Extremely Active Nano-formulation of Resveratrol (XAR™) attenuates and reverses chemotherapy-induced damage in mice ovaries and testes.

BACKGROUND: Fertility preservation and restoration in cancer patients/survivors is the need of present times when increased numbers of patients get cured of cancer but face infertility as a serious side effect. Resveratrol has beneficial effects on chemoablated ovaries and testes in mice but has failed to enter the clinics because of extremely poor bioavailability. The present study was undertaken to evaluate the protective and curative effects of Extremely active Resveratrol (XAR™)- a nano-formulation of resveratrol with significantly improved bioavailability- on mouse ovary and testis after chemotherapy. Effects of XAR™ and FSH were compared on stimulation of follicle growth in adult mice ovaries. XAR™ (25 mg/kg) was administered for two days prior to chemotherapy to study the protective effects on the mouse gonads. XAR™ was also administered for 14 days post chemoablation to study the regenerative effects. Besides effect on numbers of primordial and growing follicles and spermatogenesis, the effect of XAR™ was also evaluated on the transcripts specific for ovarian/testicular stem/progenitor/germ cells, their proliferation, differentiation, meiosis, and the antioxidant indices. RESULTS: Similar to FSH, XAR™ increased the numbers of primordial follicles (PF) as well as growing follicles. It protected the gonads from the adverse effects of chemotherapy and showed the ability to regenerate non-functional, chemoablated gonads. Besides stimulating follicle growth in adult ovaries similar to FSH, XAR™ also protected the testes from the adverse effects of chemotherapy and improved spermatogenesis. This was accompanied by improved anti-oxidant indices. CONCLUSIONS: The results of the present study potentiate the use of XAR™ in pilot clinical studies to protect gonadal function during oncotherapy and also regenerate non-functional gonads in cancer survivors by improving antioxidant indices and stem cell-based tissue regeneration.

Quest for Pan-Cancer Diagnosis/Prognosis Ends with HrC Test Measuring Oct4A in Peripheral Blood.

Cancer is a devastating disease whose incidence has increased in recent times and early detection can lead to effective treatment. Existing detection tools suffer from low sensitivity and specificity, and are high cost, invasive and painful procedures. Cancers affecting different tissues, ubiquitously express embryonic markers including Oct-4A, whose expression levels have also been correlated to staging different types of cancer. Cancer stem cells (CSCs) that initiate cancer are possibly the 'transformed' and pluripotent very small embryonic-like stem cells (VSELs) that also express OCT-4A. Excessive self-renewal of otherwise quiescent, pluripotent VSELs in normal tissues possibly initiates cancer. In an initial study on 120 known cancer patients, it was observed that Oct-4A expression in peripheral blood correlated well with the stage of cancer. Based on these results, we developed a proprietary HrC scale wherein fold change of OCT-4A was linked to patient status - it is a numerical scoring system ranging from non-cancer (0-2), inflammation (>2-6), high-risk (>6-10), stage I (>10-20), stage II (>20-30), stage III (>30-40), and stage IV (>40) cancers. Later the scale was validated on 1000 subjects including 500 non-cancer and 500 cancer patients. Ten case studies are described and show (i) HrC scale can detect cancer, predict and monitor treatment outcome (ii) is superior to evaluating circulating tumor cells and (iii) can also serve as an early biomarker. HrC method is a novel breakthrough, non-invasive, blood-based diagnostic tool that can detect as well as classify solid tumors, hematological malignancies and sarcomas, based on their stage.

Purification and characterisation of alliinase produced by Cupriavidus necator and its application for generation of cytotoxic agent: Allicin.

