TrkB expression and dependence divides gustatory neurons into three subpopulations.

IF 4 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Jennifer Rios-Pilier, Robin F Krimm
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引用次数: 6

Abstract

Background: During development, gustatory (taste) neurons likely undergo numerous changes in morphology and expression prior to differentiation into maturity, but little is known this process or the factors that regulate it. Neuron differentiation is likely regulated by a combination of transcription and growth factors. Embryonically, most geniculate neuron development is regulated by the growth factor brain derived neurotrophic factor (BDNF). Postnatally, however, BDNF expression becomes restricted to subpopulations of taste receptor cells with specific functions. We hypothesized that during development, the receptor for BDNF, tropomyosin kinase B receptor (TrkB), may also become developmentally restricted to a subset of taste neurons and could be one factor that is differentially expressed across taste neuron subsets.

Methods: We used transgenic mouse models to label both geniculate neurons innervating the oral cavity (Phox2b+), which are primarily taste, from those projecting to the outer ear (auricular neurons) to label TrkB expressing neurons (TrkBGFP). We also compared neuron number, taste bud number, and taste receptor cell types in wild-type animals and conditional TrkB knockouts.

Results: Between E15.5-E17.5, TrkB receptor expression becomes restricted to half of the Phox2b + neurons. This TrkB downregulation was specific to oral cavity projecting neurons, since TrkB expression remained constant throughout development in the auricular geniculate neurons (Phox2b-). Conditional TrkB removal from oral sensory neurons (Phox2b+) reduced this population to 92% of control levels, indicating that only 8% of these neurons do not depend on TrkB for survival during development. The remaining neurons failed to innervate any remaining taste buds, 14% of which remained despite the complete loss of innervation. Finally, some types of taste receptor cells (Car4+) were more dependent on innervation than others (PLCβ2+).

Conclusions: Together, these findings indicate that TrkB expression and dependence divides gustatory neurons into three subpopulations: 1) neurons that always express TrkB and are TrkB-dependent during development (50%), 2) neurons dependent on TrkB during development but that downregulate TrkB expression between E15.5 and E17.5 (41%), and 3) neurons that never express or depend on TrkB (9%). These TrkB-independent neurons are likely non-gustatory, as they do not innervate taste buds.

Abstract Image

Abstract Image

Abstract Image

TrkB的表达和依赖将味觉神经元分为三个亚群。
背景:在发育过程中,味觉神经元在分化成熟之前可能经历了许多形态和表达的变化,但对这一过程或调节它的因素知之甚少。神经元分化可能是由转录因子和生长因子共同调控的。胚胎时期,大多数膝状神经元的发育是由生长因子脑源性神经营养因子(BDNF)调节的。然而,出生后,BDNF的表达仅限于具有特定功能的味觉受体细胞亚群。我们假设,在发育过程中,BDNF的受体原肌球蛋白激酶B受体(TrkB)也可能在味觉神经元的一个子集中发育受限,并且可能是味觉神经元亚群中差异表达的一个因素。方法:利用转基因小鼠模型,分别标记支配口腔(主要是味觉)的膝状神经元(Phox2b+)和外耳(耳廓神经元)表达TrkB的神经元(TrkBGFP)。我们还比较了野生型动物和条件TrkB敲除的神经元数量、味蕾数量和味觉受体细胞类型。结果:在E15.5-E17.5之间,TrkB受体的表达仅限于一半的Phox2b +神经元。这种TrkB下调是口腔突起神经元特异性的,因为TrkB的表达在整个耳膝状神经元(Phox2b-)的发育过程中保持不变。有条件地从口腔感觉神经元(Phox2b+)中去除TrkB使该群体减少到对照水平的92%,这表明只有8%的这些神经元在发育过程中不依赖TrkB存活。剩下的神经元无法支配任何剩余的味蕾,尽管完全失去了神经支配,仍有14%的味蕾存活。最后,某些类型的味觉受体细胞(Car4+)比其他类型的(PLCβ2+)更依赖神经支配。综上所述,TrkB的表达和依赖性将味觉神经元分为三个亚群:1)在发育过程中始终表达TrkB并依赖TrkB的神经元(50%),2)在发育过程中依赖TrkB但在E15.5和E17.5之间下调TrkB表达的神经元(41%),以及3)从不表达或依赖TrkB的神经元(9%)。这些不依赖trkb的神经元很可能是非味觉的,因为它们不支配味蕾。
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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来源期刊
Neural Development
Neural Development 生物-发育生物学
CiteScore
6.60
自引率
0.00%
发文量
11
审稿时长
>12 weeks
期刊介绍: Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.
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