Microglial GM3 accumulation impairs Aβ phagocytic activity and promotes neuroinflammation in Alzheimer's disease
Se Eun Park, Yun Jae Cha, Young-Kwang Kim, Hee Kyung Kim, Chaesun Kwon, Yoonah R. Oh, Geonmo Kim, Kristen Gah-Hyeon Kim, Hong-Gyun Lee, Yun Pyo Kang, Min-Kyoo Shin

TL;DR
This study shows that GM3 accumulation in microglia worsens Alzheimer's by impairing Aβ clearance and causing inflammation, suggesting HexA as a potential treatment target.
Contribution
The study identifies microglial GM3 accumulation as a novel mechanism driving Aβ pathology and neuroinflammation in Alzheimer's disease.
Findings
Hexa and Hexb overexpression in microglia leads to GM3 accumulation and impaired Aβ phagocytosis.
Microglia-specific knockdown of Hexa and Hexb improves cognitive function and reduces Aβ pathology in 5xFAD mice.
HexA-driven GM3 accumulation in microglia contributes to neuroinflammation and disease progression in Alzheimer's.
Abstract
Growing evidence underscores the critical role of lipid metabolism in the pathogenesis of Alzheimer's disease (AD). We previously demonstrated that 5xFAD mice exhibit a marked accumulation of ganglioside GM3 in the cerebral cortex and hippocampus as the disease progresses, with this increase being more pronounced in females than in males. However, the specific brain cell types exhibiting elevated GM3 accumulation, along with GM3's underlying molecular mechanisms and functional significance in AD pathogenesis, remain to be fully elucidated. Here, we report that elevated GM3 levels in 5xFAD are associated with increased expression of Hexa and Hexb—which encode the α- and β-subunits, respectively, of lysosomal β-hexosaminidase A (HexA), the enzyme that catalyzes the conversion of GM2 to GM3 within lysosomes—but not with St3gal5. Analysis of a publicly available single-nucleus RNA…
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Taxonomy
TopicsLysosomal Storage Disorders Research · Alzheimer's disease research and treatments · Glycosylation and Glycoproteins Research
