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Falone Sunda
Researcher
University of Cape Town
SPEAKER
SCIENCE

Cannabidiol (CBD) Downregulates expression of Human FAM111B Gene in Fibrosarcoma

Fibrosarcoma, a rare and aggressive cancer arising from fibrous connective tissues. It presents a significant therapeutic challenge. A recent study on the overexpression of the human FAM111B gene in fibrosarcoma compared normal epithelial tissues, suggesting it may represent a viable therapeutic target. It is common knowledge that many studies have reported on the anti-cancer properties of Cannabidiol (CBD). However, the molecular mechanisms or targets by with it elicits this property is not fully understood. Consequently, this study investigated the potential of Cannabidiol (CBD) to downregulate FAM111B expression and its implications for apoptosis and cell cycle regulation in fibrosarcoma cells (HT1080) compared to non-cancerous cells (FG0). Utilizing quantitative real-time polymerase chain reaction (qRT-PCR) and Western blot analysis, we established the IC50 values for CBD in HT1080 and FG0 cells. These findings indicate that CBD affects both cell lines with comparable selectivity, suggesting its potential as an adjuvant in cancer therapy.

CBD treatment led to a notable downregulation of FAM111B at both mRNA and protein levels across both cell lines. In HT1080 cells, CBD significantly modulated key regulators of the cell cycle and apoptosis, including Cyclin B1, p21, and BAG3. The upregulation of p21, coupled with the downregulation of Cyclin B1 and BAG3, resulted in an increased arrest of cells in the G0 phase and elevated apoptosis rates. Importantly, CBD did not alter the expression of FAM111A, a closely related gene. Our findings suggest that CBD effectively targets FAM111B, influencing critical cellular pathways associated with cell cycle and apoptosis in fibrosarcoma. This research demonstrates the potential therapeutic utility of CBD in the treatment of fibrosarcoma while also demonstrating its impact on non-cancerous cells. Further investigation will be essential to fully understand the underlying mechanisms and to assess CBD's potential as an adjunct in cancer therapy.

Learning Objectives:

  • Summarize the established anti-cancer properties of Cannabidiol (CBD) while identifying the existing gaps in understanding its molecular mechanisms of action

  • Explore the justification for researching CBD's influence on FAM111B expression and its potential implications for cancer therapy.
BIO
Falone Sunda is a mother of two and a dedicated PhD candidate whose passion for plant studies was ignited during her master’s program. Her academic journey took a compelling turn when she was introduced to Cannabis through her aunts, who utilized the plant to promote hair growth. Intrigued by its properties, Falone embarked on a quest to scientifically explore the properties responsible for these beneficial effects. As she delved deeper into her research, Falone discovered that Cannabis holds promise not only for unique growth applications but also in fibrosis, inflammation and mitigating cancer markers. This lead to her publishing a paper titled "A molecular basis for the anti-inflammatory and anti-fibrosis properties of cannabidiol" in 2020. This work further coincided with her existing work on biochemically characterizing the FAM111B protein, which has well-documented associations with cancer progression. It was at this intersection of personal experience and scientific inquiry that Falone’s current study began to take shape. Currently, Falone's research focuses on exploring the complex biochemical interactions of Cannabis, aiming to harness its potential benefits in both hair growth and cancer treatment. Her work strives to bridge the gap between traditional uses of the plant and modern scientific understanding.

ATTENDANCE IS LIMITED. THE OPPORTUNITIES ARE NOT.

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