The increasing use of products for medicinal, dietary, and recreational purposes has raised concerns about mycotoxin contamination in cannabis and hemp. Mycotoxins persist in these products' post-processing, posing health risks via multiple exposure routes. This study investigated cytotoxic and genotoxic interactions between cannabidiol (CBD) and the mycotoxin citrinin (CIT) using human cell models: SH-SY5Y, HepG2, HEK293, and peripheral blood lymphocytes. IC values and membrane disruption were initially assessed, followed by an evaluation of genotoxicity in lymphocytes using the Comet Assay and Cytokinesis Blocked Micronucleus Cytome Assay. Obtained findings demonstrate that cell-type sensitivity varied across treatments, with combined CBD and CIT exposure exhibiting distinct interactions. Lactate dehydrogenase (LDH) release remained minimal, suggesting cytotoxicity did not stem from membrane disruption but likely involved intracellular pathways. In lymphocytes, CBD alone produced negligible cyto/genotoxic effects and weak antiproliferative responses, whereas CIT displayed clear toxic impacts. DNA damage indicates that CIT may induce genome instability through indirect mechanisms rather than direct DNA interaction, with evidence of potential aneuploidic effects from the CBMN Cyt Assay. Combined exposure led to a reduction in CIT-induced DNA and cytogenetic damage, suggesting CIT's potential interference with the beneficial properties of CBD. These results provide a foundation for further toxicological assessments and highlight the necessity of standardized mycotoxin monitoring in cannabis-derived products.

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http://dx.doi.org/10.3390/toxins16120534DOI Listing

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