Neural Regeneration Research (Jan 2024)

Enhancement of endogenous midbrain neurogenesis by microneurotrophin BNN-20 after neural progenitor grafting in a mouse model of nigral degeneration

  • Theodora Mourtzi,
  • Nasia Antoniou,
  • Christina Dimitriou,
  • Panagiotis Gkaravelas,
  • Georgia Athanasopoulou,
  • Panagiota Nti Kostantzo,
  • Olga Stathi,
  • Efthymia Theodorou,
  • Maria Anesti,
  • Rebecca Matsas,
  • Fevronia Angelatou,
  • Georgia Kouroupi,
  • Ilias Kazanis

DOI
https://doi.org/10.4103/1673-5374.385314
Journal volume & issue
Vol. 19, no. 6
pp. 1318 – 1324

Abstract

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[INLINE:1] We have previously shown the neuroprotective and pro-neurogenic activity of microneurotrophin BNN-20 in the substantia nigra of the “weaver” mouse, a model of progressive nigrostriatal degeneration. Here, we extended our investigation in two clinically-relevant ways. First, we assessed the effects of BNN-20 on human induced pluripotent stem cell-derived neural progenitor cells and neurons derived from healthy and parkinsonian donors. Second, we assessed if BNN-20 can boost the outcome of mouse neural progenitor cell intranigral transplantations in weaver mice, at late stages of degeneration. We found that BNN-20 has limited direct effects on cultured human induced pluripotent stem cell-derived neural progenitor cells, marginally enhancing their differentiation towards neurons and partially reversing the pathological phenotype of dopaminergic neurons generated from parkinsonian donors. In agreement, we found no effects of BNN-20 on the mouse neural progenitor cells grafted in the substantia nigra of weaver mice. However, the graft strongly induced an endogenous neurogenic response throughout the midbrain, which was significantly enhanced by the administration of microneurotrophin BNN-20. Our results provide straightforward evidence of the existence of an endogenous midbrain neurogenic system that can be specifically strengthened by BNN-20. Interestingly, the lack of major similar activity on cultured human induced pluripotent stem cell-derived neural progenitors and their progeny reveals the in vivo specificity of the aforementioned pro-neurogenic effect.

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