Silybin or silibinin, a flavonolignan isolated from Milk thistle seeds, is one of the popular dietary supplements and has been extensively studied for its antioxidant, hepatoprotective and anti-cancer properties. We have envisioned that potency of silybin could be further enhanced through suitable modification/s in its chemical structure. Accordingly, here, we synthesized and characterized a series of silybin derivatives namely 2,3-dehydrosilybin (DHS), 7-O-methylsilybin (7OM), 7-O-galloylsilybin (7OG), 7,23-disulphatesilybin (DSS), 7-O-palmitoylsilybin (7OP), and 23-O-palmitoylsilybin (23OP); and compared their anti-cancer efficacy using human bladder cancer HTB9, colon cancer HCT116 and prostate carcinoma PC3 cells. In all the 3 cell lines, DHS, 7OM and 7OG demonstrated better growth inhibitory effects and compared to silybin, while other silybin derivatives showed lesser or no efficacy. Next, we prepared the optical isomers (A and B) of silybin, DHS, 7OM and 7OG, and compared their anti-cancer efficacy. Isomers of these three silybin derivatives also showed better efficacy compared with respective silybin isomers, but in each, there was no clear cut silybin A versus B isomer activity preference. Further studies in HTB cells found that DHS, 7OM and 7OG exert better apoptotic activity than silibinin. Clonogenic assays in HTB9 cells further confirmed that both the racemic mixtures as well as pure optical isomers of DHS, 7OM and 7OG were more effective than silybin. Overall, these results clearly suggest that the anti-cancer efficacy of silybin could be significantly enhanced through structural modifications, and identify strong anti-cancer efficacy of silybin derivatives, namely DHS, 7OM, and 7OG, signifying that their efficacy and toxicity should be evaluated in relevant pre-clinical cancer models in rodents.
BackgroundHealthcare associated infections (HAI) with multidrug-resistant (MDR) bacteria continue to be a global threat, highlighting an urgent need for novel antibiotics. In this study, we assessed the potential of free fatty acids and cholesteryl esters that form part of the innate host defense as novel antibacterial agents for use against MDR bacteria.MethodsLiposomes of six different phospholipid mixtures were employed as carrier for six different fatty acids and four different cholesteryl esters. Using a modified MIC assay based on DNA quantification with the fluoroprobe Syto9, formulations were tested against Gram-positive and Gram-negative bacteria implicated in HAI. Formulations with MIC values in the low μg/mL range were further subjected to determination of minimal bactericidal activity, hemolysis assay with sheep erythrocytes, and cytotoxicity testing with the human liver cell line HepG2. The potential for synergistic activity with a standard antibiotic was also probed.ResultsPalmitic acid and stearic acid prepared in carrier 4 (PA4 and SA4, respectively) were identified as most active lipids (MIC against MDR Staphylococcus epidermidis was 0.5 and 0.25 μg/mL, respectively; MIC against vancomycin resistant Enterococcus faecalis (VRE) was 2 and 0.5 μg/mL, respectively). Cholesteryl linoleate formulated with carrier 3 (CL3) exhibited activity against the S. epidermidis strain (MIC 1 μg/mL) and a Pseudomonas aeruginosa strain (MIC 8 μg/mL) and lowered the vancomycin MIC for VRE from 32–64 μg/mL to as low as 4 μg/mL. At 90 μg/mL PA4, SA4, and CL3 effected less than 5 % hemolysis over 3 h and PA4 and CL3 did not exhibit significant cytotoxic activity against HepG2 cells when applied at 100 μg/mL over 48 h.ConclusionsOur results showed that selected fatty acids and cholesteryl esters packaged with phospholipids exhibit antibacterial activity against Gram-positive and Gram-negative bacteria and may augment the activity of antibiotics. Bactericidal activity could be unlinked from hemolytic and cytotoxic activity and the type of phospholipid carrier greatly influenced the activity. Thus, fatty acids and cholesteryl esters packaged in liposomes may have potential as novel lipophilic antimicrobial agents.Electronic supplementary materialThe online version of this article (doi:10.1186/s13104-016-2138-8) contains supplementary material, which is available to authorized users.
