Cerebral Microvascular Injury Induced by Lag3‐Dependent <i>α</i>‐Synuclein Fibril Endocytosis Exacerbates Cognitive Impairment in a Mouse Model of <i>α</i>‐Synucleinopathies

Zhang, Qingxi; Duan, Qingrui; Gao, Yuyuan; Pei-kun, HE; Huang, Rui; Huang, Haifeng; Li, Yanyi; Ma, Guixian; Zhang, Yuhu; Nie, Kun; Wang, Limin

doi:10.1002/advs.202301903

Advanced Science

2023

DOI: 10.1002/advs.202301903

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Cerebral Microvascular Injury Induced by Lag3‐Dependent α‐Synuclein Fibril Endocytosis Exacerbates Cognitive Impairment in a Mouse Model of α‐Synucleinopathies

Qingxi Zhang

Qingrui Duan

Yuyuan Gao

et al.

Abstract: The pathological accumulation of α‐synuclein (α‐Syn) and the transmission of misfolded α‐Syn underlie α‐synucleinopathies. Increased plasma α‐Syn levels are associated with cognitive impairment in Parkinson's disease, multiple system atrophy, and dementia with Lewy bodies, but it is still unknown whether the cognitive deficits in α‐synucleinopathies have a common vascular pathological origin. Here, it is reported that combined injection of α‐Syn preformed fibrils (PFFs) in the unilateral substantia nigra pars … Show more

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2024

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Cited by 11 publications

References 87 publications

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OTUD5 Protects Dopaminergic Neurons by Promoting the Degradation of α‐Synuclein in Parkinson's Disease Model

Song,

Liu,

et al. 2024

Advanced Science

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Defective clearance and accumulation of α‐synuclein (α‐Syn) is the key pathogenic factor in Parkinson's disease (PD). Recent studies emphasize the importance of E3 ligases in regulating the degradation of α‐Syn. However, the molecular mechanisms by which deubiquitinases regulate α‐Syn degradation are scarcely studied. In this study, it is found that the protein levels of α‐Syn are negatively regulated by ovarian tumor protease deubiquitinase 5 (OTUD5) which protects dopaminergic (DA) neurons in the PD model. Mechanistically, OTUD5 promotes K63‐linked polyubiquitination of α‐Syn independent of its deubiquitinating enzyme activity and mediates its endolysosomal degradation by recruiting the E3 ligase neural precursor cell expressed developmentally downregulated 4 (NEDD4). Furthermore, OTUD5 conditional knockout in DA neurons results in more severe α‐Syn related pathology and dyskinesia after injection of α‐Syn preformed fibrils (PFF). Overall, the data unveil a novel mechanism to regulate the degradation of α‐Syn and provide a new therapeutic strategy to alleviate DA neurodegeneration.

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OTUD5 Protects Dopaminergic Neurons by Promoting the Degradation of α‐Synuclein in Parkinson's Disease Model

Song,

Liu,

et al. 2024

Advanced Science

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Abnormal Cerebrovascular Activity, Perfusion, and Glymphatic Clearance in Lewy Body Diseases

Ryman,

Vakhtin,

Mayer

et al. 2024

Movement Disorders

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Cerebrovascular activity is not only crucial to optimal cerebral perfusion, but also plays an important role in the glymphatic clearance of interstitial waste, including α‐synuclein. This highlights a need to evaluate how cerebrovascular activity is altered in Lewy body diseases. This review begins by discussing how vascular risk factors and cardiovascular autonomic dysfunction may serve as upstream or direct influences on cerebrovascular activity. We then discuss how patients with Lewy body disease exhibit reduced and delayed cerebrovascular activity, hypoperfusion, and reductions in measures used to capture cerebrospinal fluid flow, suggestive of a reduced capacity for glymphatic clearance. Given the lack of an existing framework, we propose a model by which these processes may foster α‐synuclein aggregation and neuroinflammation. Importantly, this review highlights several avenues for future research that may lead to treatments early in the disease course, prior to neurodegeneration. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

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Optimal Preservation of PFFs in Glycerol Enhances Suitability for Modeling Parkinson's Disease

Mao,

Kuang,

Huang

et al. 2024

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Injecting α‐synuclein pre‐formed fibrils (αSyn PFFs) into various tissues and organs involves converting monomeric αSyn into a fibrillar form, inducing extensive αSyn pathology that effectively models Parkinson's disease (PD). However, the distinct physicochemical properties of αSyn amyloid fibrils can potentially reduce their seeding activity, especially during storage. In this study, it is demonstrated that αSyn PFFs exhibit significant sensitivity to low temperatures, with notable denaturation occurring between −20 and 4 °C, and gradual disassembly persisted even under storage conditions at −80 °C. To mitigate this issue, a commonly used protein stabilizer, glycerol is introduced, which significantly reverses the cold‐induced disassembly of PFFs. Remarkably, storing PFFs with 20% glycerol at −80 °C for a month preserved their morphology and seeding activity as freshly prepared PFFs. Glycerol‐stabilized αSyn PFFs resulted in compromised neuronal survival, with the extent of these impairments correlating with the formation of αSyn pathology both in vivo and in vitro, indistinguishable from freshly prepared PFFs. Storing sonicated PFFs with 20% glycerol at −80 °C provides an optimal storage method, as sonication is necessary for activating their seeding potential. This approach reduces the frequency of sonication, simplifies handling, and ultimately lowers the overall workload, enhancing the practicality of using PFFs.

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Cerebral Microvascular Injury Induced by Lag3‐Dependent α‐Synuclein Fibril Endocytosis Exacerbates Cognitive Impairment in a Mouse Model of α‐Synucleinopathies

Cited by 11 publications

References 87 publications

OTUD5 Protects Dopaminergic Neurons by Promoting the Degradation of α‐Synuclein in Parkinson's Disease Model

OTUD5 Protects Dopaminergic Neurons by Promoting the Degradation of α‐Synuclein in Parkinson's Disease Model

Abnormal Cerebrovascular Activity, Perfusion, and Glymphatic Clearance in Lewy Body Diseases

Optimal Preservation of PFFs in Glycerol Enhances Suitability for Modeling Parkinson's Disease

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