Generation and Characterization of a Novel Prkcd- Cre Rat Model.
Sanne ToivainenMichele PetrellaLi XuEsther VisserTamina WeissSofia VellereZane ZeierClaes WahlestedtEstelle BarbierEsi DomiMarkus HeiligPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2024)
Activity of central amygdala (CeA) PKCδ expressing neurons has been linked to appetite regulation, anxiety-like behaviors, pain sensitivity, and addiction-related behaviors. Studies of the role that CeA PKCδ+ neurons play in these behaviors have largely been carried out in mice, and genetic tools that would allow selective manipulation of PKCδ+ cells in rats have been lacking. Here, we used a CRISPR/Cas9 strategy to generate a transgenic Prkcd -cre knock-in rat and characterized this model using anatomical, electrophysiological, and behavioral approaches in both sexes. In the CeA, Cre was selectively expressed in PKCδ+ cells. Anterograde projections of PKCδ+ neurons to cortical regions, subcortical regions, several hypothalamic nuclei, the amygdala complex, and midbrain dopaminergic regions were largely consistent with published mouse data. In a behavioral screen, we found no differences between Cre + rats and Cre - wild-type littermates. Optogenetic stimulation of CeA PKCδ+ neurons in a palatable food intake assay resulted in an increased latency to first feeding and decreased total food intake, once again replicating published mouse findings. Lastly, using a real-time place preference task, we found that stimulation of PKCδ+ neurons promoted aversion, without affecting locomotor activity. Collectively, these findings establish the novel Prkcd -Cre rat line as a valuable tool that complements available mouse lines for investigating the functional role of PKCδ+ neurons.
Keyphrases
- spinal cord
- induced apoptosis
- crispr cas
- wild type
- protein kinase
- cell cycle arrest
- oxidative stress
- functional connectivity
- high throughput
- chronic pain
- systematic review
- genome editing
- neuropathic pain
- endoplasmic reticulum stress
- type diabetes
- depressive symptoms
- adipose tissue
- metabolic syndrome
- genome wide
- signaling pathway
- electronic health record
- copy number