Tadashi Ohyama

The endothelium-derived vasoconstrictor peptide endothelin inhibits renin release in vitro

The effect of endothelin, a newly identified endothelium-derived vasoconstrictor peptide, on renin release from rat kidney cortical slices was examined. Endothelin produced a concentration-dependent inhibition of renin release and this inhibitory effect was dependent on extracellular calcium. The dihydropyridine calcium channel blockers nifedipine and nicardipine did not antagonize the inhibitory effect induced by endothelin. On the other hand, nifedipine completely antagonized the extracellular high potassium- or Bay K 8644-induced inhibition of renin release. The endothelin-induced inhibition of the release was markedly blocked by the addition of Co2+. Similar blocking effects of Co2+ were also observed with extracellular high potassium or Bay K 8644. Thus, endothelin exerts an inhibitory action on renin release in vitro, in a calcium-dependent manner. This inhibition may be mediated by the increased calcium influx through dihydropyridine-insensitive calcium channels.

Endothelin immunoreactivity in medium from cultured porcine aortic endothelial cells correlates with the biological activity

Using the radioimmunoassay (RIA) of endothelin (ET), we measured immunoreactive ET (IR-ET) in culture medium of porcine aortic endothelial cells. The immunoreactivity in the medium was compared with the biological activity. The amount of IR-ET released into the medium was calculated at 250-350 pg/10(6) cells/hr. The amount of IR-ET released into the culture medium increased progressively with 3-24 hr of incubation and corresponded to the increase in medium-induced vasoconstriction of rat isolated aorta. When the vasoconstrictor activities in the culture medium were plotted against the IR-ET concentration determined by RIA, the concentration-response curve showed similarity to that obtained with synthetic porcine ET. This RIA system will be a useful for investigating mechanisms of ET secretion from endothelial cells.

Effects of endothelin on renal function and renin secretion in anesthetized rats

The infusion of endothelin into the renal artery of anesthetized rats at 1 ng/kg per min, a dose with no influence on renal function, had no effect on the basal levels of plasma renin activity (PRA) and renin secretory rate (RSR), but significantly inhibited the isoproterenol-induced increases in PRA and RSR. Endothelin, 2 ng/kg per min, elicited significant decreases in renal hemodynamics and in urine formation but the mean arterial pressure was not affected. The possibility that endothelin may participate in controlling renal function and renin secretion in vivo warrants further attention.

Effects of dopaminergic agents on reversal of reserpine-induced impairment in conditioned avoidance response in rats

Male Slc:Wistar, Std:Wistar, and Slc:F344/N rats had good acquisition of the conditioned avoidance response (CAR), while that of the male Slc:Wistar/ST, Jcl:Wistar, and Crj:Wistar rats was bad. Reserpine-induced impairment (RII) in CAR was observed 2-72 h after administration of dopaminergic (DAergic) agents in male Slc:Wistar rats. Amitriptyline (5-80 mg/kg, P.O.), imipramine, desipramine, cis-dosulepine, and trans-dosulepine at dose of 40 mg/kg, P.O. showed no antagonism against RII in CAR 20-23 h after reserpine injection (1 mg/kg, S.C.). However, the atypical antidepressive agents sibutramine (5-10 mg/kg, P.O.), bupropion (40 mg/kg, P.O.), and nomifensine (10-40 mg/kg, P.O.) exhibited antagonism against RII in CAR. The calcium channel antagonists flunarizine, nimodipine, and KP-840 at dose of 10 and 100 mg/kg, P.O., the cerebral improving agent indeloxazine (20-80 mg/kg, P.O.), the anticholinergic agent atropine (5-40 mg/kg, P.O.), 5-hydroxy-L-tryptophan (5-HTP) (40 mg/kg, I.P.), a precursor of 5-hydroxytryptamine (5-HT), and (+/-)-threo-dihydroxyphenylserine [(+/-)-threo-DOPS] (20-200 mg/kg P.O.), a norepinephrine (NE) precursor, showed no antagonism against RII in CAR. The DAergic agents methamphetamine (5 mg/kg, P.O.) and amantadine (50-250 mg/kg, P.O.), L-DOPA (200 mg/kg, P.O.), and the DAergic D1/D2 receptor agonist apomorphine (0.1-1 mg/kg, S.C.) showed marked antagonism against RII in CAR. Although the DAergic D1-receptor agonist KF-38393 (0.3-30 mg/kg, I.P.) and the DAergic D2-receptor agonist quinpirole (0.3-10 mg/kg, I.P.) induced only a weak recovery of RII in CAR when they were administered alone, in contrast to a potent synergistic recovery of RII in CAR, which was observed when SKF-38393 (1 mg/kg, I.P.) and quinpirole (1 mg/kg, I.P.) were administered together. These results suggest that the DAergic nervous system rather than the adrenergic or 5-HT nervous system is involved in RII in CAR, and that both the DAergic D1- and D2-mediated nervous systems play important roles in this process.

