The role of curcumin in modulating circular RNAs and long non-coding RNAs in cancer

Single molecule recognition of CD95 receptors on the surface of HepG2 cells under the curcumin

Hepatocellular carcinoma (HCC) is a serious concern worldwide. The published reports showed that aberrant CD95 receptor expression plays a critical role in apoptosis in liver cancer. While curcumin has shown promise in inducing apoptosis in liver cancer cells, its direct effects on CD95 expression during this process have not been thoroughly investigated. This study aims to quantitatively assess the expression of the CD95 receptor in HepG2 cells treated with different concentrations of curcumin using techniques such as fluorescence staining, single-molecule force spectroscopy (SMFS), and single-molecule recognition imaging (SMRI). Fluorescence staining results indicate a significant increase in CD95 expression following curcumin treatment. For the first time, SMFS and SMRI techniques were used to directly reveal the binding sites of CD95 on the cell membrane, with the number of binding sites increasing as the curcumin concentration increased. Additionally, the binding force between an antibody-modified probe and CD95 was strengthened with curcumin treatment, suggesting that curcumin enhances both the quantity and affinity of CD95 binding sites. This study provides new insights into curcumin-induced CD95-mediated apoptosis in liver cancer cells and highlights the potential of AFM techniques for investigating drug mechanisms. Overall, these findings may inform innovative therapeutic strategies for liver cancer and improve drug design processes.

Synergistic strength: unleashing exercise and polyphenols against breast cancer

Breast cancer remains a major global health challenge, necessitating innovative preventive and therapeutic strategies. Emerging evidence such as clinical trials suggests that the combination of exercise and polyphenol intake exerts synergistic effects in mitigating breast cancer progression by modulating key molecular pathways. Exercise enhances immune function, reduces inflammation, and regulates cellular metabolism, while polyphenols, natural compounds found in various plant-based foods, exhibit antioxidant, anti-inflammatory, and anti-carcinogenic properties. Together, these interventions influence apoptosis, oxidative stress, and ferroptosis which play crucial roles in breast cancer pathophysiology. This review explores the molecular mechanisms underlying the combined impact of exercise and polyphenols on breast cancer prevention and treatment. Understanding the interplay between exercise and polyphenols at the molecular level could pave the way for novel, non-invasive therapeutic strategies. Future research should focus on optimizing exercise regimens and dietary interventions to maximize their anti-cancer benefits. By bridging molecular insights with clinical applications, this review aims to provide a foundation for incorporating lifestyle-based interventions into breast cancer management. Our findings collectively highlight the promising potential of combining curcumin supplementation with exercise as a multifaceted approach to breast cancer treatment. The synergistic effects observed in various studies suggest that integrating lifestyle modifications with dietary interventions may enhance therapeutic efficacy and mitigate cancer progression. Further clinical investigations are warranted to validate these results and explore their applicability in human subjects. The evidence supports a holistic strategy for breast cancer management that could improve patient outcomes and quality of life during treatment.