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Deficiency of Intellectual Disability-Related Gene Brpf1 Att
Custom-Made AAVs were used for gene knockdown. (From BrainVTA)
The viruses used in this article from BrainVTA are in the table below
Custom-Made AAV  AAV2-scramble-green fluorescent protein (GFP)
 AAV2-shBrpf1-GFP
Weiwei Xian, Jingli Cao, Xiangshan Yuan, Guoxiang Wang, Qiuyan Jin, Hang Zhang, Guomin Zhou, Linya You
Pub Date: 2021-08-17, DOI: 10.3389/fcell.2021.711792, Email: sales@brainvta.com
Patients with monoallelic bromodomain and PHD finger-containing protein 1 (BRPF1) mutations showed intellectual disability. The hippocampus has essential roles in learning and memory. Our previous work indicated that Brpf1 was specifically and strongly expressed in the hippocampus from the perinatal period to adulthood. We hypothesized that mouse Brpf1 plays critical roles in the morphology and function of hippocampal neurons, and its deficiency leads to learning and memory deficits. To test this, we performed immunofluorescence, whole-cell patch clamp, and mRNA-Seq on shBrpf1-infected primary cultured hippocampal neurons to study the effect of Brpf1 knockdown on neuronal morphology, electrophysiological characteristics, and gene regulation. In addition, we performed stereotactic injection into adult mouse hippocampus to knock down Brpf1 in vivo and examined the learning and memory ability by Morris water maze. We found that mild knockdown of Brpf1 reduced mEPSC frequency of cultured hippocampal neurons, before any significant changes of dendritic morphology showed. We also found that Brpf1 mild knockdown in the hippocampus showed a decreasing trend on the spatial learning and memory ability of mice. Finally, mRNA-Seq analyses showed that genes related to learning, memory, and synaptic transmission (such as C1ql1, Gpr17, Htr1d, Glra1, Cxcl10, and Grin2a) were dysregulated upon Brpf1 knockdown. Our results showed that Brpf1 mild knockdown attenuated hippocampal excitatory synaptic transmission and reduced spatial learning and memory ability, which helps explain the symptoms of patients with BRPF1 mutations.

Figure 1. Mild knockdown of Brpf1 did not significantly change the total dendritic length and number of intersections.
To test the roles of Brpf1 in the morphology and function of hippocampal neurons, the authors performed immunofluorescence, whole-cell patch clamp, and mRNA-Seq on shBrpf1-infected primary cultured hippocampal neurons to study the effect of Brpf1 knockdown on neuronal morphology, electrophysiological characteristics, and gene regulation. The findings indicated that Brpf1 mild knockdown attenuated hippocampal excitatory synaptic transmission and reduced spatial learning and memory ability, which helps explain the symptoms of patients with BRPF1 mutations.
 
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