In Alzheimer’s disease, dysfunctional microglia possess abnormal immunometabolic features that cause neuronal/synaptic damage and aggravate pathology. A critical question is how to reverse or fine-tune abnormal microglial metabolism towards beneficial immunometabolic outcomes. A major metabolic intervention strategy to raise circulating ketone levels for health benefits, such as by consumption of a ketogenic diet 1, fasting, or other approaches collectively called ketotherapeutics, has raised a great deal of interest, but its effects on microglia are not well understood. Our previous in vitro study showed that β-hydroxybutyrate (BHB), a major ketone body, reverses multiple pathological features of amyloid-β oligomer (AβO)-activated human microglia. In the current study, we tested the in vivo effects of BHB on microglia and synaptic plasticity in the 5xFAD Alzheimer’s disease mouse model. To capture the metabolic impact of BHB on microglia, we employed a “subacute” 1-week regimen of daily intraperitoneal injection of BHB (250 mg/kg), which induced brief and mild episodic (daily) ketosis. This short regimen was able to mitigate pro-inflammatory microglia activation linked to NLRP3 inflammasome formation, and reduce brain amyloid-β deposition by enhancing phagocytosis. Remarkably, this regimen mitigated the deficits of hippocampal long-term depression but not long-term potentiation, and this effect was linked to suppression of the inflammasome-generated cytokine IL-1β. Our results suggest that short-term BHB treatment may ameliorate microglial abnormalities and microglia-regulated synaptic deficits in Alzheimer’s disease. Because beneficial results were achieved with mild episodic BHB elevation alone without diet restriction and without the need of feeding a KD, our results have significant implications to human ketotherapeutics. As KDs are known for poor compliance and low sustainability due to their restrictive nature, our study opens the possibility for alternative ketogenic approaches that are less restrictive, potentially safer, and easier for compliance than a KD, such as short-term BHB injections or dietary ketone esters, a translatable form of induced ketosis.
Overall design: In this study, we tested the effects of BHB on microglia in vivo using 5xFAD mice, which harbor five familial mutations of APP and PSEN1 genes and show robust Aβ production and Aβ‐associated microglia activation and neuroinflammation. we employed a “subacute” 1-week regimen of daily injection of BHB, which induces episodic ketosis similar to that induced by daily strenuous exercise, exercise or fasting. The subacute course was expected to allow a metabolic shift to develop. Freshly isolated microglia was use for RNAseq and analysis.
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