Yongji Zhou scite author profile

Alzheimer disease (AD) is a devastating neurodegenerative disorder characterized by extracellular accumulation of amyloid-beta and formation of intracellular neurofibrillary tangles. Microglia activation and neuroinflammation play important roles in the pathogenesis of AD; Toll-like receptor 4 (TLR4)—a key component of the innate immune system—in microglia is also thought to be involved based on the observed association between TLR gene polymorphisms and AD risk. TLR4 has been shown to exert both detrimental and beneficial effects on AD-related pathologies. In preclinical models, experimental manipulations targeting TLR4 were shown to improve learning and memory, which was related to inhibition of pro-inflammatory cytokine release and reduction of oxidative stress. In this review, we summarize the key evidence supporting TLR4 as a promising therapeutic target in AD treatment.

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Evaluation of MYORG mutations as a novel cause of primary familial brain calcification

Chen

et al. 2018

Movement Disorders

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Background Very recently, the MYORG gene was identified as a novel causative gene for autosomal‐recessive primary familial brain calcification. Objective To investigate the clinical, genetic, and neuroradiological characteristics of primary familial brain calcification patients with biallelic MYORG mutations in China. Methods We collected clinical and neuroradiological data of 169 Chinese patients with primary familial brain calcification, including 151 sporadic patients and 18 patients from 13 families compatible with an autosomal‐recessive mode of inheritance. Mutational analysis of MYORG was performed in the cohort. Results We identified four, including three novel, MYORG mutations segregating in four families with 5 patients: one nonsense mutation (c.1431C>A, p.Y477*), one missense mutation (c.687G>T, p.W229C), and two nonframeshift indels (c.348_349insCTGGCCTTCCGC, p.116_117insLAFR; c. 428_442delTGCACTTCTTCATCC, p.143_147delLHFFI). The 12‐base‐pair insertion, c.348_349insCTGGCCTTCCGC, was found in either homozygous or heterozygous state in 2 probands of our cohort and another Chinese primary familial brain calcification patient previously reported on in the literature. Haplotype analysis of our patients harboring the insertion indicated a founder effect in the ethnic Han Chinese population. To date, biallelic MYORG mutations have been reported in 17 patients (including our cohort). Most patients were symptomatic (13 of 17; 76.5%), and the most recurrent symptoms were movement disorders (10 of 17; 58.8%), cognitive decline (7 of 17; 41.2%), and cerebellar symptoms (6 of 17; 35.3%). All patients had calcifications on comprehensive cranial CT, most frequently located in the basal ganglia (17 of 17; 100%), cerebellum (17 of 17; 100%), subcortical white matter (14 of 17; 82.4%), and thalamus (13 of 17; 76.5%). Conclusions We confirmed MYORG as a novel causative gene for primary familial brain calcification and further expanded the mutational and phenotypic spectrum of MYORG‐related primary familial brain calcification. © 2018 International Parkinson and Movement Disorder Society

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MYORG Mutation Heterozygosity Is Associated With Brain Calcification

et al. 2020

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A BS TRACT: Background: Biallelic mutations in the MYORG gene were first identified as the cause of recessively inherited primary familial brain calcification. Interestingly, some heterozygous carriers also exhibited brain calcifications.Objectives: To further investigate the role of single heterozygous MYORG mutations in the development of brain calcifications. Methods: A nation-wide cohort of Chinese primary familial brain calcification probands was enrolled from March 2016 ---

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Identification of Biomarkers Related to M2 Macrophage Infiltration in Alzheimer’s Disease

Lin

Zhou

et al. 2022

Cells

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Many studies have demonstrated that neuroinflammation contributes to the onset and development of Alzheimer’s disease (AD). The infiltration of immune cells in the brain was observed in AD. The purpose of the present study was to verify potential mechanisms and screen out biomarkers related to immune infiltration in AD. We collected the expression profiling datasets of AD patients and healthy donors from the NCBI’s Gene Expression Omnibus (GEO) database. We confirmed that immune-related mechanisms were involved in AD using differentially expressed genes analysis and functional enrichment analysis. We then found that M2 macrophage infiltration was most positively correlated with AD according to the CIBERSORT algorithm and a weighted gene co-expression network analysis (WGCNA). TLR2, FCGR2A, ITGB2, NCKAP1L and CYBA were identified as hub genes correlated with M2 macrophage infiltration in AD. Furthermore, the expression levels of these hub genes were positively correlated with Aβ42 and β-secretase activity. A diagnostic model of these hub genes was constructed, which showed a high area under the curve (AUC) value in both the derivation and validation cohorts. Overall, our work further expanded our understanding of the immunological mechanisms of AD and provided new insights into therapeutic strategies in AD.

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Yongji Zhou

TLR4 Targeting as a Promising Therapeutic Strategy for Alzheimer Disease Treatment

Evaluation of MYORG mutations as a novel cause of primary familial brain calcification

MYORG Mutation Heterozygosity Is Associated With Brain Calcification

Identification of Biomarkers Related to M2 Macrophage Infiltration in Alzheimer’s Disease

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