Attenuation of cerebral edema facilitates recovery of glymphatic system function after status epilepticus
Kewei Liu, Juan Zhu, Yuan Chang, Zhenzhou Lin, Zhu Shi, Xing Li, Xing Chen, Chuman Lin, Suyue Pan, Kaibin Huang
Kewei Liu, Juan Zhu, Yuan Chang, Zhenzhou Lin, Zhu Shi, Xing Li, Xing Chen, Chuman Lin, Suyue Pan, Kaibin Huang
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Research Article Neuroscience Therapeutics

Attenuation of cerebral edema facilitates recovery of glymphatic system function after status epilepticus

Abstract

Status epilepticus (SE) is a neurological emergency usually accompanied by acute cerebral edema and long-term cognitive impairment, and is characterized by neurodegeneration and aberrant hyperphosphorylated tau protein (p-tau) aggregation. The glia-lymphatic (glymphatic) system plays a central role in facilitating the clearance of metabolic waste from the brain, but its relationship with cerebral edema and cognitive dysfunction after SE is unclear. We hypothesized that cerebral edema after SE might impair glymphatic system function through compression, thus leading to impaired removal of metabolic waste, and ultimately affecting long-term cognitive function. Our results showed that glymphatic system function was temporarily impaired, as evidenced by 2-photon imaging, MRI enhancement, imaging of brain sections, and astrocytic water channel aquaporin 4 (AQP4) protein polarization. The severity of cerebral edema on MRI correlated well with glymphatic system dysfunction within 8 days following SE. Moreover, when cerebral edema was alleviated by glibenclamide treatment or genetic deletion of Trpm4, post-SE glymphatic system function recovered earlier, along with fewer p-tau–deposited neurons and neuronal degeneration and better cognitive function. These findings suggest that SE-induced cerebral edema may cause glymphatic system dysfunction and render the post-SE brain vulnerable to p-tau aggregation and neurocognitive impairment.

Authors

Kewei Liu, Juan Zhu, Yuan Chang, Zhenzhou Lin, Zhu Shi, Xing Li, Xing Chen, Chuman Lin, Suyue Pan, Kaibin Huang

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Figure 10

Genetic deletion of Trpm4 and glibenclamide intervention alleviated p-tau–deposited neurons and neuronal degeneration of mice 28 days after SE.

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Genetic deletion of Trpm4 and glibenclamide intervention alleviated p-ta...
(A) Representative images of p-tau–deposited neurons (white arrows) in the cortex (red, NeuN; green, p-tau; blue, DAPI). Scale bars: 20 μm. (B) Representative images of degenerating neurons in the cortex (green, FJC; blue, DAPI). Scale bars: 100 μm. (C) Quantitative analysis of p-tau–deposited neurons that contain p-tau in the cortex (n = 6 each). (D) Quantitative analysis of FJC-positive cells in the cortex (n = 6 each). Data are shown as the mean ± SD. Differences within multiple groups were examined by 1-way ANOVA with Bonferroni’s multiple comparison test. Continuous data were analyzed by 2-way ANOVA with Bonferroni’s multiple comparison test. *P < 0.05,***P < 0.001, ****P < 0.0001 versus saline control group; ##P < 0.01, ####P < 0.0001 versus vehicle group.