Withaferin A-Encapsulated PEGylated Nanoliposomes Induce Apoptosis in B16F10 Melanoma Cells by Regulating Bcl2 and Bcl xl Genes and Mitigates Murine Solid Tumor Development.

Withaferin A (WA) is a natural steroidal lactone with promising pharmacological activities, but its poor solubility and bioavailability hinder its clinical application. The liposomal drug delivery system has attracted considerable attention to overcome the delivery limitations of pharmacological agents. The present study investigated the effect of WA-loaded pegylated nanoliposomes (LWA) on in vitro and in vivo B16F10 melanoma tumor models. In vitro results showed that LWA had significantly (P < 0.01) higher cytotoxicity than free WA and induced ROS-mediated apoptosis in B16F10 cells. Transwell cell migration and invasion studies demonstrated that LWA treatment significantly (P < 0.01) decreased the migratory and invasive capacities of melanoma cells compared with WA. In vivo study revealed that treatment significantly (P < 0.01) reduced tumor growth in experimental animals compared with WA or tumor control. Also, LWA administration remarkably inhibited tumor cell proliferation by downregulating the expression of Ki-67 and Cyclin D1 and induced apoptosis by regulating the expression of Bax, Bcl2, and Bcl xl levels. Our results strongly suggest that LWA could be a promising therapeutic formulation for treating malignant melanoma.

Amomum subulatum fruits protect against radiation-induced esophagitis by regulating antioxidant status and inflammatory responses.

Radiation esophagitis (RE) is an inimical event that requires proper management while carrying out radiotherapy for thoracic cancers. The present study investigates the protective effect of dry fruits of the culinary and folkloric spice Amomum subulatum against experimental thoracic radiation-induced esophagitis. C57BL/6 mice were subjected to 25 Gy whole thorax irradiation and administered with 250 mg/kg body weight of methanolic extract of A. subulatum dry fruits (MEAS) orally for four consecutive weeks. Changes in tissue antioxidant activities, oxidative stress parameters, expression of antioxidant, inflammation, and fibrosis-related genes were observed. Administration of MEAS boosted antioxidant status, thereby reducing radiation-induced oxidative stress in the esophagus. PCR (polymerase chain reaction) results showed decreased expression of apoptosis, inflammation, and fibrosis-associated genes as well as increased expression of vital cytoprotective and antioxidant genes in MEAS-treated mice, manifesting its protective effect against radiation-induced oxidative stress, inflammatory responses, and fibrosis in the esophagus. Further, histopathology, immunohistochemistry (Cyclooxygenase-2), and Masson's Trichrome staining ascertained the protective effect of MEAS in alleviating radiation-induced esophageal injury. The synergistic effect of bioactive phytochemicals in MEAS with potent antioxidant and anti-inflammatory efficacies might have contributed to its mitigating effect against RE. Taken together, our results ascertained the radioprotective potential of MEAS, suggesting its possible nutraceutical application as a radiation countermeasure.

Umbelliferone loaded PEGylated liposomes: preparation, characterization and its mitigatory effects on Dalton's ascites lymphoma development.

Umbelliferone (UB) is a phenylpropanoid-based pharmacologically active agent with promising anti-tumor activities. However, complete elucidation of its therapeutic efficacy remains challenging due to low solubility and bioavailability. The present study aimed to develop a liposomal delivery system for UB to enhance its therapeutic efficacy against Dalton's ascites lymphoma tumor model. Umbelliferone-encapsulated nanoliposomes (nLUB) were prepared using the thin-film hydration method and performed a series of characterizations to confirm successful development. The nLUB showed a particle size of 116 ± 3.2 nm with a negative surface charge and encapsulation efficiency of 78%. In vitro study results showed that nLUB treatment significantly enhanced cellular uptake and apoptosis induction in lymphoma cells compared to free UB. nLUB treatment significantly stabilized body weight, reduced tumor growth, and improved the serum biochemical and hematological parameters of experimental animals, thereby improving their overall survivability compared to an free UB. Our result indicates that nanoencapsulation enhanced the therapeutic potential of UB, which may find its way to clinical application in the near future.

Molecular principles of tissue invasion and metastasis.

