Neuropeptides and thermoregulation: the interactions of bombesin, neurotensin, TRH, somatostatin, naloxone and prostaglandins

In this study we have examined the interactions of bombesin (1 microgram ICV), neurotensin (1 microgram ICV), TRH (10 micrograms ICV), somatostatin (10 micrograms ICV), PGE2 (10 micrograms ICV) and naloxone (10 mg/kg SC) on thermoregulation in the rat at room temperature (20 +/- 1 degree C). Given alone, bombesin, neurotensin, somatostatin and naloxone all produced hypothermia (bombesin greater than neurotensin greater than somatostatin congruent to naloxone). PGE2 was hyperthermic, and TRH had no effect. Bombesin and PGE2 neutralized one another's effects. Neurotensin had no effect on PGE2-induced hyperthermia. Naloxone enhanced the hypothermic effect of bombesin and somatostatin enhanced the rate of onset of hypothermia after bombesin. TRH had no effect on bombesin-induced hypothermia. TRH, somatostatin and naloxone had no effect on neurotensin-induced hypothermia. TRH antagonized the hypothermia due to naloxone and somatostatin.     

Species-specific effects of bombesin on gastric emptying and neurohypophyseal secretion

Previous reports have demonstrated that systemic injection of cholecystokinin (CCK) in rats produces dose-related decreases in food intake, increases in neurohypophyseal secretion of oxytocin (OT), and decreases in gastric emptying. The present studies determined whether systemic injection of bombesin (BBS), another peptide that potently reduces food intake in rats, had similar effects on OT secretion and gastric emptying. Although BBS produces a dose-dependent inhibition of food intake, even very high doses did not significantly affect plasma OT levels and only slightly decreased rates of gastric emptying. Consequently, despite their similar inhibitory effects on food intake, BBS does not appear to activate the same network of central nervous system pathways as does CCK in rats. However, parallel studies in monkeys demonstrated that systemic injection of BBS was effective in stimulating neurohypophyseal secretion of vasopressin rather than OT, in a pattern both qualitatively and quantitatively analogous to the effects of CCK in this species. Together with previous findings that BBS more potently inhibits gastric emptying in primates than in rats, these results therefore also suggest the presence of significant species differences in the central mechanisms by which BBS acts to reduce food intake.     

Oxytocin, oxytocin antagonist, TRH, and hypothalamic paraventricular nucleus stimulation effects on gastric motility

The roles of thyrotropin releasing hormone (TRH) and oxytocin as central regulators of gastric motility were investigated. Picomolar (4 picomoles) quantities of TRH injected into the dorsal motor nucleus of the vagus (DMN) elicited a significant increase in gastric motility while the same quantity of oxytocin elicited a reduction in phasic contractile activity and tone. The action of these peptides mimics the excitatory and inhibitory effects of stimulating the paraventricular nucleus of the hypothalamus (PVN); it is likely that this hypothalamic structure regulates gastric function through its peptidergic connections with medullary vagal structures. This hypothesis is supported by our observations that injections of an oxytocin antagonist into the DMN produced a disinhibition of gastric motility and an increase in the motility evoked by subsequent PVN stimulation. Vagotomy eliminated all subsequent central effects on motility of these peptides.     

Synchronization of spontaneous activity of skeletal muscle,autonomic nerves,and brain structures in cats

Acute and chronic experiments with recording of electrical activity of skeletal muscle, autonomic nerves, and some brain formations were performed on cats. Spectral correlation analysis showed that the spatial synchronization of electrical activity for the autonomic nerves and brain formations within the frequency range of 25–35 Hz, revealed by previous investigations, extends also to skeletal muscle. It is postulated that the presence of a widespread rhythm of 25–35 Hz is a factor facilitating the transmission of influences in the nervous system through frequency potentiation of synaptic action.Institute of Physiology, Bulgarian Academy of Sciences, Sofia. Translated from Neirofiziologiya, Vol. 8, No. 2, pp. 146–151, March–April, 1976.     

