Effects of gonadectomy and hormone replacement on a spontaneous novel object recognition task in adult male rats.

Recent studies in adult male rats have shown that gonadal hormones influence performance on certain working memory and other types of cognitive tasks that are sensitive to lesions of the medial and/or orbital prefrontal cortices. This study asked whether gonadal hormone modulation of prefrontal cortical function in males also extends to the perirhinal division of the rat prefrontal cortex. Specifically, sham-operated control, gonadectomized, and gonadectomized rats supplemented with testosterone propionate or estradiol were tested on a spontaneous novel object recognition task, a paradigm where performance has been shown to be impaired by perirhinal cortical lesions. Using analyses of variance, regression analyses and post-hoc testing to evaluate group differences, it was found that during both the sample and test trials of the task all four groups spent similar absolute and proportional amounts of time ambulating, rearing, stationary, and exploring the two objects present. All groups also explored each of the two identical objects present during sample trials equally. However, during the test trials, only the control and gonadectomized rats given testosterone showed the expected increase in exploration of the novel objects presented, whereas the gonadectomized and gonadectomized, estradiol-supplemental groups continued to explore the novel and familiar objects equally. That regression analyses also identified significant correlations between low bulbospongiosus muscle weight and impaired novel vs. familiar object discrimination further indicates that gonadectomy in adult male rats adversely affects spontaneous novel object recognition in an androgen-sensitive, estrogen-insensitive manner.

Effects of gonadectomy on performance in operant tasks measuring prefrontal cortical function in adult male rats.

Previous studies have shown that gonadectomy in adult male rats influences the acquisition and performance of spatial and other working memory tasks that depend in part on the medial prefrontal cortex and its dopamine innervation. Stimulated by previous findings that gonadectomy alters dopamine axon density in not only medial but several other prefrontal fields, the present studies asked whether gonadectomy might also broadly impact dopamine-dependent prefrontal functions, and whether these effects bore any relation to hormone modulation of mesoprefrontal dopamine afferents. Specifically, control, gonadectomized, and gonadectomized rats given estradiol or testosterone propionate were tested on a series of operant tasks that together measured medial prefrontal functions of spatial working memory, impulsivity and extradimensional set shifting and orbital prefrontal functions of reversal learning/perseveration and motivation. Afterwards, animals were sacrificed, their bulbospongiosus muscles were removed and weighed, their brains were processed for immunocytochemistry for the dopamine-synthesizing enzyme tyrosine hydroxylase, and axon densities were measured in orbital and medial prefrontal fields. Statistical evaluations of group effects on behavior and regression analyses comparing individual performance with muscle weights and axon density measures revealed androgen-reversible effects of gonadectomy on acquisition of spatial working memory and extradimensional set shifting that were correlated with bulbospongiosus weight and medial prefrontal dopamine axon density, estrogen-sensitive influences of gonadectomy on motivation and response withholding that were correlated with bulbospongiosus weight but not with dopamine innervation, and still other prefrontal functions, i.e., impulsivity, reversal learning, that were insensitive to gonadectomy and unrelated to gonadectomy-induced changes in muscle weight or prefrontal dopamine innervation.