Abstract
Remembering the location of food is essential for survival. Rodents and humans employ mainly hippocampus-dependent spatial strategies, but when being stressed they shift to striatum-mediated stimulus-based strategies. To investigate underlying brain circuits, we tested mice with a heightened stress susceptibility due to a lack of the GABA-synthetizing enzyme GAD65 (GAD65-/- mice) in a dual solution task. Here, GAD65-/- mice preferred to locate a food reward in an open field via a proximal cue, while their wildtype littermates preferred a spatial strategy. The analysis of cFos co-activation across brain regions and of stress-induced mRNA expression changes of GAD65 pointed towards the hippocampal dorsal dentate gyrus (dDG) as a central structure for mediating stress effects on strategy choices via GAD65. Reducing the GAD65 expression locally in the dDG by a shRNA mediated knock down was sufficient to replicate the phenotype of the global GAD65 knock out and to increase dDG excitability. Using DREADD vectors to specifically interfere with dDG circuit activity during dual solution retrieval but not learning confirmed that the dDG modulates strategy choices and that a balanced excitability of this structure is necessary to establish spatial strategy preference. These data highlight the dDG as a critical hub for choosing between spatial and non-spatial foraging strategies.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
2nd paragraph of discussion updated to clarify that non-stressed GAD65 knock out mice were used, including description of their phenotype; New data on MR/ GR expression in dDG and striatum of GAD65-/- mice added to Fig. 2C+D (see also results section 3.2. and discussion, p. 17 l.19-31); Expected mCherry-labeling for AAV-Camk2a-hM4Di virus infection explained in methods (p. 9) and figure legend to Fig. 4C; discussion on for involvement of potential DG circuits extended (p. 19); funding information updated
Abbreviations
- ACC
- anterior cingulate cortex
- BLA
- basolateral amygdala
- CA
- Cornu ammonis
- CeA
- central amygdala
- CNO
- clozapine-N-oxide
- CORT
- corticosterone
- dDG
- dorsal dentate gyrus
- DREADD
- designer receptors exclusively activated by designer drugs
- fEPSP
- field postsynaptic potentials
- GAD65
- glutamic acid decarboxylating enzyme, 65 kDa isoform
- GR
- glucocorticoid receptors
- LA
- lateral amygdala
- mPFC
- medial prefrontal cortex
- MR
- mineralocorticoid receptors
- PL/IL
- Pre-/ Infralimbic cortex