Assessment of the effects of cannabidiol and a CBD-rich hemp extract in Caenorhabditis elegans.

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-10-01 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1469341
Jessica A Camacho, Bonnie Welch, Martine Ferguson, Estatira Sepehr, Cory Vaught, Yang Zhao, Suzanne Fitzpatrick, Jeffrey Yourick, Robert L Sprando, Piper Reid Hunt
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Abstract

Consumer use of cannabidiol (CBD) is growing, but there are still data gaps regarding its possible adverse effects on reproduction and development. Multiple pathways and signaling cascades involved in organismal development and neuronal function, including endocannabinoid synthesis and signaling systems, are well conserved across phyla, suggesting that Caenorhabditis elegans can model the in vivo effects of exogenous cannabinoids. The effects in C. elegans on oxidative stress response (OxStrR), developmental timing, juvenile and adult spontaneous locomotor activity, reproductive output, and organismal CBD concentrations were assessed after exposure to purified CBD or a hemp extract suspended in 0.5% sesame oil emulsions. In C. elegans, this emulsion vehicle is equivalent to a high-fat diet (HFD). As in mammals, HFD was associated with oxidative-stress-related gene expression in C. elegans adults. CBD reduced HFD-induced OxStrR in transgenic adults and counteracted the hypoactivity observed in HFD-exposed wild-type adults. In C. elegans exposed to CBD from the onset of feeding, delays in later milestone acquisition were irreversible, while later juvenile locomotor activity effects were reversible after the removal of CBD exposure. CBD-induced reductions in mean juvenile population body size were cumulative when chronic exposures were initiated at parental reproductive maturity. Purified CBD was slightly more toxic than matched concentrations of CBD in hemp extract for all tested endpoints, and both were more toxic to juveniles than to adults. Dosimetry indicated that all adverse effect levels observed in C. elegans far exceeded recommended CBD dosages for humans.

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评估大麻二酚和富含 CBD 的大麻提取物对草履虫的影响。
消费者使用大麻二酚(CBD)的情况越来越多,但有关其对生殖和发育可能产生的不利影响的数据仍存在空白。涉及生物体发育和神经元功能的多种途径和信号级联(包括内源性大麻素合成和信号系统)在各门类中具有良好的一致性,这表明秀丽隐杆线虫可以模拟外源性大麻素的体内效应。在暴露于纯化的 CBD 或悬浮于 0.5% 芝麻油乳液中的大麻提取物后,我们评估了 elegans 对氧化应激反应(OxStrR)、发育时间、幼年和成年自发运动活动、生殖输出以及生物体 CBD 浓度的影响。在 elegans 中,这种乳液载体相当于高脂饮食(HFD)。与哺乳动物一样,高脂饮食与优雅鼠成虫体内氧化应激相关基因的表达有关。CBD 可降低转基因成虫体内 HFD 诱导的 OxStrR,并抵消暴露于 HFD 的野生型成虫体内观察到的低活性。在开始摄食时就暴露于 CBD 的 elegans 中,后期里程碑获得的延迟是不可逆的,而后期幼年运动活动的影响在去除 CBD 暴露后是可逆的。在亲代生殖成熟期开始长期接触CBD时,CBD诱导的幼体平均体型减少是累积性的。就所有测试终点而言,纯化的 CBD 的毒性略高于大麻提取物中匹配浓度的 CBD,两者对幼体的毒性均高于对成体的毒性。剂量测定结果表明,在秀丽隐杆线虫体内观察到的所有不利影响水平都远远超过了建议的 CBD 人体剂量。
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CiteScore
3.80
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0.00%
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审稿时长
13 weeks
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