Sankar Pajaniradje

Antiproliferative and Apoptotic Effects of Sesbania grandiflora Leaves in Human Cancer Cells

Natural phytochemicals and their derivatives are good drug candidates for anticancer therapeutic approaches against multiple targets. We report here the initial findings from our studies on the anticancer properties of the leaves of the medicinal plant Sesbania grandiflora. In the current study, five different solvent fractions from the leaves of S. grandiflora were tested on cancer cell lines such as MCF-7, HepG2, Hep-2, HCT-15, and A549. The methanolic fraction of S. grandiflora was found to exert potent antiproliferative effects especially in the human lung cancer cell line, A549. Caspase 3 was activated in the methanolic fraction treated A549 cells thereby leading to cell death by apoptosis. DAPI staining, DNA laddering, and decrease in mitochondrial membrane potential further confirmed the apoptotic mode of cell death. The high levels of ROS intermediates as evidenced by DCF-DA staining could have played a role in the apoptotic induction. Decrease in levels of cyclin D1 and decrease in the activation of NFkB were observed in A549 cells on treatment with methanolic fraction, giving a hint on the possible mechanism of action. These results prove that the medicinal plant S. grandiflora can be explored further for promising candidate molecules to combat cancer, especially lung cancer.

BDMC-A, an analog of curcumin, inhibits markers of invasion, angiogenesis, and metastasis in breast cancer cells via NF-κB pathway--A comparative study with curcumin.

Breast cancer chemoprevention has become increasingly important in India as it faces a potential breast cancer epidemic over the next decade. Curcumin, the active ingredient in turmeric is a well known chemopreventive agent that possesses various therapeutic properties including antioxidants and anti-inflammatory effects. In the present study, we have investigated the inhibitory effects of BDMC-A, an analog of curcumin, on invasion, angiogenesis and metastasis markers using in vitro with MCF-7 cells and in silico studies, hence proved that BDMC-A has more potential than curcumin. Mechanistic studies revealed that BDMC-A might have exerted its activity by inhibiting metastatic and angiogenic pathways by modulating the expression of proteins upstream to NF-κB (TGF-β, TNF-α, IL-1β and c-Src), and NF-κB signaling cascade (c-Rel, COX-2, MMP-9, VEGF, IL-8) and by upregulating TIMP-2 levels. An in silico molecular docking study with NF-κB revealed that the docking score and interaction of BDMC-A with NF-κB-DNA binding was more efficient when compared to curcumin. Our overall results showed that BDMC-A more effectively inhibited invasion, angiogenesis and metastasis markers compared to curcumin. The activity can be attributed to the presence of hydroxyl group in the ortho position in its structure. Further research are going on to prove its potential as a therapeutic agent for breast cancer.

Impact of Genetic Variations in HIV-1 Tat on LTR-Mediated Transcription via TAR RNA Interaction

HIV-1 evades host defense through mutations and recombination events, generating numerous variants in an infected patient. These variants with an undiminished virulence can multiply rapidly in order to progress to AIDS. One of the targets to intervene in HIV-1 replication is the trans-activator of transcription (Tat), a major regulatory protein that transactivates the long terminal repeat promoter through its interaction with trans-activation response (TAR) RNA. In this study, HIV-1 infected patients (n = 120) from North India revealed Ser46Phe (20%) and Ser61Arg (2%) mutations in the Tat variants with a strong interaction toward TAR leading to enhanced transactivation activities. Molecular dynamics simulation data verified that the variants with this mutation had a higher binding affinity for TAR than both the wild-type Tat and other variants that lacked Ser46Phe and Ser61Arg. Other mutations in Tat conferred varying affinities for TAR interaction leading to differential transactivation abilities. This is the first report from North India with a clinical validation of CD4 counts to demonstrate the influence of Tat genetic variations affecting the stability of Tat and its interaction with TAR. This study highlights the co-evolution pattern of Tat and predominant nucleotides for Tat activity, facilitating the identification of genetic determinants for the attenuation of viral gene expression.

