Degradation of Alzheimer's amyloid fibrils by microglia requires delivery of ClC-7 to lysosomes
Copyright policy )Degradation of Alzheimer's amyloid fibrils by microglia requires delivery of ClC-7 to lysosomes
Incomplete lysosomal acidification in microglia inhibits the degradation of fibrillar forms of Alzheimer's amyloid β peptide (fAβ). Here we show that in primary microglia a chloride transporter, ClC-7, is not delivered efficiently to lysosomes, causing incomplete lysosomal acidification. ClC-7 protein is synthesized by microglia but it is mistargeted and appears to be degraded by an endoplasmic reticulum–associated degradation pathway. Activation of microglia with macrophage colony-stimulating factor induces trafficking of ClC-7 to lysosomes, leading to lysosomal acidification and increased fAβ degradation. ClC-7 associates with another protein, Ostm1, which plays an important role in its correct lysosomal targeting. Expression of both ClC-7 and Ostm1 is increased in activated microglia, which can account for the increased delivery of ClC-7 to lysosomes. Our findings suggest a novel mechanism of lysosomal pH regulation in activated microglia that is required for fAβ degradation.
Amyloid beta-Peptides, Leupeptins, Macrophage Colony-Stimulating Factor, Brain, Membrane Proteins, Mice, Transgenic, Articles, Hydrogen-Ion Concentration, Lysosomal Membrane Proteins, Mice, Protein Transport, Alzheimer Disease, Chloride Channels, Animals, Humans, RNA Interference, Microglia, Lysosomes, Proteasome Inhibitors, Cells, Cultured
Amyloid beta-Peptides, Leupeptins, Macrophage Colony-Stimulating Factor, Brain, Membrane Proteins, Mice, Transgenic, Articles, Hydrogen-Ion Concentration, Lysosomal Membrane Proteins, Mice, Protein Transport, Alzheimer Disease, Chloride Channels, Animals, Humans, RNA Interference, Microglia, Lysosomes, Proteasome Inhibitors, Cells, Cultured
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