Hearing crosstalk: the molecular conversation orchestrating inner ear dorsoventral patterning.

Q1 Biochemistry, Genetics and Molecular Biology Wiley Interdisciplinary Reviews: Developmental Biology Pub Date : 2018-01-01 Epub Date: 2017-10-11 DOI:10.1002/wdev.302

Sho Ohta, Gary C Schoenwolf

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引用次数: 16

Abstract

The inner ear is a structurally and functionally complex organ that functions in balance and hearing. It originates during neurulation as a localized thickened region of rostral ectoderm termed the otic placode, which lies adjacent to the developing caudal hindbrain. Shortly after the otic placode forms, it invaginates to delineate the otic cup, which quickly pinches off of the surface ectoderm to form a hollow spherical vesicle called the otocyst; the latter gives rise dorsally to inner ear vestibular components and ventrally to its auditory component. Morphogenesis of the otocyst is regulated by secreted proteins, such as WNTs, BMPs, and SHH, which determine its dorsoventral polarity to define vestibular and cochlear structures and sensory and nonsensory cell fates. In this review, we focus on the crosstalk that occurs among three families of secreted molecules to progressively polarize and pattern the developing otocyst. WIREs Dev Biol 2018, 7:e302. doi: 10.1002/wdev.302 This article is categorized under: Establishment of Spatial and Temporal Patterns > Gradients Signaling Pathways > Cell Fate Signaling Vertebrate Organogenesis > From a Tubular Primordium: Non-Branched.

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听觉串扰:协调内耳背腹模式的分子对话。

内耳是一个结构和功能复杂的器官，具有平衡和听觉功能。它起源于神经发育期间，是吻侧外胚层的一个局部增厚区域，称为耳区，位于发育中的尾侧后脑附近。耳基体形成后不久，内陷形成耳杯，耳杯迅速从表面外胚层挤压出来，形成一个中空的球形囊泡，称为耳囊;后者在背面产生内耳前庭成分，在腹侧产生听觉成分。耳囊肿的形态发生受分泌蛋白调控，如wnt、bmp和SHH，这些蛋白决定耳囊肿的背腹侧极性，从而决定前庭和耳蜗结构以及感觉和非感觉细胞的命运。在这篇综述中，我们关注的是发生在三个分泌分子家族之间的串扰，以逐渐极化和模式发展中的耳囊肿。生物工程学报，2018,37(4):391 - 391。doi: 10.1002 / wdev.302本文的分类为:时空格局的建立>梯度信号通路>细胞命运信号传导脊椎动物器官发生>来自管状原基:非分支。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Wiley Interdisciplinary Reviews: Developmental Biology DEVELOPMENTAL BIOLOGY-

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期刊介绍： Developmental biology is concerned with the fundamental question of how a single cell, the fertilized egg, ultimately produces a complex, fully patterned adult organism. This problem is studied on many different biological levels, from the molecular to the organismal. Developed in association with the Society for Developmental Biology, WIREs Developmental Biology will provide a unique interdisciplinary forum dedicated to fostering excellence in research and education and communicating key advances in this important field. The collaborative and integrative ethos of the WIREs model will facilitate connections to related disciplines such as genetics, systems biology, bioengineering, and psychology. The topical coverage of WIREs Developmental Biology includes: Establishment of Spatial and Temporal Patterns; Gene Expression and Transcriptional Hierarchies; Signaling Pathways; Early Embryonic Development; Invertebrate Organogenesis; Vertebrate Organogenesis; Nervous System Development; Birth Defects; Adult Stem Cells, Tissue Renewal and Regeneration; Cell Types and Issues Specific to Plants; Comparative Development and Evolution; and Technologies.