Plasma concentrations of adrenocorticotropin-related peptides after corticotropin-releasing hormone and vasopressin injections in sheep

Effects of intracerebroventricular infusions of arginine vasopressin in sheep

In sheep, neither the in vivo effect of vasopressin administered by a method other than systemic infusion nor the central effects on behavior from the perspective of stress regulation has been fully elucidated in an intact animal. We examined changes in behavioral, adrenocorticotropic, and autonomic nervous functions after intracerebroventricular infusions of arginine vasopressin (AVP) to elucidate its central role. Intracerebroventricular infusions of AVP (0, 0.12, 1.2 and 12 microg/500 microl/30 min) evoked a dose-related increase in plasma cortisol concentration. There were significant treatment-related effects on the total duration of sham-chewing (Friedman's test, X2=12.75, p=.0052), on the total duration of bar-biting (Friedman's test, X2=15.0, p=.0018), and on the total duration of rubbing (Friedman's test, X2=12.0, p=.0074). AVP 12 microg treatment induced a greater degree of sham-chewing and bar-biting than the other three treatments did (Nemenyi multiple comparisons: p<0.1). These findings indicate, together with our previous findings, that AVP has the same corticotropic potential as corticotropin-releasing hormone infused intracerebroventricularly in equal molar concentrations. Although the degree to which central stress signaling pathways are involved in these responses remains speculative, the relationships between stereotypies and central AVP are of particular interest.

Effects of Trypanosoma congolense on pituitary and adrenocortical function in sheep: responses to exogenous corticotrophin-releasing hormone

To investigate whether the aberrations in adrenocortical and gonadal activity observed in trypanosomiasis may be induced by the refractoriness of the pituitary to hypothalamic liberins, the responses of the pituitary and adrenal glands and the testes to stimulation with ovine corticotrophin-releasing hormone (oCRH) were studied in rams 23 days (acute phase) and 65 days (chronic phase) after they were infected with Trypanosoma congolense. On both occasions a peak of plasma ACTH was observed within 20 minutes of the injection of CRH but the rate of increase in ACTH and the mean peak values in the infected rams were significantly lower (P < 0.001) on day 23 but higher (P < 0.05) on day 65 than in the uninfected control rams. Plasma cortisol concentration increased in all the rams after the injection of CRH. The rate of increase in plasma cortisol and the mean peak values were not significantly different between the control and infected rams on day 23 but were significantly (P < 0.001) higher in the infected rams on day 65. However, the post peak concentrations of ACTH declined more rapidly in the infected rams than in the controls on both days 23 and 65. The plasma concentration of luteinising hormone (LH) did not change after the injection of CRH, whereas the testosterone levels showed a delayed response and its concentration increased when plasma ACTH and cortisol concentrations declined in both groups. On day 23, there was a greater increase in testosterone in the infected than in the control rams.(ABSTRACT TRUNCATED AT 250 WORDS)

ACTH, cortisol and glucose responses after administration of vasopressin in cattle and sheep

The present study compared the effects of vasopressin on plasma concentrations of corticotropin, cortisol and glucose in cattle and sheep. After intravenous injection of 1, 0.1 and 0.01 microgram vasopressin per kg body weight, the plasma vasopressin concentration increased proportionally to the injected dose, and this increase was similar in cattle and sheep. Doses of 1 and 0.1 microgram per kg body weight of vasopressin triggered significant responses of corticotropin, cortisol and glucose in cattle and sheep. The corticotropin response to both doses was significantly greater in sheep, whereas the glucose response was greater in cattle. The cortisol response did not differ between species. The lowest dose of vasopressin (0.01 microgram per kg body weight) still induced a significant cortisol response without a substantial effect on plasma corticotropin, suggesting that a direct action of vasopressin on the adrenals may contribute to the observed cortisol response. The results demonstrate that vasopressin increases plasma levels of corticotropin, cortisol and glucose in cattle, as it does in sheep, but the intensities of the corticotropin and glucose responses to vasopressin differ between cattle and sheep. The reasons for these differences remain to be clarified.

Reverse haemolytic plaque assay study of corticotropin-releasing hormone and arginine vasopressin interaction in ovine corticotropes

Abstract Corticotropin-releasing hormone and arginine vasopressin are known to interact in stimulating secretion of adrenocorticotropin-related peptides from corticotropes. However, the mechanism mediating this interaction is uncertain. Recently, evidence has been provided using a reverse haemolytic plaque assay that in rat pituitary cells, arginine vasopressin potentiates the effects of corticotropin-releasing hormone by increasing the percentage of target cells that secrete adrenocorticotropin. To determine whether a similar mechanism also operates in the sheep corticotrope, which is reportedly more sensitive to arginine vasopressin than that of the rat, a reverse haemolytic plaque assay for beta-endorphin secretion was used to study the response of ovine corticotropes to stimulation by increasing doses of corticotropin-releasing hormone or arginine vasopressin (0.1 nM to 10.0 nM) alone or in combination. In the reverse haemolytic plaque assay, beta-endorphin antiserum at 1:50 and complement at 1:10 were found to be optimal dilutions for plaque formation. A concentration-dependent response curve to corticotropin-releasing hormone was obtained with a significant increase in plaque area from basal to reach maximal levels at 1.0 nM. Arginine vasopressin also stimulated an increase in plaque area, however, plaques formed were significantly smaller than those caused by corticotropin-releasing hormone. Since in the reverse haemolytic plaque assay, plaque area is related to the amount of hormone secreted by the cell, results demonstrate that although corticotropin-releasing hormone and arginine vasopressin both stimulate beta-endorphin secretion from ovine corticotropes, corticotropin-releasing hormone is a more potent secretagogue than arginine vasopressin in that it causes the formation of significantly larger plaques. The addition of arginine vasopressin to low concentrations of corticotropin-releasing hormone caused plaque areas to reach maximal levels at 0.1 nM whereas these levels were only attained at 1.0 nM when corticotropin-releasing hormone was used alone. Therefore, arginine vasopressin interacts with corticotropin-releasing hormone to increase corticotrope responses by increasing their secretory response to corticotropin-releasing hormone. These data are consistent with previous work suggesting that arginine vasopressin increases the expression of corticotropin-releasing hormone receptors on the corticotrope cell surface. However, no significant increase in the percentage of plaque-forming cells was seen with either corticotropin-releasing hormone or arginine vasopressin alone or in combination implying that there was no recruitment of previously non-secreting cells.

Effects of CRF, AVP and opioid peptides on pituitary-adrenal responses in sheep

Intravenous administration of equimolar doses of CRF (30 micrograms) and AVP (6 micrograms) to mature female sheep resulted in elevated plasma concentrations of ACTH and cortisol. Simultaneous administration of equimolar amounts of CRF and AVP resulted in a greater ACTH response compared with the sum of the responses to CRF or AVP given independently. Intravenous bolus administration of the endogenous opioid, Met-enkephalin (2.5 mg), and its potent and long-acting analogue, [D-Ala2,N-Phe4,Met(O)ol5]-enkephalin [FK33-824 (250 micrograms)], did not alter ACTH or cortisol secretion. Furthermore, naloxone, an opioid receptor antagonist given alone or concurrently with Met-enkephalin or FK33-824, was without effect. Pituitary-adrenal responses to CRF were unaltered by simultaneous administration of Met-enkephalin, FK33-824 or naloxone. These results suggest that in the sheep, opioid involvement in the tonic regulation of pituitary-adrenal function is absent. However, CRF and AVP may act alone or in synergy to control the release of biologically active ACTH from the sheep pituitary gland.