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Toxicity effects of Cannabidiol (CBD) on immune cells
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Document Title
Toxicity effects of Cannabidiol (CBD) on immune cells
Author
Jindaphun K. Takheaw N. Laopajon W. Pata S. Kasinrerk W.
Affiliations
Division of Clinical Immunology Department of Medical Technology Faculty of Associated Medical Sciences Chiang Mai University Chiang Mai Province Thailand; Biomedical Technology Research Center National Center for Genetic Engineering and Biotechnology National Science and Technology Development Agency at the Faculty of Associated Medical Sciences Chiang Mai University Chiang Mai Province Thailand
Type
Article
Source Title
Journal of Associated Medical Sciences
ISSN
25396056
Year
2024
Volume
57
Issue
1
Page
87-95
Open Access
All Open Access Bronze
Publisher
Faculty of Associated Medical Sciences Chiang Mai University
DOI
10.12982/JAMS.2024.010
Abstract
Background: Cannabis extract has a long history of being used in the treatment and prevention of several medical conditions. The utilization of cannabis extracts whether for medical or localized purposes is widely observed. In cannabis extract cannabidiol (CBD) is one of the most important non-psychoactive compounds. Several studies have demonstrated that CBD has several benefits in the treatment of various medical conditions. Nevertheless CBD has also been demonstrated to suppress both innate and adaptive immune responses. Despite CBD has claimed to have many benefits the toxicity of CBD is often pointed out and discussed. Nonetheless the data on the toxicity effects of CBD on immune cells are limited. Objectives: In this study we aimed to investigate the toxicity effects of various concentrations of CBD on immune cells including CD4 T cells CD8 T cells B cells NK cells and monocytes. Materials and methods: Various concentrations of peripheral blood mononuclear cells (PBMCs) were treated with various concentrations of CBD or relative concentrations of methanol as a diluent control for 12 24 and 48 hrs. Cell morphology was observed using flow cytometry. The percentage of cell death in the treated cells was determined by cell viability assay. In addition the toxic effects of CBD on PBMC sub-populations were determined by staining with fluorochrome-conjugated zombie viability dye and fluorochrome-conjugated monoclonal antibodies specific to each cell sub-population. Then the percentage of cell death in each sub-population was assessed using flow cytometry. Results: CBD at concentrations of 40 and 80 ?M showed toxicity effects on PBMCs. At these concentrations CBD induced both cell morphological changes and cell death. While 20 ?M CBD induced different effects ranging from none to mild and high toxicity. The toxicity of CBD at 20 ?M concentration depends on the individual. In contrast CBD at ten ?M and below showed no toxicity to PBMCs. The observed toxic effects of CBD occurred in all sub-populations of PBMCs including CD4 T cells CD8 T cells B cells NK cells and monocytes. Conclusion: CBD has toxicity effects on immune cells. These effects depend on CBD concentrations PBMC concentrations and the duration of CBD exposure. Our findings emphasize the importance of awareness for CBD users when consuming CBD. ? 2024 Faculty of Associated Medical Sciences Chiang Mai University. All rights reserved.
Keyword
License
CC BY-NC-ND
Rights
Authors
Publication Source
Scopus