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Human intravenous immunoglobulin provides protection against Aβ toxicity by multiple mechanisms in a mouse model of Alzheimer's disease
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Human intravenous immunoglobulin provides protection against Aβ toxicity by multiple mechanisms in a mouse model of Alzheimer's disease
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Journal Article
Human intravenous immunoglobulin provides protection against Aβ toxicity by multiple mechanisms in a mouse model of Alzheimer's disease
2010
Overview
Background
Purified intravenous immunoglobulin (IVIG) obtained from the plasma of healthy humans is indicated for the treatment of primary immunodeficiency disorders associated with defects in humoral immunity. IVIG contains naturally occurring auto-antibodies, including antibodies (Abs) against β-amyloid (Aβ) peptides accumulating in the brains of Alzheimer's disease (AD) patients. IVIG has been shown to alleviate AD pathology when studied with mildly affected AD patients. Although its mechanisms-of-action have been broadly studied, it remains unresolved how IVIG affects the removal of natively formed brain Aβ deposits by primary astrocytes and microglia, two major cell types involved in the neuroinflammatory responses.
Methods
We first determined the effect of IVIG on Aβ toxicity in primary neuronal cell culture. The mechanisms-of-action of IVIG in reduction of Aβ burden was analyzed with
ex vivo
assay. We studied whether IVIG solubilizes natively formed Aβ deposits from brain sections of APP/PS1 mice or promotes Aβ removal by primary glial cells. We determined the role of lysosomal degradation pathway and Aβ Abs in the IVIG-promoted reduction of Aβ. Finally, we studied the penetration of IVIG into the brain parenchyma and interaction with brain deposits of human Aβ in a mouse model of AD
in vivo
.
Results
IVIG was protective against Aβ toxicity in a primary mouse hippocampal neuron culture. IVIG modestly inhibited the fibrillization of synthetic Aβ1-42 but did not solubilize natively formed brain Aβ deposits
ex vivo
. IVIG enhanced microglia-mediated Aβ clearance
ex vivo
, with a mechanism linked to Aβ Abs and lysosomal degradation. The IVIG-enhanced Aβ clearance appears specific for microglia since IVIG did not affect Aβ clearance by astrocytes. The cellular mechanisms of Aβ clearance we observed have potential relevance
in vivo
since after peripheral administration IVIG penetrated to mouse brain tissue reaching highest concentrations in the hippocampus and bound selectively to Aβ deposits in co-localization with microglia.
Conclusions
Our results demonstrate that IVIG promotes recognition and removal of natively formed brain Aβ deposits by primary microglia involving natural Aβ Abs in IVIG. These findings may have therapeutic relevance
in vivo
as IVIG penetrates through the blood-brain barrier and specifically binds to Aβ deposits in brain parenchyma.
Publisher
BioMed Central,BMC
Subject
Alzheimer Disease - drug therapy
/ Alzheimer Disease - immunology
/ Alzheimer Disease - pathology
/ Amyloid beta-Peptides - immunology
/ Amyloid beta-Peptides - toxicity
/ Amyloid beta-Protein Precursor - genetics
/ Amyloid beta-Protein Precursor - metabolism
/ Animals
/ Biomedical and Life Sciences
/ Humans
/ Immunoglobulins, Intravenous - immunology
/ Immunoglobulins, Intravenous - therapeutic use
/ Mice
/ Neuroprotective Agents - immunology
/ Neuroprotective Agents - therapeutic use
