MEK/ERK signaling drives the transdifferentiation of supporting cells into functional hair cells by modulating the Notch pathway.
Jiaoyao MaMingyu XiaJin GuoWen LiShan SunBing ChenPublished in: Stem cells translational medicine (2024)
Loss of cochlear hair cells (HCs) leads to permanent hearing loss in mammals, and regenerative medicine is regarded as an ideal strategy for hearing recovery. Limited genetic and pharmaceutical approaches for HC regeneration have been established, and the existing strategies cannot achieve recovery of auditory function. A promising target to promote HC regeneration is MEK/ERK signaling because dynamic shifts in its activity during the critical stages of inner ear development have been observed. Here, we first showed that MEK/ERK signaling is activated specifically in supporting cells (SCs) after aminoglycoside-induced HC injury. We then selected 4 MEK/ERK signaling inhibitors, and PD0325901 (PD03) was found to induce the transdifferentiation of functional supernumerary HCs from SCs in the neonatal mammalian cochlear epithelium. We next found that PD03 facilitated the generation of HCs in inner ear organoids. Through genome-wide high-throughput RNA sequencing and verification, we found that the Notch pathway is the downstream target of MEK/ERK signaling. Importantly, delivery of PD03 into the inner ear induced mild HC regeneration in vivo. Our study thus reveals the importance of MEK/ERK signaling in cell fate determination and suggests that PD03 might serve as a new approach for HC regeneration.
Keyphrases
- pi k akt
- cell cycle arrest
- signaling pathway
- induced apoptosis
- cell proliferation
- hearing loss
- stem cells
- genome wide
- high throughput
- single cell
- dna methylation
- pseudomonas aeruginosa
- cell fate
- high glucose
- cell death
- mass spectrometry
- copy number
- diabetic rats
- liquid chromatography
- tandem mass spectrometry
- simultaneous determination