Allicin, an extremely active constituent of freshly crushed garlic, is produced upon reaction of alliin with the enzyme alliinase (EC 4.4.1.4). A bacterium Cupriavidus necator with the ability of alliinase production was isolated from a soil sample and was identified by morphological, biochemical and 16S rRNA sequence. Alliinase production was optimised and it was further purified to apparent homogeneity with 103-fold purification and specific activity of 209 U/mg of protein by using DEAE Cellulose and Sephadex G-100 chromatography. The enzyme is a homodimer of molecular weight 110 kDa with two subunits of molecular weight 55 kDa each. The optimum activity of the purified enzyme was found at pH 7 and the optimum temperature was 35 °C. The enzyme exhibited maximum reaction rate (V max) at 74.65 U/mg and Michaelis-Menten constant (K m) was determined to be 0.83 mM when alliin was used as a substrate. The cytotoxic activity of in-situ generated allicin using purified alliinase and alliin was assessed on MIA PaCa-2 cell line using MTT assay and Acridine orange-ethidium bromide staining. This approach of in-situ allicin generation suggests a novel therapeutic strategy wherein alliin and alliinase work together synergistically to produce cytotoxic agent allicin.

Stem Cells and Progenitors in Human Peripheral Blood Get Activated by Extremely Active Resveratrol (XAR™).

Resveratrol generated enormous interest as it improved functions of multiple organs and could delay aging in animal models. However, basic mechanism of action was not understood and due to poor bioavailability, it has failed to enter the market. A highly active nano-formulation of resveratrol (XAR™) with enhanced bioavailability is now available. Present study was undertaken to evaluate its effects on stem cells biology in the human peripheral blood. Twelve healthy participants were enrolled of which five received XAR™, five were age-matched placebo controls and two were 76 and 85 years old. Peripheral blood was processed to study serum profile to monitor cardiac and pancreatic functions and subjected to density gradient centrifugation to enrich pluripotent (VSELs) and adult stem cells that get enriched along with red blood cells and in the Buffy coat respectively on Day 2 and Day 15 after XAR™ treatment. The XAR™ treatment resulted in an increased expression of pluripotency transcripts specific for VSELs (Oct-4A, Nanog and Sox2) on D2; specific transcripts for differentiation in the progenitors including Oct-4, Ikaros, CD14, CD90 on D15, and anti-ageing and tumor suppressor transcripts NAD, SIRT1, SIRT6 and p53 in both stem cells and progenitors. An improvement of cardiac and pancreatic markers in serum profile was also observed on D15. The decline in VSELs numbers with age and beneficial effects of the XAR™ treatment were evident by up-regulation of specific transcripts and on serum profile. XAR™ is a promising molecule that has the potential to activate pluripotent VSELs and tissue committed adult stem cells 'progenitors' resulting in the rejuvenation of various body tissues and for improved, cancer-free health with advanced age.

In situ allicin generation using targeted alliinase delivery for inhibition of MIA PaCa-2 cells via epigenetic changes, oxidative stress and cyclin-dependent kinase inhibitor (CDKI) expression.

Allicin, an extremely active constituent of freshly crushed garlic, is produced upon reaction of substrate alliin with the enzyme alliinase (EC 4.4.1.4). Allicin has been shown to be toxic to several mammalian cells in vitro in a dose-dependent manner. In the present study this cytotoxicity was taken to advantage to develop a novel approach to cancer treatment, based on site directed generation of allicin. Alliinase was chemically conjugated to a monoclonal antibody (mAb) which was directed against a specific pancreatic cancer marker, CA19-9. After the CA19-9 mAb-alliinase conjugate was bound to targeted pancreatic cancer cells (MIA PaCa-2 cells), on addition of alliin, the cancer cell-localized alliinase produced allicin, which effectively induced apoptosis in MIA PaCa-2 cells. Specificity of anticancer activity of in situ generated allicin was demonstrated using a novel in vitro system-integrated discrete multiple organ co-culture technique. Further, allicin-induced caspase-3 expression, DNA fragmentation, cell cycle arrest, p21(Waf1/Cip1) cyclin-dependent kinase inhibitor expression, ROS generation, GSH depletion, and led to various epigenetic modifications which resulted in stimulation of apoptosis. This approach offers a new therapeutic strategy, wherein alliin and alliinase-bound antibody work together to produce allicin at targeted locations which would reverse gene silencing and suppress cancer cell growth, suggesting that combination of these targeted agents may improve pancreatic cancer therapy.