Cells regeneration

Researchers at GIGA have demonstrated that mammalian hair cells can be directly generated from supporting cells by inhibition of ephrin-B2 signaling.
Using either ephrin-B2 conditional knockout mice, shRNA-mediated gene silencing or soluble inhibitors, they found that downregulation of ephrin-B2 signalling at embryonic stages results in supporting cell translocation into hair cell layers and subsequent switch in cell phenotype from supporting cell to hair cell.

Interested in these projects? Drop us an email [info@b2h.be]. We are looking forward collaborating with you!

Role of ELP3

Elp3 lysine acetyl-transferase, the catalytic subunit of the Elongator complex, has been assigned multiple roles in gene transcription, DNA methylation and protein translation efficiency.

Given the importance of acetylation homeostasis in controlling developmental processes together with recent reports implicating Elp3 in cortical neurogenesis, researchers at GIGA investigated its role during inner ear formation.

Using different knock-out mouse models, they have shown that Elp3 enzyme is crucial for neuronal survival in the spiral ganglion and in the vestibule and that it ensures a correct innervation pattern in the developing inner ear. In the absence of Elp3, a drastic increase in the number of apoptotic neurons particularly during the early stages of development (between E12.5 and E14.5). Postnatally, the neurons remaining in Elp3cKO cochleae seem to establish synaptic contacts with the sensory cells but show obvious signs of cell damage.

Furthermore, they identified a severe hearing loss in Elp3cKO mice through Auditory Brainstem Response.

Taken together, these data support a role for Elp3 in hearing and balance and point out an important role for acetylation homeostasis during inner ear formation.

Interested in these projects? Drop us an email [info@b2h.be]. We are looking forward collaborating with you!