Omnidirectional leaky opto-electrical fiber for optogenetic control of neurons in cell replacement therapy

Shashank Vasudevan, Andrea Dotti, Janko Kajtez, Alberto Martínez-Serrano, Carsten Gundlach, Sandrina Campos Maçãs, Karin Lauschke, Anne-Marie Vinngaard, Silvia García López, Marta Pereira, Arto Heiskanen, Stephan S. Keller, Jenny Emnéus*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

The pathophysiological progress of Parkinson’s disease leads through degeneration of dopaminergic neurons in the substantia nigra to complete cell death and lack of dopamine in the striatum where it modulates motor functions. Transplantation of dopaminergic stem cell-derived neurons is a possible therapy to restore dopamine levels. We have previously presented multifunctional pyrolytic carbon coated leaky optoelectrical fibers (LOEFs) with laser ablated micro-optical windows (µOWs) as carriers for channelrhodopsin-2 modified optogenetically active neurons for light-induced on-demand dopamine release and amperometric real-time detection. To increase the dopamine release by stimulating a larger neuronal population with light, we present here a novel approach to generate µOWs through laser ablation around the entire circumference of optical fibers to obtain Omni-LOEFs. Cyclic voltammetric characterization of the pyrolytic carbon showed that despite the increased number of µOWs, the electrochemical properties were not deteriorated. Finally, we demonstrate that the current recorded during real-time detection of dopamine upon light-induced stimulation of neurons differentiated on Omni-LOEFs is significantly higher compared to recordings from the same number of cells seeded on LOEFs with µOWs only on one side. Moreover, by varying the cell seeding density, we show that the recorded current is proportional to the dimension of the cell population.
Original languageEnglish
Article number108306
JournalBioelectrochemistry
Volume149
Number of pages10
ISSN1567-5394
DOIs
Publication statusPublished - 2023

Keywords

  • Pyrolysis
  • Laser ablation
  • Optogenetics
  • Human neural stem cell
  • Dopamine exocytosis
  • Leaky optical fiber

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