Cancer-associated metastasis is the primary cause of morbidity and mortality. Yet, its underlying biological mechanism remains poorly understood. Efforts to prevent or delay metastasis require a deep understanding of the underlying molecular mechanisms. However, continued advancement in cancer biology research has improved the comprehensive understanding of some of the molecular keystones of the dissemination process. However, the emergence of new paradigms in the study of metastasis intuitively recognizes the involvement of genetics, epigenetics, extrinsic traits, and tumor microenvironment in metastatic initiation, progression, and colonization. On their way to the target site, the disseminated tumor cells interact with multiplex of proteins and cells. Identification of mechanisms underlying metastatic program is crucial for developing effective and efficient therapeutic interventions. In this review, we discuss details about recent advancements in the field of metastasis and organotropism, also highlights the role of genetics, epigenetics, exosomes, circadian rhythm, microbiome, integrins, and other adhesion molecules, and chemokines in the regulation of metastatic events.

Pathological Implications of Mucin Signaling in Metastasis.

The dynamic mucosal layer provides a selective protective barrier for the epithelial cells lining the body cavities. Diverse human malignancies exploit their intrinsic role to protect and repair epithelia for promoting growth and survival. Aberrant expression of mucin has been known to be associated with poor prognosis of many cancers. However, the emergence of new paradigms in the study of metastasis recognizes the involvement of MUC1, MUC4, MUC5AC, MUC5B, and MUC16 during metastasis initiation and progression. Hence mucins can be used as an attractive target in future diagnostic and therapeutic strategies. In this review, we discuss in detail about mucin family and its domains and the role of different mucins in regulating cancer progression and metastasis. In addition, we briefly discuss insights into mucins as a therapeutic agent.

Exploring the Phytochemical Profile and Biological Activities of Clerodendrum infortunatum.

Clerodendrum infortunatum (C. infortunatum), the hill glory bower, is reputed as the prodigious treasure for Indian folk medicine. The study has focused on exploring the phytochemistry and antitumor potential of the C. infortunatum root extract in vitro and in vivo. The ethyl acetate root extract has demonstrated the highest cytotoxicity in a series of nine human tumor cell lines. Further fractionation of the same has yielded seven compounds. The structures of these compounds were confirmed with spectroscopic techniques. Considering the toxicity observed with the crude extract, cytotoxicity of these compounds was further assessed in two breast carcinoma cell lines (MCF-7[ER/PR-positive HER2-negative] and MDA-MB-231 [ER/PR/HER2-negative]) and in two cervical cancer [human papilloma virus (HPV)-negative C33A and HPV-positive SiHa] cell lines. Betulinic acid (BA) was found as the active principle contributing the cytotoxic activity, and cervical cancer cell lines documented the minimum IC50 value in 24 h. In order to validate the in vitro experimental data, we have established a xenograft model of HPV-positive cervical cancer in female NOD/SCID mice treated with BA using doxorubicin as the positive control. BA treatment gradually reduced the tumor size, maintaining healthy hematological and biochemical parameters, and improved the survival rate of tumor-bearing mice considerably. Thus, our findings suggest that the C. infortunatum root extract has a promising anticancer property against HPV-positive cervical cancer and supports its usage by traditional healers for treating cervical cancer.

Amomum subulatum mitigates experimental thoracic radiation-induced lung injury by regulating antioxidant status and inflammatory responses.

Radiation-induced lung injury (RILI) is one of the most prominent complications of thoracic radiotherapy for which effective therapy is still lacking. This study investigates the nutraceutical potential of the culinary spice Amomum subulatum in mitigating thoracic radiation-induced pneumonitis (RP) and pulmonary fibrosis (PF). Mouse models of RP and PF were established by whole thorax irradiation at a dose of 25 gray. C57BL/6 mice were administered with 250 mg per kg body weight of methanolic extract of A. subulatum dry fruits (MEAS) for four consecutive weeks and observed for changes in lung tissue antioxidant activities, oxidative stress parameters, and expression of antioxidant, inflammation, and fibrosis-related genes by semi-quantitative reverse transcription polymerase chain reaction (RT-PCR) and real-time PCR analysis, and histology analysis. MEAS administration reduced radiation-induced oxidative stress by enhancing the expression of Nrf2 and its target genes. Irradiation increased gene expression of inflammatory mediators and lung histology further confirmed the characteristics of RP, which were reduced by MEAS treatment. Immunohistochemistry analysis revealed the potential of MEAS in reducing the radiation-induced elevation of cyclooxygenase 2 expression in the lungs. The late sequel of RILI was manifested as PF, characterized by the elevated expression of pro-fibrotic genes and increased collagen content. However, MEAS administration markedly reduced radiation-induced fibrotic changes in the lungs. These effects might be attributed to the synergistic effect of bioactive polyphenols in MEAS with antioxidant, anti-inflammatory, and anti-fibrotic efficacies. Taken together, this study demonstrates the potential of MEAS in mitigating RILI, suggesting the possible nutraceutical application of A. subulatum against radiation toxicities.

