-100 ng/ml TSH. At the smallest concentration employed (1 ng/ml) prolactin increased melatonin content and release while at 100 ng/ml a significant depression of both parameters was found. Growth hormone (1-10 ng/ml) augmented melatonin levels in medium but failed to modify them at 100 ng/ml, although at this concentration tissue melatonin levels increased. ACTH did not modify pineal melatonin synthesis in vitro.

Neurotransmitter-controlled steroid hormone receptors in the central nervous system.

Results are discussed indicating that neurotransmitters affect steroid hormone activity not only by controlling via neuroendocrine events the hypophysial-gonadal and hypophysial-adrenal axes, but also by modulating cell responsiveness to steroids in target cells. Hyper- or hypoactivity of pineal nerves result in enhancement or impairment of estradiol and testosterone effects on pineal metabolism in vivo and in vitro. Pineal cytoplasmic and nuclear estrogen and androgen receptors are modulated by norepinephrine released from nerve endings at the pinealocyte level. Neural activity affects the cycle of depletion-replenishment of pineal estrogen receptors following estradiol administration. Another site of modulation of steroid effects on the pinealocytes is the intracellular metabolism of testosterone and progesterone; nerve activity has a positive effect on testosterone aromatization and a negative effect on testosterone and progesterone 5?-reduction. NE activity on the pineal cells is mediated via ?-adrenoceptors and cAMP. In the central nervous system information on the neurotransmitter modulation of steroid hormone action includes the following observations: (a) hypothalamic deafferentation depresses estrogen receptor levels in rat medial basal hypothalamus; (b) changes in noradrenergic transmission affect, via ?-adrenoceptors, the estradiol-induced increase of cytosol progestin receptor concentration in guinea pig hypothalamus; (c) cAMP increases testosterone aromatization in cultured neurons from turtle brain; (d) electrical stimulation of dorsal hippocampus augments, and reserpine or 6-hydroxydopamine treatment decrease, corticoid binding in cat hypothalamus. In the adenohypophysis changes in dopaminergic input after median eminence lesions or bromocriptine treatment of rats result in opposite modifications of pituitary estrogen receptor levels. Therefore all these observations support the view that neurotransmitters can modulate the attachment of steroid hormones to their receptors in target cells.

Pineal methoxyindoles depress calcium uptake by rat brain synaptosomes.

The effect of several pineal methoxyindoles on 45Ca2+-uptake was examined in a crude synaptosome preparation from adult rat brains. 5-Methoxytryptol, 5-methoxytryptamine, melatonin and 6-chloromelatonin (10(-8)-10(-6) M) depressed significantly the K+-stimulated increase in Ca2+-uptake, without affecting the basal, unstimulated Ca2+-uptake by synaptosomes. At 10(-6) M concentration the following order of potency was found: 6-chloromelatonin greater than or equal to 5-methoxytryptamine greater than 5-methoxytryptophol greater than or equal to melatonin. Serotonin did not affect significantly either basal or stimulated Ca2+-uptake.

Melatonin increases cGMP and decreases cAMP levels in rat medial basal hypothalamus in vitro.

Measurement of cyclic nucleotide accumulation in rat medial basal hypothalamus (MBH) incubated in vitro with methoxyindoles indicated that melatonin (10(-8) M or greater) increased significantly cGMP and depressed cAMP levels. Only the effect on MBH cAMP was shared by 5-methoxytryptophol which exhibited a greater activity than melatonin. 6-Fluoromelatonin (10(-7) M) increased cGMP, whereas the effect of 6-hydroxymelatonin was not significant. Both 6-fluoro- and 6-hydroxymelatonin (10(-5) M) depressed MBH cAMP accumulation while only 6-fluoromelatonin affected it at 10(-7) M concentrations. These data suggest that melatonin and 5-methoxytryptophol affect differently cyclic nucleotide content of MBH at physiological concentrations.

Changes in growth hormone and prolactin release after superior cervical ganglionectomy of rats.

Superior cervical ganglionectomy (SCG X) decreased significantly serum growth hormone (GH) levels in rats 14-96 h after surgery, during and immediately after anterograde degeneration of regional sympathetic terminals. At later times (up to 28 days after SCG X) an increase in serum GH was observed. SCG X augments prolactin (PRL) release, but only at the earliest time examined (14 h after surgery). Injection of the alpha-adrenoceptor blocker, phenoxybenzamine, but not of the beta-blocker, propranolol, negated the depression in serum GH found in SCG X rats 14 h after surgery, without affecting PRL release.

A developmental study of adenohypophyseal dopaminergic receptors and of haloperidol-induced prolactin release in rats.

The ontogenesis of adenohypophyseal dopamine receptors, assessed by haloperidol-displaceable [3H]didydroergocryptine (DHE) binding of 1-, 12-, 20-, 28-day-old female rats was studied in correlation with the prolactin releasing effect of haloperidol (1 mg/kg), a dopaminergic antagonist. A specific dopaminergic receptor could be quantified at the time of birth (Bmax = 2.5 +/- 0.5 fmol/mg; Kd = 1.5 +/- 0.2 microM), anterior pituitary receptor density (fmol bound/mg) increased non-significantly henceforth and a slight ontogenic increase of Kd values was also observed. Haloperidol failed to increase prolactin in newborn female rats; at 4 days, a significant increase was evidenced, and from then onwards the response rose markedly with age. As sex differences in the dopaminergic modulation of prolactin release have been documented, the hyperprolactinemic effect of haloperidol in correlation with [3H]DHE binding in anterior pituitary of 28-day-old female and male rats was studied. Though the prolactinemic increment achieved by haloperidol was significantly higher in female than in male rats, [3H]DHE binding was not statistically different between sexes. These data indicate: (a) a specific binding site for [3H]DHE in anterior pituitary of female rats is present from the first postnatal days. From then onwards, a gradual but slight increment in both, Bmax and Kd for the dopaminergic agonist is observed until puberty; (b) at 28 days, no clear difference in Bmax and Kd is present in [3H]DHE binding between male and female rats; (c) by contrast, haloperidol shows a prolactin releasing effect that increases markedly with age in the female.(ABSTRACT TRUNCATED AT 250 WORDS)

Melatonin, 5-methoxytryptamine and some of their analogs as cyclo-oxygenase inhibitors in rat medial basal hypothalamus.

