Primary culture and plasmid electroporation of the murine organ of Corti
- PMID: 20134402
- PMCID: PMC2816938
- DOI: 10.3791/1685
Primary culture and plasmid electroporation of the murine organ of Corti
Abstract
In all mammals, the sensory epithelium for audition is located along the spiraling organ of Corti that resides within the conch shaped cochlea of the inner ear (fig 1). Hair cells in the developing cochlea, which are the mechanosensory cells of the auditory system, are aligned in one row of inner hair cells and three (in the base and mid-turns) to four (in the apical turn) rows of outer hair cells that span the length of the organ of Corti. Hair cells transduce sound-induced mechanical vibrations of the basilar membrane into neural impulses that the brain can interpret. Most cases of sensorineural hearing loss are caused by death or dysfunction of cochlear hair cells. An increasingly essential tool in auditory research is the isolation and in vitro culture of the organ explant. Once isolated, the explants may be utilized in several ways to provide information regarding normative, anomalous, or therapeutic physiology. Gene expression, stereocilia motility, cell and molecular biology, as well as biological approaches for hair cell regeneration are examples of experimental applications of organ of Corti explants. This protocol describes a method for the isolation and culture of the organ of Corti from neonatal mice. The accompanying video includes stepwise directions for the isolation of the temporal bone from mouse pups, and subsequent isolation of the cochlea, spiral ligament, and organ of Corti. Once isolated, the sensory epithelium can be plated and cultured in vitro in its entirety, or as a further dissected micro-isolate that lacks the spiral limbus and spiral ganglion neurons. Using this method, primary explants can be maintained for 7-10 days. As an example of the utility of this procedure, organ of Corti explants will be electroporated with an exogenous DsRed reporter gene. This method provides an improvement over other published methods because it provides reproducible, unambiguous, and stepwise directions for the isolation, microdissection, and primary culture of the organ of Corti.
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References
-
- Sobkowicz HM, Bereman B, Rose JE. Organotypic Development of the Organ of Corti in Culture. Journal of Neurocytology. 1975;119(4):543–543. - PubMed
-
- Zheng JL, Gao WQ. Overexpression of Math1 induces robust production of extra hair cells in postnatal rat inner ears. Nature Neuroscience. 2000;3(6):580–580. - PubMed
-
- Saffer LD, Gu R, Corwin JT. An RT-PCR analysis of mRNA for growth factor receptors in damaged and control sensory epithelia of rat utricles. Hearing Research. 1996;94(1,2):14–14. - PubMed
-
- Zhang Y. Isolation, growth and differentiation of hair cell progenitors from the newborn rat cochlear greater epithelial ridge. Journal of Neuroscience Methods. 2007;164(2):271–271. - PubMed
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