Increased neurogenesis in dentate gyrus of long-lived Ames dwarf mice

Abstract

Neurogenesis occurs throughout adult life in the dentate gyrus of mammalian hippocampus and has been suggested to play an important role in cognitive function. Multiple trophic factors including IGF-I have been demonstrated to regulate hippocampal neurogenesis. Ames dwarf mice live considerably longer than normal animals and maintain physiological function at youthful levels, including cognitive function, despite a deficiency of circulating GH and IGF-I. Here we show an increase in numbers of newly generated cells [bromodeoxyuridine (BrdU) positive] and newborn neurons (neuronal nuclear antigen and BrdU positive) in the dentate gyrus of adult dwarf mice compared with normal mice using BrdU labeling. Despite the profound suppression of hippocampal GH expression, hippocampal IGF-I protein levels are up-regulated and the corresponding mRNAs are as high in Ames dwarf as in normal mice. Our results suggest that local/hippocampal IGF-I expression may have induced the increase in hippocampal neurogenesis, and increased neurogenesis might contribute to the maintenance of youthful levels of cognitive function during aging in these long-lived animals.