Frontiers in Molecular Neuroscience (Jun 2023)

Confronting the loss of trophic support

  • Hui-Lan Hu,
  • Latika Khatri,
  • Marilyn Santacruz,
  • Emily Church,
  • Christopher Moore,
  • Tony T. Huang,
  • Moses V. Chao,
  • Moses V. Chao,
  • Moses V. Chao,
  • Moses V. Chao

DOI
https://doi.org/10.3389/fnmol.2023.1179209
Journal volume & issue
Vol. 16

Abstract

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Classic experiments with peripheral sympathetic neurons established an absolute dependence upon NGF for survival. A forgotten problem is how these neurons become resistant to deprivation of trophic factors. The question is whether and how neurons can survive in the absence of trophic support. However, the mechanism is not understood how neurons switch their phenotype to lose their dependence on trophic factors, such as NGF and BDNF. Here, we approach the problem by considering the requirements for trophic support of peripheral sympathetic neurons and hippocampal neurons from the central nervous system. We developed cellular assays to assess trophic factor dependency for sympathetic and hippocampal neurons and identified factors that rescue neurons in the absence of trophic support. They include enhanced expression of a subunit of the NGF receptor (Neurotrophin Receptor Homolog, NRH) in sympathetic neurons and an increase of the expression of the glucocorticoid receptor in hippocampal neurons. The results are significant since levels and activity of trophic factors are responsible for many neuropsychiatric conditions. Resistance of neurons to trophic factor deprivation may be relevant to the underlying basis of longevity, as well as an important element in preventing neurodegeneration.

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