Abstract
In vitro and in vivo studies suggest that the astrocytic adrenergic signalling enhances glycogenolysis which provides energy to be transported to nearby cells and in the form of lactate. This energy source is important for motor and cognitive functioning. While it is suspected that the β2-adrenergic receptor on astrocytes might contribute to this energy balance, it has not yet been shown conclusively in vivo. Inducible astrocyte specific β2-adrenergic receptor knock-out mice were generated by crossing homozygous β2-adrenergic receptor floxed mice (Adrb2flox) and mice with heterozygous tamoxifen-inducible Cre recombinase-expression driven by the astrocyte specific L-glutamate/L-aspartate transporter promoter (GLAST-CreERT2). Assessments using the modified SHIRPA (SmithKline/Harwell/Imperial College/Royal Hospital/Phenotype Assessment) test battery, swimming ability test, and accelerating rotarod test, performed at 1, 2 and 4 weeks, 6 and 12 months after tamoxifen (or vehicle) administration did not reveal any differences in physical health or motor functions between the knock-out mice and controls. However deficits were found in the cognitive ability of aged, but not young adult mice, reflected in impaired learning in the Morris Water Maze. Similarly, long-term potentiation (LTP) was impaired in hippocampal brain slices of aged knock-out mice maintained in low glucose media. Using microdialysis in cerebellar white matter we found no significant differences in extracellular lactate or glucose between the young adult knock-out mice and controls, although trends were detected. Our results suggest that β2-adrenergic receptor expression on astrocytes in mice may be important for maintaining cognitive health at advanced age, but is dispensable for motor function.
Highlights
Astrocytes are the main cellular targets of norepinephrine (NE) terminals in the brain [1] and the β2 adrenergic receptor (β2AR) is present on astrocytes in mice, along with the α1A, α2A and β1 adrenoreceptors [2].PLOS ONE | DOI:10.1371/journal.pone.0164721 October 24, 2016Astrocytic β2 Adrenergic Receptor Affects Memory
Whole body knockouts of the β2AR have been studied for some time, the receptor has a broad range of effects on peripheral body systems, and we were interested in what effect the specific astrocytic loss might have on motor and cognitive function
Genotype groups used in these experiments were: homozygous Adrb2flox and heterozygous GLAST-CreERT2 (Adrb2flox+/+ GLAST-CreERT2+/-) animals treated with tamoxifen (KO) or the corn oil vehicle (CO), tamoxifen treated conditional Cre expressing mice (CRE) (Adrb2flox-/-GLAST-CreERT2+/-) and tamoxifen treated floxed mice (FLX) (Adrb2flox+/+GLASTCreERT2-/-)
Summary
Astrocytes are the main cellular targets of norepinephrine (NE) terminals in the brain [1] and the β2AR is present on astrocytes in mice, along with the α1A, α2A and β1 adrenoreceptors [2]. NE stimulation influences potassium homeostasis and enhances astrocytic glutamate uptake from the synaptic cleft, thereby preventing the overload of glutamate and subsequent intracellular Ca2+ elevation, a condition known as excitotoxicity [4, 7, 8] These processes are essential for brain function, but are very energy expensive. Whole body knockouts of the β2AR have been studied for some time, the receptor has a broad range of effects on peripheral body systems, and we were interested in what effect the specific astrocytic loss might have on motor and cognitive function For this reason, we developed an inducible astrocytic knockout of β2AR by crossing a mouse with floxed β2AR [16] with a mouse expressing CreERT2 under the glutamate aspartate transporter (GLAST, SLC1A3) promotor [17]. While GLAST is expressed in some cell types outside of the CNS [18], within the CNS in adult mice, the expression is considered specific to astrocytes and radial glial cells at early stages of development, along with those rare cells undergoing neurogenesis [17]
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