Glial fibrillary acidic protein (GFAP), a protein enriched in astrocytes, and Tau, a protein abundant in neuronal microtubules, are being widely studied as biomarkers of brain injury, and persistent severity-dependent increases in brain and blood have been reported. Studies on the acute changes of these proteins after blast exposure are limited. Using a mouse model of closely-coupled repeated blast exposures, we have evaluated acute changes in the levels of GFAP and total Tau by Western blotting. Brain levels of GFAP and Tau proteins decreased significantly at 6 h and increased considerably at 24 h after repeated blast exposures. Plasma samples showed a similar initial decrease and later increase over this timeframe. This biphasic pattern points to possible absorption or sequestration of these proteins from plasma immediately after repeated blast exposures. Liver and spleen tissue showed significant increases in the levels of GFAP and Tau protein at 6 and 24 h post-blast exposures whereas semi-quantitative RT-PCR analysis of liver showed no significant changes in the levels of GFAP or Tau mRNAs. These results suggest that blast exposure causes transient changes in cell membrane integrity in multiple organs leading to abnormal migration of proteins from the tissues to the plasma and vice versa. This transient changes in cell membrane permeability and subsequent bidirectional movement of molecules may contribute to the pathophysiology of TBI and polytrauma after blast exposure.
Keywords: BOP; Blast exposure; CSF; Cell membrane integrity; GFAP; Polytrauma; RT-PCR; TBI; Tau; blast overpressure; cerebrospinal fluid; glial fibrillary acidic protein; mRNA; messenger ribonucleic acid; reverse transcription-polymerase chain reaction; traumatic brain injury.
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