Microglial Reactivity Correlates with Presynaptic Loss Independent of β-Amyloid and Tau-Shenzhen Bay Laboratory

Explore SZBL

中

SMART OA Mail BAY TRIAL Bay Charm Giving Symposia

Hot：

Research Groups

Institutes

SZBL

Careers

Events Calendar

Equipment

Resources

Procurement

PI recruitment

Home News & Events Research Highlights Content

Triggering receptor expressed on myeloid cells-2 (TREM2) and progranulin (PGRN) are critical regulators of microglia activation and can be detected in...

Objective

Triggering receptor expressed on myeloid cells-2 (TREM2) and progranulin (PGRN) are critical regulators of microglia activation and can be detected in cerebrospinal fluid (CSF). However, whether microglial reactivity is detrimental or neuroprotective for Alzheimer disease (AD) is still debatable.

Methods

We identified 663 participants with baseline β-amyloid (Aβ) positron emission tomography (PET) and CSF biomarker data, including phosphorylated tau181 (p-Tau181), soluble TREM2 (sTREM2), PGRN, and growth-associated protein-43 (GAP-43). Among them, 254 participants had concurrent longitudinal CSF biomarkers. We used multivariate regression analysis to study the associations of CSF microglial biomarkers with Aβ PET, CSF p-Tau181, and CSF GAP-43 cross-sectionally and longitudinally. A Chinese aging cohort's independent CSF samples (n = 65) were analyzed as a validation.

Results

Higher baseline levels of CSF microglial biomarkers were related to faster rates of CSF sTREM2 increase and CSF PGRN decrease. Elevated CSF p-Tau181 was associated with higher levels of CSF microglial biomarkers and faster rates of CSF sTREM2 increase and CSF PGRN decrease. In both cohorts, higher Aβ burden was associated with attenuated CSF p-Tau181 effects on CSF microglial biomarker increases. Independent of Aβ PET and CSF p-Tau181 pathologies, higher levels of CSF sTREM2 but not CSF PGRN were related to elevated CSF GAP-43 levels and faster rates of CSF GAP-43 increase.

Interpretation

These findings suggest that higher Aβ burden may attenuate the p-Tau-associated microglial responses, and TREM2-related microglial reactivity may independently correlate with GAP-43-related presynaptic loss. This study highlights the two-edged role of microglial reactivity in AD and other neurodegenerative diseases.

Guoyu Lan PhD, Xuhui Chen MD, Jie Yang Msc, Pan Sun PhD, Yue Cai PhD, Anqi Li Msc, Yalin Zhu Bsc, Zhen Liu PhD, Shaohua Ma PhD, Tengfei Guo PhD, for the Alzheimer's Disease Neuroimaging Initiative

Microglial Reactivity Correlates with Presynaptic Loss

Independent of β-Amyloid and Tau

Annals of Neurology, Volume 95, Issue 5, May 2024, Page: 917 - 928

View at publisher↗

Hot

Harnessing thia-Rh-carbenes for the enantioselective synthesis of chiral α,α-diheteroatomic carboxylic acids

2026.03.13

Learn More

In situ generation of dendritic cell vaccines in 3D printing scaffolds for cancer post-surgical therapy

2026.03.06

Learn More

Evolutionary repurposing of a metabolic thiolase complex enables antibiotic biosynthesis

2026.02.10

Learn More

Multimodal-based analysis of single-cell ATAC-seq data enables highly accurate delineation of clinically relevant tumor cell subpopulations

2026.01.19

Learn More

Intratumoural vaccination via checkpoint degradation-coupled antigen presentation

2026.01.12

Learn More

Contact

Address: Gaoke Innovation Center,Guangming District, Shenzhen

Phone: +86-755-86967710

Email: webmaster@szbl.ac.cn

Postal Code: 518132

People

Institutes and Centers