Brain-derived neurotrophic factor (BDNF) is known to play a critical role in the synaptic plasticity underlying the acquisition and/or consolidation of certain forms of memory. Additionally, a role has been suggested for neurotrophin function within the hippocampus in protection from anxiety and depressive disorders. Understanding the function of this important gene in adult animals has been limited however, because standard knockouts are confounded by gene effects during development. There are no BDNF receptor-specific pharmacological agents, and infusions of neuropeptides or antibodies have other significant limitations. In these studies, we injected a lentivirus expressing Cre recombinase bilaterally into the dorsal hippocampus in adult mice floxed at the BDNF locus to facilitate the sitespecific deletion of the BDNF gene in adult animals. Significant decreases in BDNF mRNA expression are demonstrated in the hippocampi of lenti-Cre-infected animals compared with control lenti-GFP-infected animals. Behaviorally, there were no significant effects of BDNF deletion on locomotion or baseline anxiety measured with startle. In contrast, hippocampalspecific BDNF deletions impair novel object recognition and spatial learning as demonstrated with the Morris water maze. Although there were no effects on the acquisition or expression fear, animals with BDNF deletions show significantly reduced extinction of conditioned fear as measured both with fear-potentiated startle and freezing. These data suggest that the cognitive deficits and impairment in extinction of aversive memory found in depression and anxiety disorders may be directly related to decreased hippocampal BDNF.
The development of cell-type-specific mini-promoters for genetic studies is complicated by a number of issues. Here, we describe a general method for the relatively rapid screening of specific promoter activity in cell culture, in acute brain slice preparations and in vivo. Specifically, we examine the activity of an B3 kb promoter region from the neuroactive peptide cholecystokinin (CCK) compared to the commonly used cytomegalovirus promoter. We find a high degree of cell-type selectivity in vivo using lentiviral approaches in rats and traditional transgenic approaches in mice. Appropriate colocalization of Cre-recombinase and CCK gene expression is found within the hippocampus, when the CCK promoter is driving either the expression of Cre-recombinase or green fluorescent protein. We also demonstrate fluorescent identification of CCK-positive interneurons that allows for cell-type-specific electrophysiologic studies in rats and mice. In conclusion, these studies identify a functional mini-promoter for the CCK gene and outline a novel and sensitive general method to test activity of selective promoters in vitro and in vivo. This approach may allow for the more rapid identification of specific promoters for use with transgenic animals, in genetically modified viruses, and in the design of targeted, therapeutic genedelivery systems.
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