Vitamin E (VE) tocotrienols (T3), recognized for their cancer-specific anti-proliferative and pro-apoptotic activities, have been previously fabricated into bio-active nanoemulsion (NE) formulations. Here, our viscosity-adapted δ-T3 NE platform was developed to additionally incorporate curcumin (CUR), which is known for its potent suppression of signaling pathways involved in malignant cell growth, survival and metastasis. Thanks to efficient 70:30 wt % surfactant mix of Lutrol F-127:VE-TPGS, in conjunction with optimal CUR loading, a prototype CUR in δ-T3 NE was successfully prepared. Model CUR/δ-T3 NE demonstrated excellent nano-scale aspects (mean particle size = 261 nm, PDI = 0.27, and ζ-potential = −35 mV), pharmaceutical stability, and controlled release properties. Suitability for systemic administration was also verified via standardized in vitro biocompatibility and hemocompatibility assays. In two human cancer cells (MCF-7 and OVCAR-8), our CUR/δ-T3 NE prominently suppressed constitutive NF-κB activation, and significantly induced apoptosis. Finally, the combined CUR/δ-T3 NE produced superior cytotoxicity profiles, in concentration- and time-dependent manners (p ≤ 0.05), at least three to four folds lower IC50 than in closest CUR control. The strong synergism, estimated in both cultured carcinomas, revealed the augmented therapeutic efficacy of our CUR/δ-T3 NE combined platform, supporting its strong potential towards pharmaceutical development for cancer therapy.
Prostate cancer (PCa) is the leading cause of cancer-related deaths in elderly men in US; ACS’ statistical estimates for 2011 report ∼240,890 new PCa cases and 33,720 associated deaths. In recent years, transgenic adenocarcinoma of the mouse prostate (TRAMP) has been the most frequently employed PCa model to evaluate chemopreventive efficacy of various agents. This model closely mimics human form of the disease, wherein prostate carcinogenesis progresses in a step-wise manner with the age of the mouse. The well defined stages of prostate tumor growth, progression and angiogenesis in TRAMP model provide unique opportunity to assess ‘stage specific’ preventive efficacy of an agent. Accordingly, employing TRAMP model, here we assessed stage-specific efficacy of inositol hexaphosphate (IP6) feeding on PCa initiation and growth, progression and angiogenesis, and elucidated the molecular events involved in IP6 effects during these stages. Different groups of male TRAMP mice starting at 4, 12, 20 and 30 weeks of age were fed with regular drinking water or 2% IP6 in regular drinking water for 8-10 weeks. At the end of the study, histopathological analysis of prostate showed that all the mice fed with IP6 at different time-points display less severe prostatic lesions compared to non-IP6 fed positive control mice. During early stages of prostate tumor development, IP6 mediated its chemopreventive effect mostly via anti-proliferative and pro-apoptotic mechanisms. Feeding of IP6 to animals burdened with higher stages of prostate tumor significantly decreased tumor grade via anti-proliferative effect and inhibition of angiogenesis as evidenced by decreased expression of platelet endothelial cell adhesion molecule-1 (PECAM-1/CD-31), vascular endothelial growth factor (VEGF) hypoxia-inducible factor-1a (HIF-1a) and inducible nitric oxide synthase (iNOS). These effects of IP6 also correlated with an alteration of epithelial-mesenchymal transition (EMT) as was evidenced by a decreased expression of mesenchymal markers Snail-1 in the prostatic tissue and retention of epithelial characteristics determined by localization of E-cadherin. Together, the findings in the present study are both novel and highly significant in establishing the dual efficacy of IP6, where it inhibits initiation and progression of primary prostatic tumor and also exerts protective efficacy against angiogenesis. These effects of IP6 should have potential implications to control PCa growth and improve the morbidity and survival time in PCa patients. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 5421. doi:1538-7445.AM2012-5421
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