Abstract
The inner ear is an intricate structure that houses six sensory organs responsible for both hearing and balance. The development of the inner ear begins with the formation of the otic placode, a transient ectodermal thickening that emerges early during embryonic development. The otic placode undergoes a series of morphological changes, from thickening to invagination and then pinching off from the ectoderm to form the otic vesicle, which further differentiates into the specialized structures of the inner ear. These developmental processes require a coordinated interplay between intrinsic transcription factors and extrinsic signaling molecules, which regulate the patterning, proliferation, and differentiation of the inner ear components. In this review, we focus on the role of Sonic hedgehog (Shh) signaling in the development of the mammalian inner ear. We explore how Shh signaling is involved at multiple stages of inner ear development, including the patterning of the otic vesicle and the differentiation of specific cell types within the cochlea. Additionally, we discuss the mechanisms by which Shh signaling integrates with other signaling pathways and transcription factors to ensure the proper development and function of the inner ear. Understanding the molecular basis of these processes provides valuable insights into inner ear development and its disorders.