Stem Cell Reports (Feb 2018)
Transplanted Donor- or Stem Cell-Derived Cone Photoreceptors Can Both Integrate and Undergo Material Transfer in an Environment-Dependent Manner
Abstract
Summary: Human vision relies heavily upon cone photoreceptors, and their loss results in permanent visual impairment. Transplantation of healthy photoreceptors can restore visual function in models of inherited blindness, a process previously understood to arise by donor cell integration within the host retina. However, we and others recently demonstrated that donor rod photoreceptors engage in material transfer with host photoreceptors, leading to the host cells acquiring proteins otherwise expressed only by donor cells. We sought to determine whether stem cell- and donor-derived cones undergo integration and/or material transfer. We find that material transfer accounts for a significant proportion of rescued cells following cone transplantation into non-degenerative hosts. Strikingly, however, substantial numbers of cones integrated into the Nrl−/− and Prph2rd2/rd2, but not Nrl−/−;RPE65R91W/R91W, murine models of retinal degeneration. This confirms the occurrence of photoreceptor integration in certain models of retinal degeneration and demonstrates the importance of the host environment in determining transplantation outcome. : Pearson and colleagues demonstrate that transplanted cone photoreceptors can both undergo incorporation into the host neural retina and engage in cytoplasmic material transfer with host rod and cone photoreceptors. They show that the host environment plays a crucial role in determining the relative contributions of these two mechanisms to transplantation outcome. Keywords: photoreceptor, retina, blindness, retinal dystrophy, Nrl−/−, function, transplantation, material transfer, fusion, integration
