Spatial transcriptomics shows moxibustion promotes hippocampus astrocyte and neuron interaction

Alzheimer's disease (AD) is a common and irreversible neurodegenerative disease accompanied by extensive synaptic loss. Previous studies found that moxibustion had good therapeutic effects on AD. We here investigated whether moxibustion could alleviate the cognitive impairment of AD by promoting the "astrocyte-neuron" interaction and enhancing synaptic plasticity. Materials and

Moxibustion treatment was administrated to Baihui (GV20) and Yongquan (KI1) in APP/PS1 mice. We first evaluated the behavior of APP/PS1 mice with Morris water maze test, and observed the synaptic structure before and after moxibustion intervention. Then, the transcriptome characteristics (TC) and "astrocyte-neuron" interaction were evaluated by spatial transcriptomics (ST). CD38 and its ligand Pecam1, one of the energy shuttle pathways between neurons and astrocytes, were also be detected. Key findings: The

Our study provides new evidences for the use of moxibustion to increase the "astrocyte - neuron" interaction thus to enhance synaptic plasticity of APP/PS1 mice.