Next-generation sequencing of wild type and 5XFAD transcriptomes for Alzheimer's disease study

We found some novel miRNA that targets SIRT1 may contribute to the pathogenesis in AD mouse model. We first identified that SIRT1 is significantly reduced in Alzheimer patient`s precentral gyrus and 5XFAD mice. To determine whether the strategy of inhibiting some miRNA affects AD pathology, we synthesized antisense oligonucleotides of miRNA (miRNA ASO) and studied this sequence in the brain of 5XFAD through direct intracerebral ventricular injection using stereotaxic instrument. We identified miRNA ASO significantly reduced amyloid beta plaque and amyloid production enzyme. Importantly, the attenuation of amyloid beta plaques through miRNA ASO was caused by a phagocytic activity of glial cells, by which it can directly target CD36. miRNA ASO also decreases inflammatory responses. These results inhibit neuronal loss caused by amyloid beta and leading to improvement of cognitive impairment. These insights of miRNA ASO suggests as therapeutic scope against AD pathology. Frontal cortex mRNA profiles of 6- and 11-month-old wild type (WT) and 5XFAD mice were generated by next-generation sequencing, using Illumina NovaSeq 6000 system.