Pithecellobium dulce inhibits pulmonary metastasis induced by B16F10 melanoma cells in C57BL/6 via regulating EGFR/STAT/ NFκB /AKT signaling axis.

In this present study we analyzed anti-metastatic efficacy of fruit extract of Pithecellobium dulce (FPD) against B16F10 induced pulmonary metastatic model. FPD administration significantly (p < .01) reduced lung fibrosis, as evidenced by histochemical collagen analysis by Masson's trichome staining, total collagen, hexosamine, and uronic acid. Results showed that FPD treatment significantly attenuated the expression of EGFR mediated P38 and STAT1/3 expression, thus reduced NFκB mediated signaling cascade. Further, the expression of PIP3CA mediated activation of the AKT survival signaling pathway has been analyzed. Interestingly, in FPD treated group, the expression of AKT pathway has also downregulated. Further, we analyzed the downstream regulators of NFκB and AKT signaling pathways, which include, inflammatory genes (iNOS, COX2, NFκB, TGFß1, IL5, IL1ß, IFNγ, IL6, IL10, MCP1, GMCSF), anti-apoptotic genes (BCL2 and BCLXL), cell cycle regulators (cyclin D1 and Ki67), fibrosis activator (CT1α1), angiogenesis promoter (VEGF), metastatic promoter (MMP2/9, N CADH), mucin (MUC5AC), pro-apoptotic genes (Bax, CAS3 and CAS9) and metastasis inhibitors (TIMP1/2, E CADH, p53, PTEN). The expression of inflammatory, anti-apoptotic, cell cycle regulators, fibrosis activator, angiogenesis and metastasis promoter, and mucins were markedly reduced by FPD administration. Interestingly, the level of expression of anti-metastatic genes were markedly elevated in FPD administrated group. Lung histopathology further confirmed the anti-metastatic efficacy of FPD. PRACTICAL APPLICATIONS: Different parts of P. dulce has long been used as a folklore medicine against different diseases. This study demonstrated that bioactive constituents present in the fruit extract of P. dulce (FPD) significantly attenuated proliferation via regulating EGFR/STAT/NFκB/AKT signaling axis.

Potential role of cGAS/STING pathway in regulating cancer progression.

The activation of innate immune response after the engagement of dsDNA is an evolutionarily preserved sophisticated strategy against invading microbial pathogens. cGAS has been identified as one of the major dsDNA sensor present in the cytoplasm which catalyzes the synthesis of a cyclic dinucleotide 2'3'cGAMP, as the secondary messenger that binds and activates the downstream stimulator of interferon (IFN) genes (STING) for subsequent production of type 1 IFNs and other inflammatory genes. Recent progress in the mechanical understanding of cGAS/STING signalling has unveiled its intricate role in tumor progression and metastasis. In this review, we specifically focus on new developments concerning the role of cGAS/STING signalling in regulating antitumorigenesis and tumorigenesis.

Amomum subulatum mitigates total body irradiation-induced oxidative stress and its associated inflammatory response by enhancing the antioxidant status and regulating the pro-inflammatory cytokines.

Free radical-induced oxidative damage and associated inflammatory responses play a crucial role in cancer radiotherapy (RT) mediated normal tissue toxicities. Supplementation of antioxidants or inflammation modulators may alleviate RT toxicity, thereby improving clinical outcomes. Amomum subulatum is a dietary spice rich in biologically active phytochemicals. The present study investigates radiation dose-modifying factor (DMF) and radioprotective efficacy of methanolic extract of Amomum subulatum dry fruits (MEAS) in mice exposed to different doses of total body irradiation (TBI). Administration of MEAS resulted in a DMF of 1.25 Gy, ascertaining its radioprotective efficacy. MEAS reversed X-ray-induced redox imbalance by enhancing antioxidant defense mechanisms. MEAS prevented TBI-induced hematopoietic damages by significantly (P<.01) enhancing bone marrow cellularity, total white blood cell count, and hemoglobin level. MEAS prevented p53-mediated apoptotic death of intestinal cells and increased the expression of cytoprotective genes Nrf2 (nuclear factor-erythroid factor 2-related factor 2) and HO-1 (heme oxygenase-1). Expression of apoptosis regulating genes revealed that MEAS reduced radiation-induced apoptotic death of intestinal cells. Treatment with MEAS also reduced inflammatory responses via reversing TBI-induced elevation in serum pro-inflammatory cytokine (TNF-α, IL-1ß, IL-6) levels. Tissue histopathology further confirmed the protective effect of MEAS against TBI-induced inflammatory responses, suggesting the potential of MEAS in modulating inflammation. These effects might perhaps be attributed to the synergistic effect of biologically active polyphenols with antioxidant, anti-inflammatory, and Nrf2 activating potential in MEAS. Our findings demonstrated the radioprotective efficacy of MEAS, suggesting the possible nutraceutical application of Amomum subulatum in modulating oxidative stress and inflammation.