Pituitary thyrotropin-releasing hormone (TRH) receptors: effects of TRH, drugs mimicking TRH action, and chlordiazepoxide

Binding of TRH to specific cell surface receptors on clonal GH4C1 cells is followed within 10 min by receptor sequestration and over 24 h by receptor down-regulation. These experiments were designed to determine if TRH-activated second messenger systems are responsible for changes in receptor localization or number. BAY K8644 and A23187, which increase intracellular calcium, alone or together with 12-O-tetradecanoyl phorbol acetate (TPA), which activates protein kinase C, did not appear to internalize TRH receptors. Drug treatment did not alter the rate of [3H]MeTRH association or internalization, determined by resistance to an acid/salt wash, or the amount of [3H]MeTRH able to bind at 0 C, where only surface receptors are accessible. TPA (0-100 nM) alone or in combination with BAY K8644 or A23187, also failed to change receptor number or affinity after 48 h when TRH caused a 75% decrease in the density of specific binding sites. Chlordiazepoxide has been reported antagonize TRH binding and TRH-induced phospholipid breakdown. Chlordiazepoxide shifted the dose-response curves for TRH stimulation of PRL release and synthesis to the right, and did not change PRL release alone. The affinity of receptors for chlordiazepoxide was not affected by a nonhydrolyzable analog of GTP whereas affinity for TRH was decreased; these properties are consistent with the classification of chlordiazepoxide as a competitive antagonist. Several experiments tested whether chlordiazepoxide would cause receptor internalization and down-regulation. Chlordiazepoxide did not appear to internalize TRH receptors, because TRH-binding sites became available rapidly and at the same rate after they had been saturated with chlordiazepoxide at 0 or 37 C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Bombesin, bombesin analogues, and related peptides: effects on thermoregulation

The synthesis and biological evaluation on thermoregulation of 39 peptides related to bombesin (structural analogues or other naturally occurring peptides) are described. The bioassay system reported measures the ability of peptides injected intracisternally to lower body temperature of cold (4 degrees C) exposed rats. The most potent analogues of bombesin were those in which positions one to five (not included) were altered, indicating that the decapeptide C terminal was sufficient for full potency. Gln at the seventh position and Gly at the 11th position could be replaced by D-Gln and D-Ala (but not D-Pro or D-Phe), respectively, without any change in potency. Methionine at the 14 position could be replaced with its D isomer with retention of 10% biological activity. Any other alteration of the C terminus (deletions or free acid with the exception of the N-methylamide) drastically reduced the biological potency of those peptides. Among other naturally occurring peptides, alytesin was found to have 100% of bombesin potency whereas litorin, neurotensin, xenopsin, substance P, physalaemin, and eledoisin were found to be in the order of 10(4) times less potent. The shortest peptide found to have full biological activity is the octapeptide des-Glp-Gln-Arg-Leu-Gly-Asn[D-Glp7, D-Ala11]-bombesin.     

Effects of neurotensin and bombesin on the secretory and proliferative activity of regenerating rat adrenal cortex.

Neurotensin (NT) and bombesin (BM)-like peptides are known to be involved in the regulation of the rat hypothalamo-pituitary-adrenal axis. By using selective NT- and BM-receptor antagonists (NT-A and BM-A, respectively) we investigated whether endogenous NT and BM-like peptides play a role in the control of rat adrenal secretion and growth during enucleation-induced regeneration. At day 5 of regeneration, NT-A did not affect the plasma concentrations of aldosteronc (PAC) and corticosterone (PBC), but at day 8, it raised both PAC and PBC over the respective baseline value; the simultaneous administration of NT abolished this effect of NT-A. BM-A did not alter PAC and PBC at day 5 of regeneration, while at day 8 it enhanced PBC, an effect reversed by BM. NT-A did not alter mitotic index, and BM-A lowered it at both day 5 and day 8 of regeneration, an effect suppressed by the simultaneous administration of BM. Collectively, these findings allow us to draw the following conclusions: 1) endogenous NT and BM-like peptides influence adrenocortical regeneration in rats; 2) NT exerts a tonic inhibitory action on both aldosterone and corticosterone secretion, without affecting cell-proliferation rate; and 3) BM-like peptides exert a tonic suppressive effect on corticosterone production, coupled with a clear-cut stimulating effect on cell proliferation.     

Dorsal medullary oxytocin, vasopressin, oxytocin antagonist, and TRH effects on gastric acid secretion and heart rate

Injections of oxytocin and TRH (11 picomoles), centered on the dorsal motor nucleus of the vagus, substantially increased gastric acid secretion. Additionally, oxytocin, but not TRH, simultaneously produced a consistent reduction in heart rate. Vasopressin injected into the same locus, at doses of 11 and 110 picomoles, had no effect on either function. Both the gastric and cardiac effects of oxytocin were eliminated by the central injections of oxytocin antagonist dEt₂Tyr(Et)Orn⁸Vasotocin (ETOV; 6 picomoles) or peripheral administration of atropine (300 μg/kg, IP). Application of oxytocin or TRH to the area postrema, at double the dosage (22 picomoles) yielded no consistent effects on either gastric secretion or heart rate. These findings indicate that oxytocin in the dorsal motor nucleus of the vagus may act as a regulator of vagally-mediated gastric and cardiovascular functions while TRH effects, in this medullary area, seem limited to the regulation of gastric function.     

