Changes in the Daily Rhythm of Serum Testosterone Levels Following Superior Cervical Sympathetic Ganglionectomy in the Cold‐Exposed Rat: The Role of the Pineal

The effect superior cervical sympathetic ganglionectomy (Gx) exerted on the daily rhythm of serum testosterone levels was investigated in cold‐exposed rats. Rhythmic changes in pineal and pituitary weights were also measured. 1. Exposure to cold (10°C for 72 h) resulted in a signficant decrease of serum testosterone level and in an increase of the pineal weight. 2. In neutral ambient temperature (24°C) Gx, 30 d after operation, led to a moderate, statistically insignificant increase of serum testosterone levels and to decreased pineal weights (statistically significant). 3. The reactions provoked by cold exposure were counteracted by Gx. Testosterone levels, as well as the pineal weight, showed no remarkable change in the Gx, cold‐exposed animals. 4. These results confirm our assumption that experimental manipulations of the pineal gland can provoke significant changes in the neuroendocrine system only under special loading circumstances, e. g., cold exposure. Sympathetic denervation of the pineal gland counteracts the cold‐induced decrease of testosterone levels by counteracting the pineal antigonadotropic activity. 5. The empirical regression curves of the investigated parameters indicate that Gx or cold exposure provide a shift in the upper and lower limits of the daily rhythm. Partly inverted rhythms were also observed. 6. The presented results are discussed in relation to the parallel changes previously described in serum thyroxin, cholesterol, thyrotropin (TSH), and pituitary TSH levels. Thyroidal‐gonadal interactions, as well as cold exposure as a stress‐generating factor, have been considered in the possible explanation of the data herein reported.