Luteinizing hormone-releasing hormone and oxytocin response to hyperosmotic stimulation:: In vitro study

It was shown previously that luteinizing hormone-releasing hormone (LHRH) affects the neurohypophysial oxytocin release in water-deprived rats. However, the detailed mechanisms by which LHRH modifies the oxytocin response to hyperosmotic stimulation have not been explained so far. Using the isolated hypothalamo-neurohypophysial explants obtained from euhydrated rats, the effect of LHRH on the oxytocin secretion was studied under conditions of direct osmotic (i.e., Na+-evoked) as well as nonosmotic (i.e,, K+-evoked) stimulation. Additionally, the oxytocin response to LHRH was investigated using the explants obtained from animals drinking 2% saline for eight days (systemic, i.e., both direct and indirect, osmotic stimulation). LHRH significantly enhanced Na+- and K+-evoked oxytocin release from explants taken from rats drinking tap water, indicating that LHRH could affect the Na+/K+-dependent depolarization of perikarya of oxytocin neurones. In contrast, LHRH significantly diminished the K+-stimulated hormone release when the neurohypophysial complex was obtained from previously salt-loaded rats, suggesting that peripheral osmotic stimulation somehow modifies the sensitivity of oxytocinergic neurones to LHRH (possible mechanisms are discussed). It is concluded that LHRH may participate in the regulation of oxytocin secretion via both direct and indirect impact on magnocellular oxytocinergic neurones depending on the current functional status of the hypothalamo-neurohypophysial complex. (C) 2000 Elsevier Science Inc.