Naoki Tomori

In vitro study of immunoreactive corticotropin-releasing factor release from the rat hypothalamus

Immunoreactive corticotropin-releasing factor (I-CRF) release from rat hypothalami was studied in vitro utilizing a perifusion of rat hypothalami and a rat CRF RIA. Basal release of I-CRF from the hypothalamus of adrenalectomized or hypophysectomized rats was higher than in that of normal rats. K+-induced I-CRF release was completely suppressed by omission of Ca++ from the medium. Dexamethasone suppressed I-CRF release from hypothalami, but not from median eminence (ME). C-AMP and angiotensin II had mild stimulatory effects on I-CRF release. These results suggest that 1) the feedback mechanism acts mainly on a higher level than ME, and 2) c-AMP and angiotensin II may be involved in CRF-releasing mechanism(s).

Effects of opioid peptides on immunoreactive corticotropin-releasing factor release from the rat hypothalamus in vitro

Effects of opioid peptides on immunoreactive corticotropin-releasing factor (I-CRF) release from the rat hypothalamus were examined using a rat hypothalamic perifusion system and a rat CRF RIA in vitro. beta-Endorphin (0.3 - 30 nM), dynorphin (0.3 - 30 nM) and FK 33-824 (1 - 10 microM) suppressed basal I-CRF release in a dose-dependent fashion. At 2.2 nM concentrations of these peptides, mean percent inhibition was 56% for beta-endorphin; less than 5% for alpha-endorphin; 44% for dynorphin; 23% for leucine-enkephalin; 6% for methionine-enkephalin; less than 5% for FK 33-824; and less than 5% for D-ala2, D-leu5-enkephalin. The inhibitory effects of beta-endorphin and enkephalins were completely blocked by naloxone, but those of dynorphin were only partially blocked. These results suggest that opioid peptides act through opioid receptors and inhibit I-CRF release from the hypothalamus under our conditions. Therefore, endogenious opioid peptides may have a physiological role in the CRF-releasing mechanism of the hypothalamus.

Effects of serotonin, cyproheptadine and reserpine on corticotropin-releasing factor release from the rat hypothalamus in vitro

We investigated the effects of serotonin, cyproheptadine and reserpine on corticotropin-releasing factor (CRF) release from the rat hypothalamus, and the effect of cyproheptadine on CRF-induced adrenocorticotropic hormone (ACTH) secretion from the anterior pituitary (AP) in vitro using a perifusion system for rat hypothalami and AP, and a rat CRF radioimmunoassay. Cyproheptadine, 10(-8) M, had a direct inhibitory effect on both basal and 10(-9) M CRF-induced ACTH secretion from the rat AP in vitro. In addition, 10(-9)-10(-7) M cyproheptadine inhibited basal CRF release in a dose-dependent fashion, and also suppressed serotonin- and KCl-induced CRF release. Conversely, 10(-9)-10(-7) M reserpine failed to influence CRF release from the rat hypothalamus. These results indicate that a serotonergic mechanism may be involved in the CRF-releasing mechanism, and inhibition of depolarization-dependent calcium entry into cells and/or nerve endings. In addition an anti-serotonergic mechanism is involved in the inhibitory action of cyproheptadine.

Stimulatory effect of acetylcholine on immunoreactive corticotropin-releasing factor release from the rat hypothalamus in vitro

Effects of acetylcholine (Ach) and gamma-aminobutyric acid (GABA) on immunoreactive corticotropin-releasing factor (CRF) release from the rat hypothalamus were examined using a rat hypothalamic perifusion system and a rat CRF RIA in vitro. Ach stimulated CRF release in a dose-dependent manner (1 pM-1 nM). One nM Ach-induced CRF release was inhibited by atropine in a dose-dependent manner (1-100 nM), but was inhibited by only a high concentration (100 nM) of hexamethonium. In addition, such Ach-induced CRF release was inhibited by norepinephrine. GABA did not influence basal CRF release. These results suggest that Ach stimulates CRF release mainly through muscarinic receptors at least under our conditions.

Inhibitory effect of norepinephrine on immunoreactive corticotropin-releasing factor release from the rat hypothalamus in vitro.

