Photoperiodic Sensitivity of Prepubertal Female Fisher 344 Rats

Abstract

The laboratory rat is thought to be a poor model for study of the photoperiodic control of reproduction; however, this has only been investigated in a few rat strains. The purpose of the present investigation was to determine if the neuroendocrine‐reproductive system of the Fisher 344 (F344) rat, an inbreed strain, is sensitive to light deprivation. All treatments were performed on 28‐day‐old female F344 rats and the animals maintained for 8 weeks in a 14:10 light: dark cycle. Blinding resulted in a 65% (P < 0.01) reduction in uterine weight and a 25% (P < 0.01) decrease in ovarian weight. Accompanying these reductions in blinded animals were significant inhibitions of anterior pituitary weight, serum prolactin levels, and pituitary prolactin synthesis as measured in vitro. Pinealectomy of the blinded animals prevented all of these effects. Additionally, when olfactory bulbectomy, a procedure known to sensitize rats to the effects of photoperiod, was combined with blinding, the results did not differ significantly from that found with blinding alone. From these data we conclude that 1) the neuroendocrine‐reproductive system of the prepubertal F344 female rat is highly sensitive to light deprivation; 2) light deprivation produces its antigonadotrophic effect through the pineal gland; and 3) olfactory bulbectomy does not potentiate the effects of blinding in the F344 rat.