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Drosophila as a model to explore secondary injury cascades after traumatic brain injury

Lori M. Buhlman, Gokul Krishna, T. Bucky Jones, Theresa Currier Thomas

2021Biomedicine & Pharmacotherapy31 citationsDOIOpen Access PDF

Abstract

Drosophilae are emerging as a valuable model to study traumatic brain injury (TBI)-induced secondary injury cascades that drive persisting neuroinflammation and neurodegenerative pathology that imposes significant risk for long-term neurological deficits. As in mammals, TBI in Drosophila triggers axonal injury, metabolic crisis, oxidative stress, and a robust innate immune response. Subsequent neurodegeneration stresses quality control systems and perpetuates an environment for neuroprotection, regeneration, and delayed cell death via highly conserved cell signaling pathways. Fly injury models continue to be developed and validated for both whole-body and head-specific injury to isolate, evaluate, and modulate these parallel pathways. In conjunction with powerful genetic tools, the ability for longitudinal evaluation, and associated neurological deficits that can be tested with established behavioral tasks, Drosophilae are an attractive model to explore secondary injury cascades and therapeutic intervention after TBI. Here, we review similarities and differences between mammalian and fly pathophysiology and highlight strategies for their use in translational neurotrauma research.

Topics & Concepts

NeuroprotectionTraumatic brain injuryNeuroscienceNeuroinflammationNeurodegenerationRegeneration (biology)MedicineOxidative stressInflammationBioinformaticsBiologyImmunologyPathologyDiseasePsychiatryInternal medicineCell biologyTraumatic Brain Injury ResearchTraumatic Brain Injury and Neurovascular Disturbances
Drosophila as a model to explore secondary injury cascades after traumatic brain injury | Litcius