Abstract
The cholinergic transmission in the medial septum and ventral limb of the diagonal band of broca (MS/VDB)-hippocampal circuit and its associated theta oscillations play a crucial role in chronic cerebral hypoperfusion (CCH)-related cognitive impairment. However, the contribution and mechanism of the vesicular acetylcholine transporter (VAChT), a vital protein that regulates acetylcholine (ACh) release, in CCH-related cognitive impairment are not well understood. To investigate this, we established a rat model of CCH by performing 2-vessel occlusion (2-VO) and overexpressed VAChT in the MS/VDB via stereotaxic injection of adeno-associated virus (AAV). We evaluated the cognitive function of the rats using the Morris Water Maze (MWM) and Novel Object Recognition Test (NOR). We employed enzyme-linked immunosorbent assay (ELISA), Western blot (WB), and immunohistochemistry (IHC) to assess hippocampal cholinergic levels. We also conducted in vivo local field potentials (LFPs) recording experiments to evaluate changes in hippocampal theta oscillations and synchrony. Our findings showed that VAChT overexpression shortened the escape latency in the hidden platform test, increased swimming time in the platform quadrant in probe trains, and increased the recognition index (RI) in NOR. Moreover, VAChT overexpression increased hippocampal cholinergic levels, improved theta oscillations, and improved the synchrony of theta oscillations between CA1 and CA3 in CCH rats. These results suggest that VAChT plays a protective role in CCH-induced cognitive deficits by regulating cholinergic transmission in the MS/VDB-hippocampal circuit and promoting hippocampal theta oscillations. Therefore, VAChT could be a promising therapeutic target for treating CCH-related cognitive impairments.
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