Early otic development depends on autophagy for apoptotic cell clearance and neural differentiation.

Autophagy is a highly regulated program of self-degradation of the cytosolic constituents that has key roles during early development and in adult cell growth and homeostasis. To investigate the role of autophagy in otic neurogenesis, we studied the expression of autophagy genes in early stages of chicken (Gallus gallus) inner ear development and the consequences of inhibiting the autophagic pathway in organotypic cultures of explanted chicken otic vesicles (OVs). Here we show the expression of autophagy-related genes (Atg) Beclin-1 (Atg6), Atg5 and LC3B (Atg8) in the otocyst and the presence of autophagic vesicles by using transmission electron microscopy in the otic neurogenic zone. The inhibition of the transcription of LC3B by using antisense morpholinos and of class III phosphatidylinositol 3-kinase with 3-methyladenine causes an aberrant morphology of the OV with accumulation of apoptotic cells. Moreover, inhibition of autophagy provokes the misregulation of the cell cycle in the otic epithelium, impaired neurogenesis and poor axonal outgrowth. Finally, our results indicate that autophagy provides the energy required for the clearing of neuroepithelial dying cells and suggest that it is required for the migration of otic neuronal precursors. Taken together, our results show for the first time that autophagy is an active and essential process during early inner ear development.

[Neurotrophic action of insulin-like growth factor-I in the inner ear]. / Acciones neurotróficas del factor de crecimiento similar a la insulina de tipo I en el oído interno.

INTRODUCTION: Loss of hearing constitutes one of the most frequent disabling sensory impairments in the developed world. Different therapeutic approaches are currently being studied, including treatment with stem cells, genetic manipulation and pharmacological protection. AIM: To evaluate the role played by insulin-like growth factor-I (IGF-I) in the development, maintenance and repair of auditory functioning. DEVELOPMENT: Proper development of the inner ear is dependent on a suitable coordination of the cell processes of proliferation, differentiation, neurogenesis and programmed cell death, which are regulated by different factors, one of which is IGF-I. During the embryogenesis of the inner ear, this factor is expressed in abundance and is essential for cell survival and maintaining neuronal precursors. Studies conducted in Igf-1-/- null mice have highlighted its importance in the development and continued functioning of the inner ear. Mice with a deficit in this gene display morphological disorders that correspond to severe functional deficiencies, which are confirmed by analysing brainstem auditory evoked potentials. A deficit of IGF-I in humans is also accompanied by profound sensory hypoacusis. CONCLUSIONS: In a scenario like this, IGF-I appears as a key factor in the development of auditory functioning and a candidate for regenerative therapy of the inner ear.

Acciones neurotróficas del factor de crecimiento similar a la insulina de tipo I en el oído interno / Neurotrophic action of insulin-like growth factor-i in the inner ear

Introducción. La pérdida de audición constituye una de las deficiencias sensoriales invalidantes más frecuentes en el mundo desarrollado. En la actualidad se estudian diferentes abordajes terapéuticos, entre los que se incluyen el tratamiento con células madre, la manipulación genética y la protección farmacológica. Objetivo. Evaluar el papel del factor de crecimientosimilar a la insulina de tipo I (IGF-I) en el desarrollo, el mantenimiento y la reparación de la función auditiva. Desarrollo. El desarrollo del oído interno depende de la adecuada coordinación de los procesos celulares de proliferación, diferenciación, neurogénesis y muerte celular programada, que se encuentran regulados por distintos factores entre los que se encuentra el IGF-I. Durante la embriogénesis del oído interno, este factor se expresa abundantemente y es fundamental para la supervivencia celular y el mantenimiento de los precursores neuronales. El estudio del ratón nulo Igf-1–/– ha puesto de manifiesto su importancia en el desarrollo y mantenimiento funcional del oído interno. Los ratones deficientes en este gen presentan alteraciones morfológicas que se corresponden con graves deficiencias funcionales, confirmadas mediante el análisis de los potenciales evocados auditivos de tronco cerebral. El déficit de IGF-I en humanos también se acompaña de hipoacusia sensorial profunda. Conclusión. En este escenario, se perfila el IGF-I como un factor clave para el desarrollo de la función auditiva y un candidato para la terapia regenerativa del oído interno

Introduction. Loss of hearing constitutes one of the most frequent disabling sensory impairments in the developed world. Different therapeutic approaches are currently being studied, including treatment with stem cells, genetic manipulation and pharmacological protection. Aim. To evaluate the role played by insulin-like growth factor-I (IGF-I) in the development, maintenance and repair of auditory functioning. Development. Proper development of the inner ear is dependent on a suitable coordination of the cell processes of proliferation, differentiation, neurogenesis and programmed cell death, which are regulated by different factors, one of which is IGF-I. During the embryogenesis of the inner ear, this factor is expressed in abundance and is essential for cell survival and maintaining neuronal precursors. Studies conducted in Igf-1–/– null mice have highlighted its importance in the development and continued functioning of the inner ear. Mice with a deficit in this gene display morphological disorders that correspond to severe functional deficiencies, which are confirmed by analysing brainstem auditory evoked potentials. A deficit of IGF-I in humans is also accompanied by profound sensory hypoacusis. Conclusions. In a scenario like this, IGF-I appears as a key factor in the development of auditory functioning and a candidate for regenerative therapy of the inner ear