Glymphatic influx and clearance are perturbed in Huntington’s disease
Hongshuai Liu, Lin Chen, Chuangchuang Zhang, Chang Liu, Yuguo Li, Liam Cheng, Yuxiao Ouyang, Catherine Rutledge, John Anderson, Zhiliang Wei, Ziqin Zhang, Hanzhang Lu, Peter C.M. van Zijl, Jeffrey J. Iliff, Jiadi Xu, Wenzhen Duan
Hongshuai Liu, Lin Chen, Chuangchuang Zhang, Chang Liu, Yuguo Li, Liam Cheng, Yuxiao Ouyang, Catherine Rutledge, John Anderson, Zhiliang Wei, Ziqin Zhang, Hanzhang Lu, Peter C.M. van Zijl, Jeffrey J. Iliff, Jiadi Xu, Wenzhen Duan
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Research Article Neuroscience

Glymphatic influx and clearance are perturbed in Huntington’s disease

Abstract

The accumulation of mutant huntingtin protein aggregates in neurons is a pathological hallmark of Huntington’s disease (HD). The glymphatic system, a brain-wide perivascular network, facilitates the exchange of interstitial fluid and cerebrospinal fluid (CSF), supporting interstitial solute clearance of brain wastes. In this study, we employed dynamic glucose-enhanced (DGE) MRI to measure d-glucose clearance from CSF as a tool to predict glymphatic function in a mouse model of HD. We found significantly diminished CSF clearance efficiency in HD mice before phenotypic onset. The impairment of CSF clearance efficiency worsened with disease progression. These DGE MRI findings in compromised glymphatic function were further verified with fluorescence-based imaging of CSF tracer influx, suggesting an impaired glymphatic function in premanifest HD. Moreover, expression of the astroglial water channel aquaporin-4 in the perivascular compartment, a key mediator of glymphatic function, was significantly diminished in both HD mouse brain and human HD brain. Our data, acquired using a clinically translatable MRI, indicate a perturbed glymphatic network in the HD brain. Further validation of these findings in clinical studies will provide insights into the potential of glymphatic clearance as a therapeutic target as well as an early biomarker in HD.

Authors

Hongshuai Liu, Lin Chen, Chuangchuang Zhang, Chang Liu, Yuguo Li, Liam Cheng, Yuxiao Ouyang, Catherine Rutledge, John Anderson, Zhiliang Wei, Ziqin Zhang, Hanzhang Lu, Peter C.M. van Zijl, Jeffrey J. Iliff, Jiadi Xu, Wenzhen Duan

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Figure 4

Reduced perivascular AQP4 localization accompanying astrogliosis in the human HD brain.

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Reduced perivascular AQP4 localization accompanying astrogliosis in the ...
(A) Representative images of coimmunofluorescence staining of AQP4 (red) and collagen IV (green) in the caudate putamen of a patient with HD and age-matched control. Scale bar = 100 μm. Insets in A are 3 times enlarged from the original images. (B) Quantification of colocalized pixels of AQP4 (red in A) and collagen IV (green in A) in the caudate putamen of HD patients (n = 6) and age-matched controls (n = 4). *P < 0.05 vs. control by standard Student’s t test. (C) Western blots of AQP4, SNTA1, and GFAP in the human caudate samples from 13 HD brains and 10 control brains. (D) Quantification of AQP4 (both isoforms), SNTA1, and GFAP protein levels (ratio to the loading control β-actin) in the caudate samples. **P < 0.01 vs. control by standard Student’s t test.