Potential of Using Cannabidiol as a Therapeutic Molecule Against Various Cell Signaling Molecules Involved in Breast Cancer Complications: A Bioinformatics Approach

Background: Breast cancer progression involves key processes such as uncontrolled cell proliferation, resistance to apoptosis, metastasis, and angiogenesis. Cannabidiol (CBD), a non-psy-choactive compound from Cannabis sativa, has shown promise for its anti-cancer properties. This study aimed to explore the interaction of CBD with proteins involved in these processes. Methods: Molecular docking was performed to assess the binding affinity of CBD to four critical proteins: CDK6 (cell cycle regulator), BCL2 (anti-apoptotic protein), MMP2 (invasion-related en-zyme), and VEGFR2 (angiogenesis-related receptor). Known inhibitors, palbociclib, ABT-199, doxycycline, and axitinib, were used as reference compounds for comparison. Results: Cannabidiol exhibited strong binding affinities for CDK6, BCL2, MMP2, and VEGFR2. The docking scores were comparable to those of the respective standard inhibitors, suggesting effec-tive interactions with the active sites of the target proteins. Discussion: These findings suggest that CBD may simultaneously target multiple cancer-related pathways, offering a potential multi-target therapeutic approach for breast cancer. Its comparable efficacy to standard inhibitors, combined with a favorable safety profile, supports its potential for further development. However, experimental validation through in vitro and in vivo studies is neces-sary to confirm its therapeutic effectiveness. Conclusion: CBD demonstrates promising multi-target activity against critical signaling molecules in breast cancer and may serve as a safer, natural therapeutic candidate. Further preclinical and clin-ical investigations are warranted.