Effects of VIP, TRH, GABA and dopamine on prolactin release from superfused rat anterior pituitary cells

Effects of VIP, TRH, dopamine and GABA on the secretion of prolactin (PRL) from rat pituitary cells were studied in vitro with a sensitive superfusion method. Dispersed anterior pituitary cells were placed on a Sephadex G-25 column and continuously eluted with KRBG buffer. Infusion of TRH (10(-11) - 10(-8)M) and VIP (10(-9) - 10(-6)M) resulted in a dose-related increase in PRL release. LHRH (10(-8) - 10(-5)M) had no effect on PRL release. On the other hand, infusion of dopamine (10(-9) - 10(-6)M) and GABA (10(-8) - 10(-4)M) suppressed not only the basal PRL release from dispersed pituitary cells but also the PRL response to TRH and VIP. The potency of TRH to stimulate PRL release is greater than that of VIP, and the potency of dopamine to inhibit PRL secretion is stronger than that of GABA on a molar basis. These results indicate that TRH and VIP have a stimulating role whereas dopamine and GABA have an inhibitory role in the regulation of PRL secretion at the pituitary level in the rat.     

The effects of TRH on prolactin, plasma renin activity, water and electrolyte excretion in normal males.

The effect of TRH induced secretion of TSH and prolactin (hPrl) on plasma renin activity (PRA), water and electrolyte excretion, was studied in 7 normal males before and after an intravenous injection of 2 ml normal saline or 200 microgram TRH. Plasma hPrl and TSH rose significantly (p less than 0.01) in all 7 subjects after TRH but not after saline injection. No significant differences in the hourly excretion of sodium, potassium and free water clearance were noted before and after either saline or TRH injection. Mean PRA values of the 7 subjects were similar after either the 2 ml saline of TRH injection. Our results indicate that despite a correlation between basal hPrl and sodium excretion as well as free water clearance, acute TRH induced elevation of hPrl is not associated with changes of urinary sodium and potassium excretion, free water clearance and PRA in normal males. These findings provide some evidence against a direct osmoregulatory role of hPrl in man.     

Divergent effects of cholecystokinin, bombesin, and lithium on rat exploratory behaviors

Cholecystokinin induces a reduction in exploratory behaviors which could reflect an underlying behavioral state of either satiety or malaise. To investigate these alternative hypotheses, the effects of CCK were compared to the effects of (a) consumption of an extra quantity of palatable food, of (b) bombesin at doses known to inhibit food consumption, and of (c) lithium chloride, at doses known to produce taste aversion. Parameters of exploration of a novel arena surface and investigation of a novel object placed in the center of the arena were analyzed by an automated video-tracking computer-assisted animal behavior monitor. Cholecystokinin reduced all parameters of exploration. Ingestion of at least one gram of chocolate chip cookie also reduced all exploratory parameters. Bombesin reduced only parameters of approach to the novel object and the center of the arena. Lithium chloride reduced only parameters of approach to the novel object and the center of the arena. CCK may influence exploratory behaviors through mechanisms similar to those produced by ingestion of palatable food, but somewhat different from those produced by lithium and bombesin.     

Effects of bombesin and gastrin releasing peptide on catecholamine secretion from rat adrenal gland, in vitro

The effects of bombesin and gastrin releasing peptide (GRP) on the release of catecholamine were investigated by using isolated rat adrenal gland. Bombesin and GRP stimulated an epinephrine (E) release with dose-dependency. A half maximal effect of bombesin was observed at 1.2 X 10(-9) M, and a maximal release of E occurred at 1 X 10(-6) M of bombesin. The stimulatory effect of GRP on the E release was very similar to that of bombesin. Although both these peptides also stimulated a norepinephrine (NE) release, a significant effect was detected at concentrations of bombesin and GRP above 1 X 10(-7) M. Nicotine and pilocarpine stimulated both E and NE releases dose dependently, but the effect of pilocarpine on E and NE release was 1/100 or less potent than that of nicotine. Bombesin-induced catecholamine releases were not inhibited by hexamethonium or atropine that fully impeded the stimulatory effects of nicotine or pilocarpine. In addition, bombesin had additive effects on the nicotine- or pilocarpine-induced E and NE releases. These data strongly suggest that bombesin or GRP plays a physiological role as one of the important regulators in catecholamine secretion in the adrenal gland.     

