Vasculature of the Suprachiasmatic Nucleus: Pathways for Diffusible Output Signals.

IF 2.9 3区 生物学 Q2 BIOLOGY Journal of Biological Rhythms Pub Date : 2023-12-01 Epub Date: 2023-08-08 DOI:10.1177/07487304231189537
Yifan Yao, Isabella K Green, Alana B Taub, Ruya Tazebay, Joseph LeSauter, Rae Silver
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引用次数: 2

Abstract

Transplant studies demonstrate unequivocally that the suprachiasmatic nucleus (SCN) produces diffusible signals that can sustain circadian locomotor rhythms. There is a vascular portal pathway between the SCN and the organum vasculosum of the lamina terminalis in mouse brain. Portal pathways enable low concentrations of neurosecretions to reach specialized local targets without dilution in the systemic circulation. To explore the SCN vasculature and the capillary vessels whereby SCN neurosecretions might reach portal vessels, we investigated the blood vessels (BVs) of the core and shell SCN. The arterial supply of the SCN differs among animals, and in some animals, there are differences between the 2 sides. The rostral SCN is supplied by branches from either the superior hypophyseal artery (SHpA) or the anterior cerebral artery or the anterior communicating artery. The caudal SCN is consistently supplied by the SHpA. The rostral SCN is drained by the preoptic vein, while the caudal is drained by the basal vein, with variations in laterality of draining vessels. In addition, several key features of the core and shell SCN regions differ: Median BV diameter is significantly smaller in the shell than the core based on confocal image measurements, and a similar trend occurs in iDISCO-cleared tissue. In the cleared tissue, whole BV length density and surface area density are significantly greater in the shell than the core. Finally, capillary length density is also greater in the shell than the core. The results suggest three hypotheses: First, the distinct arterial and venous systems of the rostral and caudal SCN may contribute to the in vivo variations of metabolic and neural activities observed in SCN networks. Second, the dense capillaries of the SCN shell are well positioned to transport blood-borne signals. Finally, variations in SCN vascular supply and drainage may contribute to inter-animal differences.

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丘脑上核的血管:可扩散输出信号的途径。
移植研究明确表明,视交叉上核(SCN)产生的可扩散信号可以维持昼夜节律。在小鼠大脑中,SCN和终板血管器之间存在一条血管门脉通路。门脉通路使低浓度的神经分泌能够在不稀释系统循环的情况下到达专门的局部靶点。为了探索SCN血管系统和SCN神经分泌可能到达门静脉的毛细血管,我们研究了核心和外壳SCN的血管(BVs)。SCN的动脉供应在动物之间不同,在一些动物中,两侧之间存在差异。嘴侧SCN由垂体上动脉(SHpA)或大脑前动脉或前交通动脉的分支提供。尾侧SCN始终由SHpA提供。吻侧SCN由视前静脉引流,而尾侧SCN则由基底静脉引流,引流血管的偏侧性各不相同。此外,核心和外壳SCN区域的几个关键特征不同:根据共焦图像测量,外壳中的中位BV直径明显小于核心,在iDISCO清除的组织中也出现了类似的趋势。在清除的组织中,外壳中的整个BV长度密度和表面积密度明显大于核心。最后,毛细管长度密度在壳中也大于芯。研究结果提出了三个假设:首先,嘴侧和尾侧SCN不同的动脉和静脉系统可能有助于在SCN网络中观察到的代谢和神经活动的体内变化。其次,SCN外壳的致密毛细管被很好地定位以传输血液传播的信号。最后,SCN血管供应和引流的变化可能导致动物间的差异。
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来源期刊
CiteScore
6.10
自引率
8.60%
发文量
48
审稿时长
>12 weeks
期刊介绍: Journal of Biological Rhythms is the official journal of the Society for Research on Biological Rhythms and offers peer-reviewed original research in all aspects of biological rhythms, using genetic, biochemical, physiological, behavioral, epidemiological & modeling approaches, as well as clinical trials. Emphasis is on circadian and seasonal rhythms, but timely reviews and research on other periodicities are also considered. The journal is a member of the Committee on Publication Ethics (COPE).
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