Your search keyword '"hearing regeneration"' showing total 5 results

1. Transdifferentiation is temporally uncoupled from progenitor pool expansion during hair cell regeneration in the zebrafish inner ear.

Author

Beaulieu, Marielle O., Thomas, Eric D., and Raible, David W.

Subjects

HAIR cells, INNER ear, BRACHYDANIO, REGENERATION (Biology), PROGENITOR cells, CELL death, CARDIAC regeneration

Abstract

Death of mechanosensory hair cells in the inner ear is a common cause of auditory and vestibular impairment in mammals, which have a limited ability to regrow these cells after damage. In contrast, nonmammalian vertebrates, including zebrafish, can robustly regenerate hair cells after severe organ damage. The zebrafish inner ear provides an understudied model system for understanding hair cell regeneration in organs that are highly conserved with their mammalian counterparts. Here, we quantitatively examine hair cell addition during growth and regeneration of the larval zebrafish inner ear. We used a genetically encoded ablation method to induce hair cell death and we observed gradual regeneration with correct spatial patterning over a 2-week period following ablation. Supporting cells, which surround and are a source of new hair cells, divide in response to hair cell ablation, expanding the possible progenitor pool. In parallel, nascent hair cells arise from direct transdifferentiation of progenitor pool cells temporally uncoupled from supporting cell division. These findings reveal a previously unrecognized mechanism of hair cell regeneration with implications for how hair cells may be encouraged to regenerate in the mammalian ear. [ABSTRACT FROM AUTHOR]

Published

2024

2. In preprints: theme and variations on hair-cell regeneration in zebrafish.

Author

Miranda-Rodríguez, Jerónimo and López-Schier, Hernán

Subjects

SOX transcription factors, CYTOLOGY, HAIR cells, CELL transformation, FLUORESCENCE in situ hybridization

Abstract

This article discusses the importance of hair-cell regeneration in mammals and explores the regenerative abilities of non-mammalian vertebrates, specifically zebrafish. The researchers highlight the advantages of studying hair-cell regeneration in zebrafish and present recent findings on the mechanisms involved. The article emphasizes the need for further research in this field and the potential for future breakthroughs in treating hearing loss in humans. The document is a list of references for various scientific articles related to auditory hair cell regeneration in avian and zebrafish models, providing valuable information for researchers in this area. [Extracted from the article]

Published

2024

3. Embracing the diversity of model systems to deconstruct the basis of regeneration and tissue repair.

Author

Amiel, Aldine R., Tsai, Stephanie L., and Wehner, Daniel

Subjects

REGENERATION (Biology), WOUND healing, REGENERATIVE medicine, CLINICAL medicine, REPAIRING

Abstract

The eighth EMBO conference in the series 'The Molecular and Cellular Basis of Regeneration and Tissue Repair' took place in Barcelona (Spain) in September 2022. A total of 173 researchers from across the globe shared their latest advances in deciphering the molecular and cellular basis of wound healing, tissue repair and regeneration, as well as their implications for future clinical applications. The conference showcased an ever-expanding diversity of model organisms used to identify mechanisms that promote regeneration. Over 25 species were discussed, ranging from invertebrates to humans. Here, we provide an overview of the exciting topics presented at the conference, highlighting novel discoveries in regeneration and perspectives for regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2023

4. Avian auditory hair cell regeneration is accompanied by JAK/STAT-dependent expression of immune-related genes in supporting cells.

Author

Janesick, Amanda S., Scheibinger, Mirko, Benkafadar, Nesrine, Kirti, Sakin, and Heller, Stefan

Subjects

HAIR cells, REGENERATION (Biology), GENE expression, GENE expression profiling, IN situ hybridization

Abstract

The avian hearing organ is the basilar papilla that, in sharp contrast to the mammalian cochlea, can regenerate sensory hair cells and thereby recover from deafness within weeks. The mechanisms that trigger, sustain and terminate the regenerative response in vivo are largely unknown. Here, we profile the changes in gene expression in the chicken basilar papilla after aminoglycoside antibiotic-induced hair cell loss using RNA-sequencing. We identified changes in gene expression of a group of immune-related genes and confirmed with single-cell RNA-sequencing that these changes occur in supporting cells. In situ hybridization was used to further validate these findings. We determined that the JAK/STAT signaling pathway is essential for upregulation of the damage-response genes in supporting cells during the second day after induction of hair cell loss. Four days after ototoxic damage, we identified newly regenerated, nascent auditory hair cells that express genes linked to termination of the JAK/STAT signaling response. The robust, transient expression of immunerelated genes in supporting cells suggests a potential functional involvement of JAK/STAT signaling in sensory hair cell regeneration. [ABSTRACT FROM AUTHOR]

Published

2022

5. Trends in tissue repair and regeneration.

Author

Galliot, Brigitte, Crescenzi, Marco, Jacinto, Antonio, and Tajbakhsh, Shahragim

Subjects

REGENERATION (Biology), TRANSPLANTATION of organs, tissues, etc., PLASTIC embedding, CONFERENCES & conventions

Abstract

The 6th EMBO conference on the Molecular and Cellular Basis of Regeneration and Tissue Repair took place in Paestum (Italy) on the 17th-21st September, 2016. The 160 scientists who attended discussed the importance of cellular and tissue plasticity, biophysical aspects of regeneration, the diverse roles of injury-induced immune responses, strategies to reactivate regeneration in mammals, links between regeneration and ageing, and the impact of non-mammalian models on regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2017