Increased synapsin expression and neurite sprouting in lamprey brain after spinal cord injury

Billy Y B Lau, Andrea E. Foldes, Naila O. Alieva, Paul A. Oliphint, David J. Busch, Jennifer R. Morgan

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

Spinal cord injury induces structural plasticity throughout the mammalian nervous system, including distant locations in the brain. Several types of injury-induced plasticity have been identified, such as neurite sprouting, axon regeneration, and synaptic remodeling. However, the molecular mechanisms involved in injury-induced plasticity are unclear as is the extent to which injury-induced plasticity in brain is conserved across vertebrate lineages. Due to its robust roles in neurite outgrowth and synapse formation during developmental processes, we examined synapsin for its potential involvement in injury-induced plasticity. We used lamprey, a vertebrate that undergoes robust anatomical plasticity and functional recovery after spinal cord injury. At 3 and 11. weeks after spinal cord transection, synapsin I mRNA was upregulated > 2-fold in lamprey brain, as assayed by semi-quantitative RT-PCR. Other synaptic vesicle-associated genes remained unchanged. In situ hybridization revealed that synapsin I mRNA was increased globally throughout the lamprey brain. Immunolabeling for synapsin I protein revealed a significant increase in both the intensity and density of synapsin I-positive structures in lamprey hindbrain at 11. weeks post-transection, relative to controls. Moreover, the number of structures immunolabeled for phospho-synapsin (serine 9) increased after injury, suggestive of neurite sprouting. Indeed, at the ultrastructural level, there was an increase in neurite density at 11. weeks post-transection. Taken together, these data show that neurite sprouting in the brain is an evolutionarily conserved response to a distant spinal cord injury and suggest that synapsin and its phosphorylation at serine 9 play key roles in the sprouting mechanism.

Original languageEnglish (US)
Pages (from-to)283-293
Number of pages11
JournalExperimental Neurology
Volume228
Issue number2
DOIs
StatePublished - Apr 2011

Keywords

  • PKA
  • Petromyzon marinus
  • Phospho-synapsin
  • Synapsin
  • Synaptic vesicle
  • Synaptogyrin
  • Synaptoporin
  • VAMP

ASJC Scopus subject areas

  • Neurology
  • Developmental Neuroscience

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