The influence of cervical sympathetic neurons on parathyroid hormone and calcitonin release in the rat: independence of pineal mediation.

The objective of this study was to evaluate the involvement of the pineal gland in modulation of parathyroid hormone (PTH) and calcitonin release found in rats after changes in activity of cervical sympathetic nerves. The response of serum PTH to a hypocalcemia produced by EDTA injection, and of serum calcitonin to a hypercalcemia produced by administering calcium chloride, were studied in rats at the time of the wallerian degeneration of regional sympathetic nerves (i.e., 16 hr after superior cervical ganglionectomy, SCGx). Rats received a pinealectomy or its sham-operation 4 days before SCGx. During wallerian degeneration of nerves after SCGx, a higher hypocalcemia and a lower PTH response were found as compared to sham-SCGx rats, regardless of whether the pineal gland was present or not. When the response of calcitonin to a bolus injection of calcium chloride was assessed, rats subjected to SCGx 16 hr earlier showed a depressed calcitonin release, which was also unaffected after pinealectomy. To a similar extent in pinealectomized and sham-pinealectomized rats, a mild stress given by the subcutaneous injection of turpentine oil brought about a greater hypocalcemia after EDTA, concomitantly with a higher PTH secretory response. In turpentine oil-injected rats, the rise of serum calcitonin was significantly greater than that of vehicle-treated rats, regardless of pineal presence. The results further indicate that cervical autonomic nerves constitute a pathway through which the brain modulates calcium homeostasis and do not support the participation of the pineal gland in short term changes of PTH or calcitonin release.