Brain mast cells are influenced by chemosensory cues associated with estrus induction in female prairie voles (Microtus ochrogaster).

Historically, the brain has been viewed as protected from the infiltration of peripheral hematopoietic cells by the blood-brain barrier. However, numerous immune cell types have been found in the central nervous system (CNS). Mast cells, granulocytic immune cells, are found in the CNS of birds and mammals and their numbers and location are influenced by both extrinsic and intrinsic factors, including reproductive behavior and endocrine status. The present study used female prairie voles (Microtus ochrogaster) to investigate the interactions between brain mast cells and stimuli associated with estrus induction. Unlike spontaneous ovulators such as rats and mice, female prairie voles are induced into estrus by chemosensory stimuli present in conspecific male urine. Prior to estrus induction, female voles have undetectable concentrations of estrogen that rise rapidly following exposure to a male or male urine. In the first experiment, we examined whether mast cells may be influenced by estrus induction. Female voles exposed to conspecific male urine had increased numbers of mast cells in the main olfactory bulbs and epithalamus (medial habenula), but not the thalamus or median eminence, relative to control groups. Next, to determine if this mast cell increase was the result of elevated estrogen concentrations, female voles were injected with estradiol or vehicle and brain mast cell numbers analyzed. No differences in brain mast cell numbers were observed between estradiol-injected and control females in any brain area investigated. Together, these results lend further support to the contention that mast cell numbers and/or distribution can be influenced by reproductively relevant stimuli and underscore the utility of this vole model for delineating the function of brain mast cells.