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Cannabidiol attenuates lipid metabolism and induces CB1 receptor-mediated ER stress associated apoptosis in ovarian cancer cells

Xuanhe Fu, Zhixiong Yu, Fang Fang, Weiping Zhou, Yuxin Bai, Zhongjia Jiang, Biao Yang, Ye Sun, Xing Tian, Guangyan Liu

2025Scientific Reports6 citationsDOIOpen Access PDF

Abstract

Ovarian cancer (OC) is the most deadly gynecological tumor. OC cells utilize cellular metabolic reprogramming to gain a survival advantage, particularly through aberrant lipid metabolic process. As the primary ingredient in exogenous cannabinoids, cannabidiol (CBD) has been confirmed to exhibit antitumor activity in preclinical studies. However, it is still unclear whether CBD can disrupt fatty acid metabolism and induce apoptosis in OC cells. In this study, we have demonstrated that CBD significantly inhibits the proliferation of OCs through a cannabinoid receptor type 1 (CB1R)-mediated manner. Fatty acid metabolic profiling and flow cytometry analysis revealed that CBD has the ability to decrease fatty acid levels and significantly suppress the transcription of genes involved in fatty acid uptake and synthesis in ES-2 cells. In addition, the analysis from RNA-seq and real-time RT-PCR revealed that CBD activated the endoplasmic reticulum (ER) stress pathway. Conversely, by supplementation with unsaturated fatty acid or blocking CB1R, ER stress or reactive oxygen species (ROS) signals with specific inhibitors could significantly relieve CBD induced, dose-dependent, ER stress associated apoptosis, G0-G1 phase arrest, and mitochondrial dysfunction. Taken collectively, these data indicate that CBD may disrupt lipid metabolism, and lead to ER stress-related apoptosis in OCs. Our findings may provide a theoretical mechanism for anti-ovarian cancer using CBD.

Topics & Concepts

CannabidiolCannabinoid receptorApoptosisOvarian cancerLipid metabolismCancer researchReceptorCannabinoidMedicineCancerChemistryBiologyInternal medicineBiochemistryCannabisPsychiatryAgonistCannabis and Cannabinoid ResearchDiet, Metabolism, and DiseaseEndoplasmic Reticulum Stress and Disease