Evidence for an Age-Dependent Decline in Axon Regeneration in the Adult Mammalian Central Nervous System. Academic Article

abstract

• How aging impacts axon regeneration after CNS injury is not known. We assessed the impact of age on axon regeneration induced by Pten deletion in corticospinal and rubrospinal neurons, two neuronal populations with distinct innate regenerative abilities. As in young mice, Pten deletion in older mice remains effective in preventing axotomy-induced decline in neuron-intrinsic growth state, as assessed by mTOR activity, neuronal soma size, and axonal growth proximal to a spinal cord injury. However, axonal regeneration distal to injury is greatly diminished, accompanied by increased expression of astroglial and inflammatory markers at the injury site. Thus, the mammalian CNS undergoes an age-dependent decline in axon regeneration, as revealed when neuron-intrinsic growth state is elevated. These results have important implications for developing strategies to promote axonal repair after CNS injuries or diseases, which increasingly affect middle-aged to aging populations.

authors

• Geoffroy, Cedric

published proceedings

• Cell Rep

altmetric score

• 68.65

author list (cited authors)

• Geoffroy, C. G., Hilton, B. J., Tetzlaff, W., & Zheng, B.

citation count

• 95

complete list of authors

• Geoffroy, Cédric G||Hilton, Brett J||Tetzlaff, Wolfram||Zheng, Binhai

publication date

• January 2016

publisher

• Elsevier  Publisher

published in

• Cell Reports  Journal

keywords

• Aging
• Animals
• Astrocytes
• Axons
• Axotomy
• Biomarkers
• Central Nervous System
• Down-Regulation
• Gene Deletion
• Inflammation
• Mammals
• Mice
• Nerve Regeneration
• PTEN Phosphohydrolase
• Pyramidal Tracts
• Signal Transduction
• Spinal Cord Injuries
• TOR Serine-Threonine Kinases

Digital Object Identifier (DOI)

• 10.1016/j.celrep.2016.03.028

start page

• 238

end page

• 246

volume

• 15

issue

• 2

URL

• http://dx.doi.org/10.1016/j.celrep.2016.03.028