Modulation by somatostatin of rat submandibular salivary secretion.

Although somatostatin (somatotrophin release inhibitory factor; SRIF) is a well-known inhibitory peptide, there are only a few reports of it acting as a positive modulator. In this work, the action of somatostatin upon rat submandibular protein secretion was studied. In vivo somatostatin infusion (35 microg/(kg h)) raised protein secretion stimulated by adrenergic and peptidergic agents. To rule out possible systemic effects of somatostatin, in vitro experiments were performed. Somatostatin (90 nmol/l) augmented protein release stimulated by noradrenaline (19 micromol/l) and substance P (10 micromol/l), but it did not affect isoprenaline (400 micromol/l)-induced protein release. Phenoxybenzamine (20 micromol/l) reduced the effect of somatostatin on noradrenaline-stimulated protein release. Propranolol (20 micromol/l) increased the noradrenaline-stimulated protein release and this effect was synergistic with the action of somatostatin. The absence of extracellular calcium did not significantly reduce somatostatin enhancement of agonist-induced secretion. Fluorescence measurements of the Ca(2+)-sensitive dye fluo3 showed that cytosolic calcium in acinar cells remained elevated during stimuli when somatostatin was present in the medium. It was concluded that somatostatin modulates rat submandibular protein secretion by prolonging the time that the cytosolic calcium signal remains high after stimulus.

Effect of oral L-arginine administration for three weeks in two kidney-two clip hypertensive rats.

Nitric oxide (NO) has been identified as an effective vascular relaxant. This study analyses the contribution of the precursor L-arginine (L-arg) by oral administration in two kidney-two clip hypertension in the rat (2K-2C). Two groups were studied: sham (SH, n=21) and hypertensive (HT, n=15). After 4 weeks of surgery, a group of rats remained as controls (SHc and HTc, respectively), while others were supplemented with L-arg (1.25 g/L) in drinking water (SHa and HTa) for 3 weeks. Blood pressure was significantly increased in 2K-2C rats but remained unchanged after L-arg treatment. Plasma nitrite/nitrate concentrations were not different among groups. The contractile response of aorta to KCl, serotonin and the protein kinase C (PKC) stimulant, phorbol 12,13-dibutyrate (PDBu) was also evaluated. Higher contractile responses to PDBu (p<0.001) and lower relaxation to acetylcholine (Ach 10(-6) M, p<0.05 and 10(-5)M, p<0.02) were observed in aortic rings of HTc vs SHc; L-arg supplementation significantly diminished tension development to all agonists (p<0.05) but failed to modify the lower relaxation to Ach in HTa. Thromboxane (TxA(2)) - synthesis in rings of HTc was higher than in SHc under basal conditions (p<0.05). In the groups with supplement of L-arg, PDBu significantly stimulated prostacyclin (PGI(2)) synthesis more in HTa rats than in SHa ones (p<0.05). To conclude: 1) L-arg fails to modify hypertension development in 2K-2C rats; and 2) L-arg exerts a beneficial effect on the vascular wall, by reducing contractility in rings from HTa rats; it also improved PGI(2) synthesis under PDBu stimulation. 3) greater PKC activation and TxA(2) production rather than lower NO availability might result in systemic hypertension in 2K-2C rats.