Stereological characterization of the major cell lineages in the mouse dorsal dentate gyrus

Adult neurogenesis in the dorsal dentate gyrus (DG) subregion of the mammalian hippocampus supports critical cognitive processes related to memory. Local DG cell populations form a neurogenic niche specialized to regulate adult neurogenesis. Recently, DG astrocytes, microglia, endothelia, and neural stem cells have been identified as sources of neurogenesismodulating secreted factors. Accurately estimating the size of these cell populations is useful for elucidating their relative contributions to niche physiology. Previous studies have characterized these cell types individually, but to our knowledge no comprehensive study of all these cell types exists. This is problematic because considerable variability in reported population size complicates comparisons across studies. Here, we apply consistent stereological methods within a single study to estimate cell density for neurogenesis-modulating secretory cell types in the dorsal DG of adult mice. We used immunohistochemical phenotypic markers to quantify cell density and found that stellate astrocytes were the most numerous followed by endothelia, intermediate progenitors, microglia, and neural stem cells. We did not observe any significant sex differences in cell density. We expect our data will facilitate efforts to elucidate the role of DG secretory cell populations in regulating adult neurogenesis.