Nitrergic modulation of vasopressin, oxytocin and atrial natriuretic peptide secretion in response to sodium intake and hypertonic blood volume expansion

The central nervous system plays an important role in the control of renal sodium excretion. We present here a brief review of physiologic regulation of hydromineral balance and discuss recent results from our laboratory that focus on the participation of nitrergic, vasopressinergic, and oxytocinergic systems in the regulation of water and sodium excretion under different salt intake and hypertonic blood volume expansion (BVE) conditions. High sodium intake induced a significant increase in nitric oxide synthase (NOS) activity in the medial basal hypothalamus and neural lobe, while a low sodium diet decreased NOS activity in the neural lobe, suggesting that central NOS is involved in the control of sodium balance. An increase in plasma concentrations in vasopressin (AVP), oxytocin (OT), atrial natriuretic peptide (ANP), and nitrate after hypertonic BVE was also demonstrated. The central inhibition of NOS by L-NAME caused a decrease in plasma AVP and no change in plasma OT or ANP levels after BVE. These data indicate that the increase in AVP release after hypertonic BVE depends on nitric oxide production. In contrast, the pattern of OT secretion was similar to that of ANP secretion, supporting the view that OT is a neuromodulator of ANP secretion during hypertonic BVE. Thus, neurohypophyseal hormones and ANP are secreted under hypertonic BVE in order to correct the changes induced in blood volume and osmolality, and the secretion of AVP in this particular situation depends on NOS activity

Effects of a neuronal nitric oxide synthase inhibitor on lipopolysaccharide-induced fever

It has been demonstrated that nitric oxide (NO) has a thermoregulatory action, but very little is known about the mechanisms involved. In the present study we determined the effect of neuronal nitric oxide synthase (nNOS) inhibition on thermoregulation. We used 7-nitroindazole (7-NI, 1, 10 and 30 mg/kg body weight), a selective nNOS inhibitor, injected intraperitoneally into normothermic Wistar rats (200-250 g) and rats with fever induced by lipopolysaccharide (LPS) (100 µg/kg body weight) administration. It has been demonstrated that the effects of 30 mg/kg of 7-NI given intraperitoneally may inhibit 60 per cent of nNOS activity in rats. In all experiments the colonic temperature of awake unrestrained rats was measured over a period of 5 h at 15-min intervals after intraperitoneal injection of 7-NI. We observed that the injection of 30 mg/kg of 7-NI induced a 1.5oC drop in body temperature, which was statistically significant 1 h after injection (P<0.02). The coinjection of LPS and 7-NI was followed by a significant (P<0.02) hypothermia about 0.5oC below baseline. These findings show that an nNOS isoform is required for thermoregulation and participates in the production of fever in rats.

Calcium-activated potassium channels ar involved in the response of mouse Leydig cells to human chorionic gonadotropin

The patch-clamp technique was used to investigate the involvement of ion channels in the response of Leydig cells to gonadotropic hormones (viz.hCG). Recordings in the cell-attached configuration (pipette containing 140 mM KCl) showed unitary events with conductance of 187.9 + or - 5.2 pS(N = 24 patches) in about 70 percent of the cells. These channels were potassium selective and the open channel probability (Po) was always about 1 percent for displacemtne of potential from the resting value in the range of -20 to +60 mV. Treatment of the cells with hCG (2 ng/ml) led to a large increase in the frequency of openings, concomitant with a reduction in the mean closed time and there was essentially no effect on the mean open time of the channels. Dibutyryl cAMP (100 µM) produced an effect similar to that of hCG and both required external calcium for their action. No direct effect of either dibutyryl cAMP or hCG were observed in inside-out patches. Reversal potential measurements on excised inside-out patches demonstrated that the channels were highly potassium selective with unitary conductance of about 206.8 + or - 6.36 pS(mean + or - SEM of 6 measurements), and an estimated permeability of 3.6 x 10-13 + or - 0.2 x 10--13 cm3/s (mean + or - SEM for 6 measurements), in symmetrical 140 mM KCl. The activity of the channel in excised paches was very sensitive to the free-calcium concentration on the intracellular surface of the free-calcium concentration on the intracellular surface of the channel. Po evaluated at + 60mV increased from 3 percent at 10 nM to 47 percent at 100 nM free calcium. The Hill coefficient under these conditions was 1.1. These results demonstrate that Leydig cells have a Ca2+ -activated K+ channel of large unitary conductance, which can be activated upon the binding of hCG to receptors in the cell membrane