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Lowering Hippocampal miR-29a Expression Slows Cognitive Decline and Reduces Beta-Amyloid Deposition in 5×FAD Mice

Zhen Mei, Jiaqi Liu, Jason P. Schroeder, David Weinshenker, Duc M. Duong, Nicholas T. Seyfried, Yujing Li, Peng Jin, Aliza P. Wingo, Thomas S. Wingo

2023Molecular Neurobiology15 citationsDOIOpen Access PDF

Abstract

microRNA-29a (miR-29a) increases with age in humans and mice, and, in the brain, it has a role in neuronal maturation and response to inflammation. We previously found higher miR-29a levels in the human brain to be associated with faster antemortem cognitive decline, suggesting that lowering miR-29a levels could ameliorate memory impairment in the 5×FAD AD mouse model. To test this, we generated an adeno-associated virus (AAV) expressing GFP and a miR-29a "sponge" or empty vector. We found that the AAV expressing miR-29a sponge functionally reduced miR-29a levels and improved measures of memory in the Morris water maze and fear condition paradigms when delivered to the hippocampi of 5×FAD and WT mice. miR-29a sponge significantly reduced hippocampal beta-amyloid deposition in 5×FAD mice and lowered astrocyte and microglia activation in both 5×FAD and WT mice. Using transcriptomic and proteomic sequencing, we identified Plxna1 and Wdfy1 as putative effectors at the transcript and protein level in WT and 5×FAD mice, respectively. These data indicate that lower miR-29a levels mitigate cognitive decline, making miR-29a and its target genes worth further evaluation as targets to mitigate Alzheimer's disease (AD).

Topics & Concepts

Hippocampal formationMicrogliaMorris water navigation taskHippocampusCognitive declineAmyloid precursor proteinAlzheimer's diseaseNeuroscienceInflammationAstrocyteTranscriptomeAmyloid betaBiologyEndocrinologyImmunologyMedicineInternal medicineGene expressionDiseaseDementiaBiochemistryGeneCentral nervous systemMicroRNA in disease regulationNeuroinflammation and Neurodegeneration MechanismsNeurogenesis and neuroplasticity mechanisms
Lowering Hippocampal miR-29a Expression Slows Cognitive Decline and Reduces Beta-Amyloid Deposition in 5×FAD Mice | Litcius