Relationship between stroke volume and sympathetic nerve activity: new insights about autonomic mechanisms of syncope

Head-up tilt table experiments conducted in astronauts prior to and immediately after the NASA Neurolab Space Mission (STS-90) revealed that a reduction in stroke volume induced by moving from the supine to upright posture was associated with increased muscle sympathetic nerve activity (MSNA). Although this finding was not unexpected, lower average stroke volume and greater average MSNA measured after space flight in both supine and upright postures were positioned in a linear fashion on the same stroke volume-MSNA stimulus-response relationship as the average pre-flight stroke volume and MSNA responses. Since all astronauts who participated in the Neurolab orthostatic experiments completed the 10-min tilt table tests, these observations supported the notion that sympathetic reflex responses were not altered but functioned adequately after space flight in non-presyncopal subjects. In contrast to the Neurolab results, development of orthostatic hypotension and presyncopal events reported in astronauts during standing after space flight have been accompanied by attenuated peripheral vasoconstriction and less elevation in plasma concentrations of norepinephrine. The association between circulating norepinephrine (NE) and peripheral vascular resistance in presyncopal astronauts after space flight led to the conclusion that postflight presyncope can be attributed to a combination of inherently low-resistance responses, a strong dependence on volume status, and relative hypoadrenergic function. In the present investigation, we used graded levels of lower body negative pressure (LBNP) to produce linear reductions in stroke volume and performed direct measurements of MSNA to test the hypotheses that (1) elevations in MSNA during central hypovolemia are proportional (i.e., linear) with reductions in stroke volume and; (2) that the slope of the stroke volume-MSNA relationship will be reduced in presyncopal subjects.     

Influence of caloric intake on gastric inhibitory polypeptide,VIP and gastrin release in man

Blood glucose, gastric inhibitory polypeptide (GIP), vasoactive intestinal polypeptide (VIP) and gastrin secretions were measured over a three-hour period following the ingestion by normal subjects of a mixed meal with two different caloric levels (1055 Kcal and 1192 Kcal). No VIP secretion was observed after either meal. Gastrin release was not modified by the increase of caloric intake (mainly carbohydrates and lipids), whereas GIP secretion was significantly more important after the meal with the highest caloric value (peak at 30 mn: $\text{499.5±250.4}$ vs. $\text{273.4±128.7}\text{pg/ml}$ and integrated response $\text{53.3±20.5}$ vs. $\text{28.2±9.9}\text{ng}\text{×}\text{ml}{}^{\mathrm{?1}}\text{×180}\text{min}{}^{\mathrm{?1}}\text{?p<0.05}$). This difference could not be attributed to glucose since the blood glucose levels were not significantly different. It is more probably related to the total amount of ingested food. This suggests the existence of rapid mechanisms of adaptation to the incoming load of the GIP-producing cells.     

Dose-related effects of red wine and alcohol on hemodynamics, sympathetic nerve activity, and arterial diameter

The cardiovascular benefits of light to moderate red wine consumption often have been attributed to its polyphenol constituents. However, the acute dose-related hemodynamic, vasodilator, and sympathetic neural effects of ethanol and red wine have not been characterized and compared in the same individual. We sought to test the hypotheses that responses to one and two alcoholic drinks differ and that red wine with high polyphenol content elicits a greater effect than ethanol alone. Thirteen volunteers (24-47 yr; 7 men, 6 women) drank wine, ethanol, and water in a randomized, single-blind trial on three occasions 2 wk apart. One drink of wine and ethanol increased blood alcohol to 38 +/- 2 and 39 +/- 2 mg/dl, respectively, and two drinks to 72 +/- 4 and 83 +/- 3 mg/dl, respectively. Wine quadrupled plasma resveratrol (P < 0.001) and increased catechin (P < 0.03). No intervention affected blood pressure. One drink had no heart rate effect, but two drinks of wine increased heart rate by 5.7 +/- 1.6 beats/min; P < 0.001). Cardiac output fell 0.8 +/- 0.3 l/min after one drink of ethanol and wine (both P < 0.02) but increased after two drinks of ethanol (+0.8 +/- 0.3 l/min) and wine (+1.2 +/- 0.3 l/min) (P < 0.01). One alcoholic drink did not alter muscle sympathetic nerve activity (MSNA), while two drinks increased MSNA by 9-10 bursts/min (P < 0.001). Brachial artery diameter increased after both one and two alcoholic drinks (P < 0.001). No beverage augmented, and the second wine dose attenuated (P = 0.02), flow-mediated vasodilation. One drink of ethanol dilates the brachial artery without activating sympathetic outflow, whereas two drinks increase MSNA, heart rate, and cardiac output. These acute effects, which exhibit a narrow dose response, are not modified by red wine polyphenols.