The role of steroid hormones in the regulation of vasopressin and oxytocin release and mRNA expression in hypothalamo-neurohypophysial explants from the rat.

Vasopressin and oxytocin release from the neural lobe, and the vasopressin and oxytocin mRNA contents of the supraoptic and paraventricular nuclei are increased by hypertonicity of the extracellular fluid. The factors regulating these parameters can be conveniently studied in perifused explants of the hypothalamo-neurohypophysial system that include the supraoptic nucleus (but not the paraventricular nucleus) with its axonal projections to the neural lobe. Vasopressin and oxytocin release and the mRNA content of these explants respond appropriately to increases in the osmolality of the perifusate. This requires synaptic input from the region of the organum vasculosum of the lamina terminalis. Glutamate is a likely candidate for transmitting osmotic information from the organum vasculosum of the lamina terminalis to the magnocellular neurones, because agonists for excitatory amino acid receptors stimulate vasopressin and oxytocin release, and because increased vasopressin release and mRNA content induced in hypothalamo-neurohypophysial explants by a ramp increase in osmolality are blocked by antagonists of both NMDA (N-methyl-D-aspartate) and non-NMDA glutamate receptors. Osmotically stimulated vasopressin release is also blocked by testosterone, dihydrotestosterone, oestradiol and corticosterone. Both oestrogen and dihydrotestosterone block NMDA stimulation of vasopressin release, and in preliminary studies oestradiol blocked AMPA stimulation of vasopressin release. Thus, steroid inhibition of osmotically stimulated vasopressin secretion may reflect inhibition of mechanisms mediated by excitatory amino acids. Recent studies have demonstrated numerous mechanisms by which steroid hormones may impact upon neuronal function. Therefore, additional work is warranted to understand these effects of the steroid hormones on vasopressin and oxytocin secretion and to elucidate the potential contribution of these mechanisms to regulation of hormone release in vivo.

Liver transplantation in polysplenia syndrome: use of a living-related donor.

Congenital anatomic anomalies often present technical obstacles during liver transplants. Biliary atresia is the most common indication for liver transplants in children, and approximately 7-10% of these patients have congenital anomalies comprising the "polysplenia syndrome." The polysplenia syndrome, which often includes abdominal situs inversus, is of particular concern in liver transplants because these anatomic anomalies result in a more complex hepatectomy, alterations in the placement of the donor grafts, and the need for additional vascular reconstruction. Earlier reports have shown mixed results for these patients who have undergone orthotopic liver transplants, reporting a high rate of postoperative complications and poor survival. The use of living-related donor grafts has produced excellent results in the general pediatric population. This is the first report of the successful use of a living-related donor graft for an orthotopic liver transplant to treat end-stage liver disease secondary to biliary atresia in a child with polysplenia syndrome.

N-methyl-D-aspartic acid stimulation of vasopressin release: role in osmotic regulation and modulation by gonadal steroids.

Previous experiments demonstrated that excitatory amino acids participate in the osmotic regulation of vasopressin secretion, but the specific involvement of N-methyl-D-aspartic acid (NMDA) receptors was not evaluated. This was demonstrated in the present studies. NMDA stimulated vasopressin release from perifused explants of the hypothalamo-neurohypophyseal system (HNS), and osmotic stimulation of vasopressin release was inhibited by MK-801 (10 microM) and AP5 (100 microM) NMDA receptor antagonists. The effective concentration of NMDA was dependent upon the Mg2+ concentration of the perifusate with stimulation observed at 1 microM NMDA in Mg2+-replete compared with 5 microM in low-Mg2+ medium. Previous experiments also demonstrated that estradiol and dihydrotestosterone (DHT) inhibited osmotically stimulated vasopressin secretion, and a nongenomic mechanism of action was suggested by the ability of steroids conjugated to bovine serum albumin to replicate the effect. Experiments were performed to explore the potential role of NMDA receptors in this mechanism. Estradiol (50 pg/ml) and DHT (3 ng/ml) inhibited NMDA stimulated vasopressin release in perifused HNS explants. These results suggest a role of NMDA receptors in the mediation of vasopressin secretion in osmotically stimulated release. Furthermore, estradiol and DHT may exert their inhibitory effect on osmotically stimulated vasopressin release via the NMDA receptor.

Effect of aging on vasopressin and aquaporin responses to dehydration in Fischer 344-brown-Norway F1 rats.

The plasma vasopressin (VP) response to 72 h of water deprivation is attenuated in 30-mo-old Fischer 344 (F344) rats relative to 4-mo-old rats. This appears to reflect an inability to increase VP synthesis. In contrast, elevated plasma VP has been reported in the Brown-Norway (BN) strain of rats secondary to reduced renal VP responsivity. The response to dehydration in the F1 cross of these strains (F344BNF1) was evaluated. Male rats, 4 and 30 mo old, were deprived of water for 72 h or allowed water ad libitum. In response to dehydration, plasma sodium and hematocrit were significantly increased in both young and aged rats (P < 0.05), but plasma VP, urine osmolality, and aquaporin 2 expression were only increased in the young rats (P < 0.05). Posterior pituitary content of immunoreactive VP was depleted in the young but not the old rats. Thus the aged F344BNF1 rats demonstrated a deficit in VP release in response to an apparently similar dehydration stimulus. This deficit was different from those previously reported for either the F344 or BN strains. Thus further studies are required to determine the abnormalities underlying this response.

Gonadal steroid modulation of vasopressin secretion in response to osmotic stimulation.

As deficiencies in osmotic stimulation of vasopressin (VP) messenger RNA (mRNA) content in castrated rats have been reported, experiments were performed to determine whether castration altered osmotically stimulated VP release in vitro. Perifused explants of the hypothalamo-neurohypophyseal system were obtained from sham and gonadectomized male rats. There were no significant differences in VP release stimulated by a ramp increase in the osmolality of the culture medium between the two groups. As testosterone was undetectable in the perifusion medium, the effect of addition of testosterone on osmotically stimulated VP release was evaluated. Testosterone (3 ng/ml) and its metabolites, estradiol (50 pg/ml) and dihydrotestosterone (DHT; 3 ng/ml), inhibited osmotically stimulated VP release in hypothalamo-neurohypophyseal system explants. The osmotically induced increase in VP mRNA content was also inhibited by testosterone and estradiol, but not by DHT. Neither estradiol nor DHT affected stimulus-secretion coupling of hormone secretion, because they did not inhibit KCl (25 mM)-stimulated VP release. BSA conjugates of estradiol (200 nM) and DHT (10 mM) also inhibited osmotically stimulated VP release, and VP mRNA content was inhibited by BSA-estradiol, but not by BSA-DHT, suggesting nongenomic actions of the steroids. The differential effects of estradiol and DHT on VP mRNA imply distinct actions for these steroids, and the DHT mechanism uncouples regulation of VP release from VP mRNA content.