Effects of catecholamines on immunoreactive corticotropin-releasing factor (I-CRF) release from the rat hypothalamus were examined using a rat hypothalamic perifusion system and a rat CRF RIA in vitro. Norepinephrine had a potent inhibitory effect on I-CRF release in a dose-dependent manner at 0.1 nM-1 microM concentrations, but dopamine did not. This inhibitory effect of norepinephrine was completely blocked by propranolol, but only partially blocked by phentolamine. Isoproterenol also had a potent inhibitory effect at 0.01-100 nM concentrations, and a high dose of phenylephrine (10 nM) inhibited I-CRF release. Clonidine did not influence I-CRF release. These results suggest that norepinephrine inhibits I-CRF release mainly through the beta-adrenergic receptor and partially through the alpha 1-receptor.

Immunoreactive Corticotropin-Releasing Factor in Rat Plasma

Immunoreactive ACTH (I-ACTH) levels in the rat anterior pituitary and plasma, and immunoreactive corticotropin-releasing factor (I-CRF) concentrations in the median eminence (ME) and plasma were determined after adrenalectomy and in insulin-induced hypoglycemia. I-CRF was detected in plasma from normal rats (mean +/- SD, 5.6 +/- 0.9 pg/ml; n = 6). Gel filtration chromatography of I-CRF from pooled plasma of these rats revealed a single peak which eluted in the position of authentic rat CRF. I-CRF levels in ME and I-ACTH levels in anterior pituitary decreased immediately after adrenalectomy, then gradually increased to high levels 14 days after surgery. Plasma I-CRF and I-ACTH concentrations increased immediately after surgery, slightly decreased to near the control levels at 24 h, and then increased to high concentrations 14 days after surgery. Plasma and ME I-CRF levels 14 days after adrenalectomy, followed by daily dexamethasone replacement, were almost the same as control levels. In insulin-induced hypoglycemia, plasma I-ACTH and I-CRF concentrations increased and ME I-CRF content decreased at 30 and 60 min. These results suggest that plasma I-CRF levels reflect changes in hypothalamic CRF levels.

Time course study on the effect of reserpine on hypothalamic immunoreactive CRF levels in rats

A time course study on the changes of rat hypothalamic corticotropin-releasing factor (CRF) levels and ACTH levels in plasma, pituitary and hypothalamus after an acute treatment with reserpine was examined using a rat CRF RIA. The massive and prolonged depletion of hypothalamic norepinephrine and dopamine levels provoked by a single injection of reserpine (2 and 8 mg/kg, i.p.) caused a transient decrease of hypothalamic CRF levels and ACTH levels in the anterior pituitary glands, and an increase in plasma ACTH levels. There was a strong correlation between the depletion of hypothalamic CRF and norepinephrine levels. These results suggest that: acute depletion of hypothalamic norepinephrine levels cause the initial release of CRF that stimulates pituitary ACTH secretion, and the depletion of CRF and ACTH stores at the early stage; and noradrenergic pathways may be involved in the inhibitory mechanism of CRF release.

In vitro study on proopiomelanocortin messenger RNA levels in cultured rat anterior pituitary cells

The fundamental examination on the measurement of proopiomelanocortin (POMC) mRNA levels in cultured rat anterior pituitary (AP) cells was studied. In addition, the detailed study on time- and dose-related effects of corticotropin-releasing factor (CRF) and dexamethasone on the level of POMC mRNA in AP cells in vitro was examined. Basal levels of POMC mRNA in AP cells cultured with serum initially declined after 1-day culture, gradually increased and reached a peak after 3-day culture, and then slightly decreased after 4- and 5-day culture. These mRNA levels after 3-day culture did not change through subsequent 15-hr incubation without serum. CRF treatment caused a time- and dose-dependent increase in POMC mRNA levels. The minimum effective dose of CRF was 0.1 nM for 15-hr incubation. The significant increase in POMC mRNA levels was observed after 3 hrs of 1 nM CRF treatment with a 2-fold elevation seen after 15 hrs of exposure. Dexamethasone treatment caused a dose-dependent decrease in POMC mRNA levels in AP cells. The minimum effective dose was 0.1 microgram/ml and such mRNA levels did not decrease until 15 hrs of exposure.

Presence of immunoreactive dynorphin in human cerebrospinal fluid

Immunoreactive dynorphin (I-dynorphin) was measured by radioimmunoassay in human cerebrospinal fluid (CSF). I-dynorphin concentration in CSF was 30 +/- 2 pg/ml. Sephadex G-25 column chromatography showed the main peak eluted at the position of dynorphin-(1-17). HPLC elution profile of this major peak from gel filtration showed a large peak corresponding to the position of dynorphin-(1-17) and small peaks corresponding to the positions of dynorphin-(1-13), dynorphin-(1-12) and other unknown peptides.