Neuronal endoplasmic reticulum stress in axon injury and neurodegeneration
Injuries to central nervous system axons result not only in Wallerian degeneration of the
axon distal to the injury, but also in death or atrophy of the axotomized neurons, depending
on injury location and neuron type. No method of permanently avoiding these changes has
been found, despite extensive knowledge concerning mechanisms of secondary neuronal
injury. The autonomous endoplasmic reticulum (ER) stress pathway in neurons has recently
been implicated in retrograde neuronal degeneration. In addition to the emerging role of ER …
axon distal to the injury, but also in death or atrophy of the axotomized neurons, depending
on injury location and neuron type. No method of permanently avoiding these changes has
been found, despite extensive knowledge concerning mechanisms of secondary neuronal
injury. The autonomous endoplasmic reticulum (ER) stress pathway in neurons has recently
been implicated in retrograde neuronal degeneration. In addition to the emerging role of ER …
Injuries to central nervous system axons result not only in Wallerian degeneration of the axon distal to the injury, but also in death or atrophy of the axotomized neurons, depending on injury location and neuron type. No method of permanently avoiding these changes has been found, despite extensive knowledge concerning mechanisms of secondary neuronal injury. The autonomous endoplasmic reticulum (ER) stress pathway in neurons has recently been implicated in retrograde neuronal degeneration. In addition to the emerging role of ER morphology in axon maintenance, we propose that ER stress is a common neuronal response to disturbances in axon integrity and a general mechanism for neurodegeneration. Thus, manipulation of the ER stress pathway could have important therapeutic implications for neuroprotection. Ann Neurol 2013;74:768–777
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