Endocannabinoid Receptor Expression in Early Zebrafish Development

内大麻素系统 大麻素受体 生物 斑马鱼 TRPV1型 内科学 大麻素 神经科学 内分泌学 受体 医学 遗传学 兴奋剂 基因 瞬时受体电位通道
作者
Hae-Won Son,Declan W. Ali
出处
期刊:Developmental Neuroscience [Karger Publishers]
卷期号:44 (3): 142-152 被引量:4
标识
DOI:10.1159/000522383
摘要

The endocannabinoid system is widely studied due to its interactions with cannabis and its role in modulating physiological responses. While most research has focused on the effects of cannabis on adult endocannabinoid systems, recent studies have begun to investigate the role of the endocannabinoid system in developing organisms. However, little is known about the spatial or temporal expression of these receptors during early development. This study combines reverse-transcriptase PCR with in situ hybridizations to compile a timeline of the developmental expression of six key cannabinoid receptors; cb1, cb2, trpv1, trpa1a, trpa1b, and gpr55 in zebrafish embryos, starting from as early as 6 hours post fertilization (hpf) until 3 days post fertilization. This time frame is roughly equivalent to two to ten weeks in human embryonic development. All six genes were confirmed to be expressed within this time range and share similarities with human and rodent expression. Cb1 expression was first detected between 12 and 24 hpf in the retina and CNS, and its expression increased thereafter and was more evident in the olfactory bulb, tegmentum, hypothalamus and gut. Cb2 expression was relatively high at the 6 and 24 hpf timepoints, as determined by RT-PCR, but was undetectable at other times. Trpv1 was first detected at 1 dpf in the trigeminal ganglia, Rohon-Beard neurons and lateral line, and its expression increased in the first 3 days post fertilization (dpf). Expression of trpa1a was first detected as late as 3 dpf in vagal neurons, whereas trpa1b was first detected at 1 dpf associated with trigeminal, glossopharyngeal and vagal ganglia. Expression of gpr55 was diffuse and widespread throughout the brain and head region but was undetectable elsewhere in the embryo. Thus, receptor expression was found to be enriched in the central nervous system and within sensory neurons. This work aims to serve as a foundation for further investigation on the role of cannabinoid and cannabinoid-interacting receptors in early embryonic development.

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