Recombinase-Dependent Mouse Lines for Chemogenetic Activation of Genetically Defined Cell Types

• Recombinase-responsive mice express hM3Dq DREADD for induction of cellular activity
• Targeting of hM3Dq to cell body and dendrites increases effective expression levels
• mCherry fusion permits visualization of hM3Dq+ cells in vivo
• Dose-dependent activation of hM3Dq drives behavioral and physiological changes

SummaryChemogenetic technologies, including the mutated human Gq-coupled M3 muscarinic receptor (hM3Dq), have greatly facilitated our ability to directly link changes in cellular activity to altered physiology and behavior. Here, we extend the hM3Dq toolkit with recombinase-responsive mouse lines that permit hM3Dq expression in virtually any cell type. These alleles encode a fusion protein designed to increase effective expression levels by concentrating hM3Dq to the cell body and dendrites. To illustrate their broad utility, we targeted three different genetically defined cell populations: noradrenergic neurons of the compact, bilateral locus coeruleus and two dispersed populations, Camk2a+ neurons and GFAP+ glia. In all three populations, we observed reproducible expression and confirmed that activation of hM3Dq is sufficient to dose-dependently evoke phenotypic changes, without extreme phenotypes associated with hM3Dq overexpression. These alleles offer the ability to non-invasively control activity of diverse cell types to uncover their function and dysfunction at any developmental stage.

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