Microglia activation mediated by toll-like receptor-4 impairs brain white matter tracts in rats
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Abstract
Microglia activation and white matter injury coexist after repeated episodes of mild brain trauma and ischemic
stroke. Axon degeneration and demyelination can activate microglia; however, it is unclear whether early microglia
activation can impair the function of white matter tracts and lead to injury. Rat corpus callosum (CC) slices were
treated with lipopolysaccharide (LPS) or LPS + Rhodobacter sphaeroides (RS)-LPS that is a toll-like receptor 4
(TLR-4) antagonist. Functional changes reflected by the change of axon compound action potentials (CAPs) and the
accumulation of β-amyloid precursor protein (β-APP) in CC nerve fibers. Microglia activation was monitored by
ionized calcium binding adaptor-1 immunofluorescent stain, based on well-established morphological criteria and
paralleled proportional area measurement. Input-output (I/O) curves of CAPs in response to increased stimuli were
significantly downshifted in a dose-dependent manner in LPS (0.2, 0.5 and 1.0 μg/mL)-treated slices, implying that
axons neurophysiological function was undermined. LPS caused significant β-APP accumulation in CC tissues,
reflecting the deterioration of fast axon transport. LPS-induced I/O curve downshift and β-APP accumulation were
significantly reversed by the pre-treatment or co-incubation with RS-LPS. RS-LPS alone did not change the I/O curve.
The degree of malfunction was correlated with microglia activation, as was shown by the measurements of
proportional areas. Function of CC nerve fibers was evidently impaired by microglia activation and reversed by a
TLP-4 antagonist, suggesting that the TLP-4 pathway lead to microglia activation.
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