Frontiers in Cellular Neuroscience (Mar 2021)

Control of Microbial Opsin Expression in Stem Cell Derived Cones for Improved Outcomes in Cell Therapy

  • Marcela Garita-Hernandez,
  • Antoine Chaffiol,
  • Laure Guibbal,
  • Fiona Routet,
  • Hanen Khabou,
  • Luisa Riancho,
  • Lyes Toualbi,
  • Serge Picaud,
  • José-Alain Sahel,
  • José-Alain Sahel,
  • José-Alain Sahel,
  • Olivier Goureau,
  • Jens Duebel,
  • Jens Duebel,
  • Deniz Dalkara

DOI
https://doi.org/10.3389/fncel.2021.648210
Journal volume & issue
Vol. 15

Abstract

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Human-induced pluripotent stem cell (hiPSC) derived organoids have become increasingly used systems allowing 3D-modeling of human organ development, and disease. They are also a reliable source of cells for transplantation in cell therapy and an excellent model to validate gene therapies. To make full use of these systems, a toolkit of genetic modification techniques is necessary to control their activity in line with the downstream application. We have previously described adeno-associated viruse (AAV) vectors for efficient targeting of cells within human retinal organoids. Here, we describe biological restriction and enhanced gene expression in cone cells of such organoids thanks to the use of a 1.7-kb L-opsin promoter. We illustrate the usefulness of implementing such a promoter to enhance the expression of the red-shifted opsin Jaws in fusion with a fluorescent reporter gene, enabling cell sorting to enrich the desired cell population. Increased Jaws expression after transplantation improved light responses promising better therapeutic outcomes in a cell therapy setting. Our results point to the importance of promoter activity in restricting, improving, and controlling the kinetics of transgene expression during the maturation of hiPSC retinal derivatives. Differentiation requires mechanisms to initiate specific transcriptional changes and to reinforce those changes when mature cell states are reached. By employing a cell-type-specific promoter we put transgene expression under the new transcriptional program of mature cells.

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