Melatonin, and its analogs 6-chloro- and 6-fluoromelatonin inhibited in a dose-dependent way (10(-8)-10(-5) M) labeled prostaglandin (PG) E2, PGF2 alpha, thromboxane (Tx) B2 and 6-keto-PGF1 alpha production from [14C]arachidonate by rat medial basal hypothalamus (MBH). 5-Methoxytryptamine also depressed arachidonate metabolism; at 10(-8) M concentrations the effect of 5-methoxytryptamine on PGE2, PGF2 alpha and TxB2 synthesis (93-96% inhibition), and 6-keto-PGF1 alpha (75% inhibition) was greater than that observed for melatonin (51-56% and 44% inhibition, respectively). Neither 6-hydroxymelatonin nor serotonin affected MBH cyclo-oxygenase pathway in vitro.

Acute superior cervical ganglionectomy depresses the postcastration rise of gonadotropins in male rats.

In male rats, superior cervical ganglionectomy (SCGx) delayed the rise of serum FSH and LH induced by orchidectomy by 24 h. SCGx resulted in a decrease of median eminence norepinephrine (NE) content 16 h after surgery and in an increase of medio-basal hypothalamic cAMP synthesis and receptor occupancy. These data indicate that NE release from degenerating terminals originating in the superior cervical ganglion neurons modifies the regulatory mechanisms controlling the rise of gonadotropins after orchidectomy in rats.

Diurnal changes in melatonin binding sites of hamster and rat brains. Correlations with neuroendocrine responsiveness to melatonin.

A diurnal variation in neuroendocrine sensitivity to melatonin is known to occur in hamsters and rats. The present experiments were carried out to examine the possibility that affinity and/or number of melatonin binding sites in brain could change accordingly at the two times when exogenous melatonin is known to be ineffective or effective to produce neuroendocrine changes, i.e., at 07 : 00 or 20 : 00 h (lights on from 07 : 00 to 21 : 00 h daily). The number of melatonin binding sites in hamster and rat brains was at 20 : 00 h 34--56% higher than at 07 : 00 h, without changing their affinity towards [3H]melatonin (hamster: Kd = 53 nM; rat: Kd = 73--77 nM). These alterations in melatonin receptor density may play a role in daily changes in sensitivity to the exogenous methoxyindole.

Effect of estradiol on alpha- and beta-adrenoceptor density in medial basal hypothalamus, cerebral cortex and pineal gland of ovariectomized rats.

Estradiol treatment of ovariectomized rats resulted in a significant increase in beta-adrenoceptor density in the medial basal hypothalamus (MBH) without affecting the affinity for the radioactive ligand. Neither MBH alpha-adrenoceptors nor alpha- or beta-adrenoceptors in the cerebral cortex, or beta-adrenoceptors in the pineal gland, were affected by estradiol injection.

Feedback control of pineal function by reproductive hormones--a neuroendocrine paradigm.

Secretions from the pineal gland participate in the control of reproductive function. In turn gonadal steroids, gonadotrophins and prolactin modify pineal metabolic activity and change the rate of synthesis of pineal hormones. The article reviews the major observations made regarding the pineal gland and its innervating neurons as target tissues for reproductive steroid and hypophyseal hormones.

Daily changes in beta-adrenergic sensitivity of rat submandibular gland. Correlation with beta-adrenoceptor rhythm.

Neurons from the superior cervical ganglia (SCG) innervate the submandibular gland and release noradrenaline during the dark phase of the daily photoperiod. Since in the pineal, another structure innervated by sympathetic neurons, nocturnal activation of the SCG is associated with beta-adrenergic sub- and super-sensitivity rhythms, the possible existence of similar phenomena in the rat submandibular gland was assessed. Wistar female rats, kept on a 14:10 light/dark cycle (light from 06:00 to 20:00 h), were sacrificed at 09:00, 14:00, 20:00, 24:00 and 04:00 h. beta-Adrenoceptors were studied by 3H-dihydroalprenolol binding to membrane preparations. The equilibrium dissociation constant (Kd) did not change as a function of time while significant daily variations in maximal binding values (Bmax) were observed with a peak at 20:00 h. Changes in Bmax correlated with a high response of adenylate cyclase to isoproterenol. In addition, when the response in salivary flow to isoproterenol was measured. a shift to the left (about 1 logarithmic unit) in dose-response curves was observed at 19:00-20:00 has compared to 08:00-09:00 h. These daily variations in isoproterenol responsiveness seem not to depend on the pattern of eating since a 24-h starvation or a nocturnal starvation for 16-18 days did not abolish the morning-evening differences in the salivary flow response to isoproterenol. Rather, the results suggest that the daily variations in isoproterenol response correlate with beta-adrenergic super- and sub-sensitivity phenomena associated with the circadian release of noradrenaline from SCG neurons.