Screening of the Prime bioactive compounds from Aloe vera as potential anti-proliferative agents targeting DNA.

BACKGROUND: Aloe vera extract and its bioactive compounds possess anti-proliferative properties against cancer cells. However, no detailed molecular mechanism of action studies has been reported. We have now employed a computational approach to scrutinize the molecular mechanism of lead bioactive compounds from Aloe vera that potentially inhibit DNA synthesis. METHODS: Initially, the anti-proliferative activity of Aloe vera extract was examined in human breast cancer cells (in vitro/in vivo). Later on, computational screening of bioactive compounds from Aloe vera targeting DNA was performed by molecular docking and molecular dynamics simulation. RESULTS: In-vitro and in-vivo studies confirm that Aloe vera extract effectively suppresses the growth of breast cancer cells without significant cytotoxicity towards non-cancerous normal immortal cells. Computational screening predicts that growth suppression may be due to the presence of DNA intercalating bioactive compounds (riboflavin, daidzin, aloin, etc.) contained in Aloe vera. MM/PBSA calculation showed that riboflavin has a higher binding affinity at the DNA binding sites compared to standard drug daunorubicin. CONCLUSIONS: These observations support the hypothesis that riboflavin may be exploited as an anti-proliferative DNA intercalating agent to prevent cancer and is worthy of testing for the management of cancer by performing more extensive pre-clinical and if validated clinical trials.

Natural products based nanoformulations for cancer treatment: current evolution in Indian research.

The use of medicinal plants is as ancient as human civilization. The development of phytochemistry and pharmacology facilitates the identification of natural bioactive compounds and their mechanisms of action, including against cancer. The efficacy and the safety of a bioactive compound depend on its optimal delivery to the target site. Most natural bioactive compounds (phenols, flavonoids, tannins, etc) are unable to reach their target sites due to their low water solubility, less cellular absorption, and high molecular weight, leading to their failure into clinical translation. Therefore, many scientific studies are going on to overcome the drawbacks of natural products for clinical applications. Several studies in India, as well as worldwide, have proposed the development of natural products-based nanoformulations to increase their efficacy and safety profile for cancer therapy by improving the delivery of natural bioactive compounds to their target site. Therefore, we are trying to discuss the development of natural products-based nanoformulations in India to improve the efficacy and safety of natural bioactive compounds against cancer.

Curcumin Complexed with Graphene Derivative for Breast Cancer Therapy.

In recent years, graphene-based materials complexed with drugs have been developed for application in cancer therapy, aimed at gaining synergistic effect. Here, we have prepared graphene oxide (GO) and graphene quantum dots (GQDs) with curcumin (Cur) in three different ratios (1:1, 1:3, and 1:5 w/v). We showed a successful complexation of GO and GQDs with Cur through various spectroscopy and microscopy techniques. The optical density of the complex through UV-vis spectroscopy showed less than 10% (for GQDs-Cur) and less than 20% (for GO-Cur) aggregation in 48 h, which confirms the stability of the complex. The UV-vis result estimates the loading efficiency of Cur to be 80 ± 1 and 83 ± 1% for GO-Cur and GQDs-Cur respectively. We tested the complexes GO-Cur and GQDs-Cur in different ratios as an anticancer drug against human breast cancer cell lines MCF-7 and MDA-MB-468 through the MTT assay. Following 48 h of incubation with the cell lines, a cell viability of more than 75% was observed in the case of GQDs & GO, while it was 40% in the case of Cur at a concentration of 100 µg/mL. The 1:1, 1:3, and 1:5 ratios of complexes enforced cell death ∼60, ∼80, and ∼95% at 100 µg/mL after 48 h of treatment, respectively. The optical images of cancerous cells treated with GO, GQDs, Cur, GO-Cur, and GQDs-Cur, at three different time intervals (0, 24, and 48 h), corroborated well with the results from the MTT assay in terms of the percentage of dead cells. The fluorescence images show a successful delivery of Cur drug inside the cancerous cell. The possible mechanism of killing of the cancerous cell with the complexes GO-Cur and GQDs-Cur is discussed. Moreover, this study opens a window to determine the mechanism of killing the cancerous cell.

Lead bioactive compounds of Aloe vera as potential anticancer agent.

Aloe vera (Aloe barbadensis Miller) is a perennial succulent medicinal plant. It has been used as a traditional or folk medicine for thousands of years and claimed that it possesses wound and burn healing activities, and anti-inflammatory as well as immunomodulatory effects. In recent years, the use of Aloe vera has been growing as a dietary supplement. The pre-clinical studies over the last couple of decades uncover the potential therapeutic activities of Aloe vera and its bioactive compounds, especially against neoplastic disease. Such investigations indicate the possible preventive as well as therapeutic effects of Aloe vera against cancer. Here, we discuss the crucial bioactive compounds of Aloe vera that have been harnessed against cancer and also address several mechanisms of action of these lead bioactive compounds compared to other standard drugs involved in cancer prevention and treatment.