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RESEARCH PRODUCT
Targeting Homer genes using adeno-associated viral vector: lessons learned from behavioural and neurochemical studies.
Matthias KlugmannKaren K. Szumlinskisubject
Scaffold proteinSubstance-Related DisordersTransgeneEmotionsGenetic VectorsGlutamic AcidMice TransgenicBiologySynaptic TransmissionArticleViral vectorAdenoviridaeSmall hairpin RNAMiceNeurochemicalHomer Scaffolding ProteinsAnimalsGeneGenes Immediate-EarlyPharmacologyMice KnockoutBehavior AnimalGlutamate receptorGene Transfer TechniquesBrainPsychiatry and Mental healthAlcoholismKnockout mouseMutagenesis Site-DirectedArousalCarrier ProteinsNeurosciencedescription
Over a decade of in-vitro data support a critical role for members of the Homer family of postsynaptic scaffolding proteins in regulating the functional architecture of glutamate synapses. Earlier studies of Homer knockout mice indicated a necessary role for Homer gene products in normal mesocorticolimbic glutamate transmission and behaviours associated therewith. The advent of adeno-associated viral vectors carrying cDNA for, or short hairpin RNA against, specific Homer isoforms enabled the site-directed targeting of Homers to neurons in the brain. This approach has allowed our groups to address developmental issues associated with conventional knockout mice, to confirm active roles for distinct Homer isoforms in regulating glutamate transmission in vivo, as well as in mediating a variety of behavioural processes. This review summarizes the existing data derived from our studies using adeno-associated viral vector-mediated neuronal targeting of Homer in rodents, implicating this family of proteins in drug and alcohol addiction, learning/memory and emotional processing.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-09-01 | Behavioural pharmacology |