Viral vectors carrying NR1 sequences injected into rat hippocampus interfered with learning and memory

NMDA receptors are relevant to learning and memory as has been shown both by pharmacological and genetic manipulations. Gene knockouts are useful for investigating in vivo functions, but genetic deletions unrestricted in time or region, may lead to developmental defects or death. The challenge is to control expression with temporal and spatial restrictions in the brain. Viral vectors derived from herpes type-1 neurotropic virus are interesting candidates for it. To regulate gene expression of the NMDA receptor NR1 subunit, vectors carrying either sense NR1(+) or antisense NR1(–) sequences and that of the green fluorescent protein (GFP), were constructed. The protein or RNA expression were corroborated in cell culture by GFP autofluorescence, Western blots, immunofluorescence and RT-PCR, and in rat brain, by Western blots and GFP autofluorescence. The vectors were injected into the dorsal hippocampus of adult male Wistar rats. After 6 days each rat was trained and evaluated for both habituation to an open field and inhibitory avoidance to a foot-shock. The rats injected with GFP-NR1(+) vectors showed habituation and learned the inhibitory avoidance, like sham operated rats; while animals injected with GFP-NR1(–) vectors did not. The vectors were useful to modify endogenous gene expression at a defined period, in restricted regions, leading to investigate in vivo functions. NR1 subunit in the hippocampus is involved in mechanisms leading to habituation and to avoidance behaviour, since even a slight change in the availability of NR1 interfered with them.