鸟瞰澹细胞:斯瓦尔巴特鸻澹细胞区域在不同季节状态下的基因表达谱分析。

Daniel Appenroth, Alexander C West, Shona H Wood, David G Hazlerigg
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引用次数: 0

摘要

在哺乳动物和鸟类中,榕树细胞可调节甲状腺激素的转化,这一过程是控制季节性繁殖的核心。在哺乳动物中,这种细胞类型还与视黄酸信号、神经发生和营养把关有关,所有这些都与下丘脑对能量代谢的调节有关。对于澹红细胞在鸟类中的这些潜在的更广泛作用,人们知之甚少。为了填补这一空白,我们结合激光捕获显微切割技术和转录组学,对雄性斯瓦尔巴特雉的澹细胞区进行了剖析,斯瓦尔巴特雉是一种在生殖激活和体重方面具有光周期依赖性季节节律的高纬度北极物种。将适应短光周期(SP)的鸟类转移到恒定光照(LL)下,以引发繁殖和体重减轻。在恒定光照下生活五个月后,光耐受性的发展导致冬季表型的自发重新出现,其标志是繁殖终止和体重增加。正如季节性哺乳动物所描述的那样,从SP到LL的转移引发了甲状腺激素和视黄酸通路的基因表达变化。此外,还观察到细胞分化和迁移的转录组特征。与西伯利亚仓鼠的数据进行比较后发现,下丘脑澹胞区的光周期依赖性重组可能是一个保守的特征。相反,尽管生殖和代谢表型发生了逆转,但自发产生的光褪色却显示出令人惊讶的少量基因表达水平发生了恢复。我们的数据表明,光周期鸟类和哺乳动物之间的澹胞生物学基本保持一致,并提出了有关光耐受性状态机理起源的问题。
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Tanycytes from a bird's eye view: gene expression profiling of the tanycytic region under different seasonal states in the Svalbard ptarmigan.

In mammals and birds, tanycytes are known to regulate thyroid hormone conversion, and this process is central to the control of seasonal reproduction. In mammals, this cell type is also implicated in retinoic acid signalling, neurogenesis, and nutritional gatekeeping, all of which have been linked to hypothalamic regulation of energy metabolism. Less is known about these potential wider roles of tanycytes in birds. To address this gap, we combined LASER capture microdissection and transcriptomics to profile the tanycytic region in male Svalbard ptarmigan, a High Arctic species with photoperiod-dependent seasonal rhythms in reproductive activation and body mass. Short photoperiod (SP) adapted birds were transferred to constant light (LL) to trigger breeding and body mass loss. After five months under LL, the development of photorefractoriness led to spontaneous re-emergence of the winter phenotype, marked by the termination of breeding and gain in body mass. The transfer from SP to LL initiated gene expression changes in both thyroid hormone and retinoic acid pathways, as described in seasonal mammals. Furthermore, transcriptomic signatures of cell differentiation and migration were observed. Comparison to data from Siberian hamsters demonstrated that a photoperiod-dependent re-organisation of the hypothalamic tanycytic region is likely a conserved feature. Conversely, the spontaneous development of photorefractoriness showed a surprisingly small number of genes that reverted in expression level, despite reversal of the reproductive and metabolic phenotype. Our data suggest general conservation of tanycyte biology between photoperiodic birds and mammals and raise questions about the mechanistic origins of the photorefractory state.

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来源期刊
CiteScore
4.80
自引率
14.30%
发文量
67
审稿时长
1 months
期刊介绍: The Journal of Comparative Physiology A welcomes original articles, short reviews, and short communications in the following fields: - Neurobiology and neuroethology - Sensory physiology and ecology - Physiological and hormonal basis of behavior - Communication, orientation, and locomotion - Functional imaging and neuroanatomy Contributions should add to our understanding of mechanisms and not be purely descriptive. The level of organization addressed may be organismic, cellular, or molecular. Colour figures are free in print and online.
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