The effects of 4–6 days of food deprivation on the pituitary-testicular function of adult male rats were studied. Fasting decreased body weights on average by 23% ( P <0·01) and those of seminal vesicles by 55% ( P <0·01) in 4 days. No consistent changes were found in testicular and ventral prostate weights. The pituitary levels of gonadotrophin-releasing hormone (GnRH) receptors decreased by 50% ( P <0·01). Serum and pituitary levels of LH, FSH and prolactin decreased by 25–50% ( P <0·01 for all). Testicular and serum levels of testosterone decreased by 70–80%, testicular LH receptors by 26%, those of prolactin by 50% ( P <0·01 for all), but those of FSH remained unaffected. Acute (2 h) stimulation by a GnRH agonist (buserelin, 10 μg/kg i.m.) resulted in similar LH, FSH and testosterone responses in the fasted and control animals, and human chorionic gonadotrophin (hCG) stimulation (30 IU/kg i.m.) in similar increases in testosterone. A 42% decrease was found in pituitary content of mRNA of the common α subunit ( P <0·05), but the mRNAs of the LH- and FSH-β chains and prolactin were unaffected by fasting for 4 days. When the same mRNAs were measured after 6 days of fasting, the decrease of the mRNA of FSH-β also became significant (50%, P <0·01). In contrast, the mRNA of LH-β was increased twofold ( P <0·01) at this time and serum LH levels were similar in control and starved animals. It is concluded that during short-term starvation of male rats: (1) the decrease in gonadotrophin and prolactin synthesis and secretion is first noticed on the level of translation (protein synthesis), and the mRNA levels of these hormones may respond more slowly to starvation, (2) decreased pituitary GnRH receptors indicate decreased GnRH release from the hypothalamus, (3)the gonadotrophin and prolactin loss results secondarily in decreased testicular androgen synthesis and LH and prolactin receptor levels, (4) no decrease occurs during starvation in acute gonadotrophin response to GnRH, or testicular testosterone response to hCG, (5) the primary response to starvation in male rat pituitary-testicular function is the loss of normal hypothalamic support of gonadotrophin and prolactin secretion, rather than direct nutritional effects on the pituitary and testis, and (6) when starvation is continued beyond 4 days, a recovery is seen in pituitary mRNA on the LH-β chain and in serum LH, most probably because the starvation-associated decrease serum testosterone is a more potent positive stimulus of LH synthesis than the direct hypothalamic-pituitary inhibition.

Journal of Endocrinology (1989) 121, 409–417