Abstract
ABSTRACTStem‐cell‐based therapy may be used to replace damaged or lost neurons in the cochlear nerve of patients suffering from severe‐to‐profound sensorineural hearing loss. In order to achieve functional recovery in future clinical trials, knowledge about survival of grafted cells and their differentiation into functional neurons is a prerequisite. This calls for non‐invasive in vivo visualization of cells and long‐term monitoring of their survival and fate after cochlear transplantation. We have investigated if molecular optical imaging enables visualization of exogenous cells in the intact cochlea of guinea pig cadaver heads. Transduced (stem) cells, stably co‐expressing fluorescent (copGFP) and bioluminescent (Luc2) reporter molecules, were injected into the internal auditory meatus or directly into the cochlea through the round window. After injection of the cells into the internal auditory meatus, a bright bioluminescent signal was observed in the cavum conchae of the auricle, indicating that light generated by Luc2 is passing through the tympanic membrane and the external auditory meatus. Similar results were obtained after injection of the cells through the round window membrane, either directly into the scala tympani or in Rosenthal's canal within the modiolus of the basal cochlear turn. Imaging of the auditory bulla demonstrated that the bioluminescent signal passes through the tympanic membrane and crevices in the bony wall of the bulla. After opening the auditory bulla, the bioluminescent signal was emanating from the round window. This is the first study demonstrating that bioluminescence imaging enables visualization of luciferase‐expressing cells injected into the intact guinea pig cochlea. Anat Rec, 303:427–440, 2020. © 2019 The Authors. The Anatomical Record published by Wiley Periodicals, Inc. on behalf of American Association of Anatomists.
Highlights
The inner ear in Mammals contains the sense organs for hearing and balance
The objective of this study was to investigate if visualization of exogenous stem cells within the intact cochlea of cadaver guinea pig, using molecular optical imaging, is feasible for future in vivo stem cell transplantation experiments
In order to determine if it is possible to detect bioluminescent signals emanating from the cochlea in situ, HEK293-copGFP-CBG99 cells were injected into the internal auditory meatus of intact auditory bullae
Summary
The inner ear in Mammals contains the sense organs for hearing (cochlea) and balance (vestibular system). There exists considerable interindividual variability in performance, especially in noisy listening environments This variability can be explained by regional variations in the distance between the sites of action potential initiation and the electrodes of the cochlear implant resulting from regression of the dendrites of the SGNs (Bierer et al, 2011; Kalkman et al, 2015). Survival of grafted stem cells or neural progenitor cells and their differentiation into SGNs and glial (Schwann) cells as well as their functional integration into extant peripheral auditory structures are a prerequisite to achieve functional repair of the cochlear nerve This calls for non-invasive in vivo visualization of grafted stem cells and longitudinal monitoring of their survival and fate in the cochleas of deafened animals. Bioluminescence imaging, in contrast, is based upon the emission of light generated during the enzymatic conversion of D-luciferin into oxyluciferin by luciferase enzymes
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