ACTH releasing activity of KP-102 (GHRP-2) in rats is mediated mainly by release of CRF

KP-102 (GHRP-2: pralmorelin) is a synthetic growth hormone releasing peptide (GHRP) that powerfully stimulates the release of GH by acting (i.v.) at both hypothalamic and pituitary sites. Intravenous (i.v.) administration of KP-102 also elicits slight but significant release of adrenocorticotropic hormone (ACTH) in both animals and humans, as is seen with other GHRPs. GHRPs are thought to stimulate the hypothalamic-pituitary-adrenal axis by releasing endogenous ACTH secretagogues such as arginine vasopressin (AVP) and/or corticotropin releasing factor (CRF), though neither AVP nor CRF has been shown clearly to be involved significantly in GHRP-evoked ACTH release. In the present study, we investigated the effects of KP-102 on ACTH release in conscious rats under improved experimental conditions that minimized the influence of stress. Administration of KP-102 i.v. increased plasma ACTH significantly, but did not stimulate ACTH release from rat primary pituitary cells. Administration of KP-102 together with either AVP or CRF elicited significantly greater increases in plasma ACTH levels than any of the agonists alone. Notably, the combination of KP-102 and AVP produced a much greater increase in ACTH than KP-102 plus CRF, indicating that KP-102 augments the effect of exogenous CRF only weakly. Conversely, a CRF antagonist markedly inhibited KP-102-induced ACTH release in conscious rats, whereas an AVP antagonist or anti-AVP antiserum did not. Taken together, these findings suggest that KP-102 acts via the hypothalamus to stimulate ACTH release in rats, and that these effects are mediated mainly by the release of CRF.

Effects of the synthesized growth hormone releasing peptide, KP-102, on growth hormone release in sodium glutamate monohydrate-treated low growth rats

KP-102 (D-Ala-D-beta-Nal-Ala-Trp-D-Phe-Lys-NH2), a new second generation hexapeptide, has a potent growth hormone (GH)-releasing action in vivo and in vitro. Here, we evaluated the GH-releasing action of KP-102 under pentobarbital (PB) anesthesia in neonatally sodium-glutamate-monohydrate-treated low growth (NMSG-LG) rats. The plasma GH level in NMSG-LG rats after i.v. administration of KP-102 at 100 micrograms/kg was 1/6.7 (95% C.L. 1/14.7 - 1/3.0) of that in normal rats given the same dose (p < 0.01). However, the increase was significant compared with that in normal rats after saline administration (p < 0.01). The plasma GH releasing action of KP-102 at 100 micrograms/kg i.v. in rats with lesions in the bilateral hypothalamic arcuate nuclei (ARC), was about 1/6.3 (95% C.L. 1/12.4 - 1/3.2) of that in normal rats under PB anesthesia (p < 0.01). When KP-102 was injected into the ARC at doses of 0.0002, 0.02 and 2 micrograms/rat, GH release was dose-related (p < 0.01) under PB anesthesia. KP-102 at 2 micrograms i.c.v. also increased the plasma GH levels (p < 0.01) to about 1/8.3 (95% C.L. 1/22.7 - 1/3.1) of that by systematic administration, at the same potency as the ARC injection (1/13.7 and 95% C.L. 1/37.2 - 1/5.0). These findings suggest that KP-102 potently stimulates the GH release by a direct or indirect antagonism of somatostatin (SRIF) and growth hormone releasing hormone (GHRH) release in the hypothalamus and by a direct action on the pituitary. Furthermore, the GH-releasing action of KP-102 was similar and additive upon both regions in vivo at the maximum effective dose. Moreover, since the GH-release in response to KP-102 administration differed between NMSG-LG and normal rats, and since KP-102 increased the GH release even in NMSG-LG rats, it should be evaluated in the hypophysial GH secretion tests, and may be used to treat the hypophysial GH secretion insufficiency.

Effects of bay K 8644 on renal functions and renin secretion in anesthetized rats

Our previous study on kidney cortical slices showed that Bay K 8644, a dihydropyridine calcium channel agonist, produced a dose-dependent inhibitory action on the release of renin. The present study was performed to examine the effect of Bay K 8644 on renal function and renin secretion in vivo. When Bay K 8644 was directly infused into the renal artery of anesthetized rats, 2 micrograms/kg/min had no effect on renal blood flow (RBF) and glomerular filtration rate (GFR), but decreased urine flow (UF), urinary sodium excretion (UNaV) and fractional sodium excretion (FENa) by about 30%, 55% and 35%, respectively, thereby suggesting that Bay K 8644 enhanced the tubular reabsorption of water and sodium. When 10 micrograms/kg/min were infused, RBF, GFR, UF, UNaV and FENa decreased to about 95%, 70%, 35%, 35% and 30% of each control value. The administration of Bay K 8644 at 10 micrograms/kg/min did not influence the basal levels of plasma renin activity (PRA) and renin secretion rate (RSR), but did inhibit significantly isoproterenol-induced increasing effects on PRA and RSR. These results indicate that the activation of voltage-dependent calcium channels with Bay K 8644 influences the control of renal function and renin secretion in vivo.

Effects of sibutramine on the central dopaminergic system in rodents.

The effects of sibutramine on central dopaminergic system in rats and mice were examined by neurochemical and behavioral pharmacological methods. Dopamine reuptake inhibition by sibutramine in brain synaptosomes was only 4–5 times stronger than those of amitriptyline and dosulepin, which do not exhibit dopamine uptake inhibition in vivo. Single treatment with sibutramine did not alter the brain content of dopamine and DOPAC. However, similar to methamphetamine and pargyline, sibutramine antagonized methyl-4-phenyl-l, 2,3,6-tetrahydro-pyridine (MPTP) induced dopamine depletion in mouse brain. In forced swimming tests of reserpinized mice, sibutramine shortened the immobilized time, similar to dopaminergic drugs including nomifensine, bupropion (dopamine-reuptake inhibitor), methamphetamine, SKF 38393 (dopamine D1 agonist), quinpirole (dopamine D2 agonist) and apomorphine (dopamine D1/D2 agonist). In addition, sibutramine caused rotational behavior toward the lesioned side in rats with unilateral lesions of the substantia nigra induced by 6-hydroxydopamine. These results suggest that sibutramine exhibits neurochemical and behavioral dopaminomimetic activity in vivo, which is mediated by dopamine reuptake inhibition by the active metabolites of sibutramine.