Using the olfactory system as an in vivo model to study traumatic brain injury and repair

Loss of olfactory function is an early indicator of traumatic brain injury (TBI). The regenerative capacity and well-defined neural maps of the mammalian olfactory system enable investigations into the degeneration and recovery of neural circuits after injury. Here, we introduce a unique olfactory-b...

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Veröffentlicht in:	Journal of neurotrauma 2014-07, Vol.31 (14), p.1277-1291
Hauptverfasser:	Steuer, Elizabeth, Schaefer, Michele L, Belluscio, Leonardo
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Brain damage Brain Injuries - pathology Disease Models, Animal Functional Laterality Immunohistochemistry Mice Mice, Transgenic Nerve Regeneration - physiology Olfactory Bulb - injuries Olfactory Bulb - pathology Original Rodents Sensory Receptor Cells - pathology Smell Trauma
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creator	Steuer, Elizabeth Schaefer, Michele L Belluscio, Leonardo
description	Loss of olfactory function is an early indicator of traumatic brain injury (TBI). The regenerative capacity and well-defined neural maps of the mammalian olfactory system enable investigations into the degeneration and recovery of neural circuits after injury. Here, we introduce a unique olfactory-based model of TBI that reproduces many hallmarks associated with human brain trauma. We performed a unilateral penetrating impact to the mouse olfactory bulb and observed a significant loss of olfactory sensory neurons (OSNs) in the olfactory epithelium (OE) ipsilateral to the injury, but not contralateral. By comparison, we detected the injury markers p75(NTR), β-APP, and activated caspase-3 in both the ipsi- and contralateral OE. In the olfactory bulb (OB), we observed a graded cell loss, with ipsilateral showing a greater reduction than contralateral and both significantly less than sham. Similar to OE, injury markers in the OB were primarily detected on the ipsilateral side, but also observed contralaterally. Behavioral experiments measured 4 days after impact also demonstrated loss of olfactory function, yet following a 30-day recovery period, we observed a significant improvement in olfactory function and partial recovery of olfactory circuitry, despite the persistence of TBI markers. Interestingly, by using the M71-IRES-tauLacZ reporter line to track OSN organization, we further determined that inducing neural activity during the recovery period with intense odor conditioning did not enhance the recovery process. Together, these data establish the mouse olfactory system as a new model to study TBI, serving as a platform to understand neural disruption and the potential for circuit restoration.
doi_str_mv	10.1089/neu.2013.3296
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Behavioral experiments measured 4 days after impact also demonstrated loss of olfactory function, yet following a 30-day recovery period, we observed a significant improvement in olfactory function and partial recovery of olfactory circuitry, despite the persistence of TBI markers. Interestingly, by using the M71-IRES-tauLacZ reporter line to track OSN organization, we further determined that inducing neural activity during the recovery period with intense odor conditioning did not enhance the recovery process. 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subjects	Animals Brain damage Brain Injuries - pathology Disease Models, Animal Functional Laterality Immunohistochemistry Mice Mice, Transgenic Nerve Regeneration - physiology Olfactory Bulb - injuries Olfactory Bulb - pathology Original Rodents Sensory Receptor Cells - pathology Smell Trauma
title	Using the olfactory system as an in vivo model to study traumatic brain injury and repair
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