Anti-proliferative and apoptosis-triggering potential of disulfiram and disulfiram-loaded polysorbate 80-stabilized PLGA nanoparticles on hepatocellular carcinoma Hep3B cell line

There is an emerging trend to restudy known drugs for their anti-cancer potential. One such anti-alcoholic drug, disulfiram, with significant anti-cancer potential was studied for its efficacy against Hep3B cell lines, an in vitro model of hepatocellular carcinoma. Simultaneously, we intended to study the effect of polysorbate 80-stabilized PLGA nanoparticles and its DSF-loaded counterpart. Cell and nuclear staining, comet assay, flow cytometry and Western blots were performed. Results suggest that cell proliferation was inhibited by DSF and its PLGA nanoparticles through cell cycle arrest, triggering activation of apoptotic pathways that culminates with cell death. DSF loaded nanoparticles when compared with free DSF, showed significantly lesser effect due to its sustained drug-releasing property, while empty nanoparticles showed negligible influence on Hep3B cells. Our results suggest that DSF alone contributes to cell death, while polysorbate 80-stabilized PLGA nanoparticles show sustained drug release patterns that would potentially lower dosage regimens.

Identification of natural inhibitors of Bcr-Abl for the treatment of chronic myeloid leukemia

Chronic myeloid leukemia (CML) is a clonal myeloproliferative disorder of the hematopoietic stem cells, characterized at the molecular level by the bcr/abl gene rearrangement. Even though targeting the fusion gene product Bcr‐Abl protein is a successful strategy, development of drug resistance and that of drug intolerance are currently the limitations for Bcr‐Abl‐targeted CML therapy. With an aim to develop natural Bcr‐Abl inhibitors, we performed virtual screening (VS) of ZINC natural compound database by docking with Abl kinase using Glide software. Two natural inhibitors ZINC08764498 (hit1) and ZINC12891610 (hit2) were selected by considering their high Glide docking score and critical interaction with the hinge region residue Met‐318 of Abl kinase. The reactivity of the two molecules was assessed computationally by density functional theory calculations. Further, the conformational transition, hydrogen bond interactions, and the binding energies were investigated during 10‐ns molecular dynamics simulation of the Abl–hit complex. When tested in vitro, hit1 compared to hit2 showed selective inhibition of cell proliferation and induction of apoptosis in Bcr‐Abl‐positive K‐562 leukemia cells. In summary, our results demonstrate that ZINC08764498, a coumarin derivative identified through VS, is a potential natural inhibitor for the treatment of CML.

Hypoglycaemic role of wheatgrass and its effect on carbohydrate metabolic enzymes in type II diabetic rats.

Diabetes mellitus (DM) is a leading cause of morbidity and mortality in the world. Insulin resistance and insulin insufficiency is the major factor for the prognosis of type II diabetes. Consistent high glucose level leads to multiple secondary complications in diabetic patients. Hence, hypoglycaemic drugs are of significance for reducing the risk of secondary complications in type II diabetes. Various hypoglycaemic drugs are already available in the market, but they are associated with several side effects. Therefore, traditional herbs have emerged as safer alternative for effective hypoglycaemic treatment. The juvenile grass of common wheat is known as wheatgrass (WG). It is commonly used as a health drink and has potent antioxidant efficacy. It has been used to cure DM in folk medicine. The current study was planned to test the hypoglycaemic effect and pathways regulated by WG on DM. We analysed the glucose and insulin levels in plasma, the activity of glucose oxidative enzymes, hexokinase and glucose 6 phosphate dehydrogenase, in serum and glycogen levels in liver of the male albino Wistar rats. Activity of glucose oxidative enzymes and the levels of insulin and liver glycogen were decreased in rats with diabetes, but they were reversed on treatment with WG. Hence, we conclude that WG can act as a potent anti-hyperglycaemic agent.