Pithecellobium dulce induces apoptosis and reduce tumor burden in experimental animals via regulating pro-inflammatory cytokines and anti-apoptotic gene expression.

The present study demonstrates the efficacy of fruit extract of Pithecellobium dulce (FPD) against Dalton's lymphoma ascites (DLA) cell lines in vitro and in vivo (DLA induced ascitic and solid tumor). Administration of FPD induced apoptosis in DLA cells via p53 regulation both in vitro and in vivo. Cell viability was quantified by MTT assay. Apoptotic cells were determined by qualitative (staining methods) and quantitative analysis (Annexin-propidium iodide based flow cytometry). Expression of pro-apoptotic markers (Caspase 3, Caspase 9, and Bax) were markedly elevated, while expression of anti-apoptotic proteins (Bcl 2 and Bcl XL) were downregulated in tumor cells. FPD administration effectively reduced tumor burden, increased mean survival time via modulating NF-kB, and reduced the level of proinflammatory cytokines (IL-6, IL-1ß, GM-CSF and TNF-α). Phytochemical screening of FPD by GC/MS analysis divulged the presence of several novel bioactive chemical constituents. Further, bioactive components identified from extract were evaluated for drug-like properties by Lipinski rule of five and properties. Naringenin, nootkatone, and gallic acid showed good drug-like properties and good pharmacokinetic profiles compared to other bioactive constituents in the extract.

Molecular Docking Studies of Naringenin and its Protective Efficacy against Methotrexate Induced Oxidative Tissue Injury.

BACKGROUND: Although Methotrexate (MTX) possesses a wide clinical spectrum of activity, its toxic side effects on normal cells and drug resistance often hamper its successful outcome. Naringenin (NG) is one of the promising bioactive flavonoids that are extensively found in grapes, citrus fruits, and fruit arils of Pithecellobium dulce. OBJECTIVE: Only a few experimental in vivo studies on the efficacy of NG against chemotherapeutic drugs have been carried out. Aiming to fill this gap, the present study was carried out to characterize and identify its possible therapeutic targets and also to explore its protective efficacy against MTX-induced tissue damage. METHODS: Oxidative stress was induced in mice with MTX (20 mg/kg B.wt), and animals were orally administered with 10 mg/kg B.wt NG for 10 consecutive days. On day 11, all animals were sacrificed, and hematological and serum biochemical parameters were analyzed. The anti-oxidant efficacy of NG against MTX was evaluated by quantifying tissue superoxide dismutase (SOD), glutatione peroxidase (GPx), reduced glutathione (GSH) and catalase along with oxidative stress markers [malondialdehyde (MDA) and nitric oxide (NO)]. Further, the histopathological analysis was performed to confirm the protective efficacy of FPD. In silico docking studies were also performed to exploring anti-oxidant enzyme-based targets. RESULTS: Our results showed that concurrent administration of NG counteracted oxidative stress induced by MTX, as evidenced by increased expression of anti-oxidant markers, decreased expression of renal and hepatotoxicity serum marker enzymes (p <0.05). A molecular docking study was performed using Auto dock vina to understand the mechanism of ligand binding (S-NG and R-NG)with anti-oxidant enzymes. The binding affinity of S-NG with catalase, GPx, ALP, and SGPT was -10.1, -7.1, -7.1, and -7.3 kcal/mol, respectively, whereas for R-NG was -10.8, -7.1, -7.6, and -7.4 kcal/mol, respectively. Further, histopathological analysis affirmed the protective efficacy of NG against MTX-induced hepatic and renal toxicities. CONCLUSION: Treatment with NG significantly reduced MTX-induced pancytopenia, renal, and hepatic toxicity.

Antioxidant-rich fraction of Amomum subulatum fruits mitigates experimental methotrexate-induced oxidative stress by regulating TNF-α, IL-1ß, and IL-6 proinflammatory cytokines.

The culinary spice Amomum subulatum was assessed for its phytochemical composition, in vitro antioxidant potential, and in vivo ameliorating effect against methotrexate (MTX)-induced toxicities. Phytochemical analysis of methanolic extract of A. subulatum dry fruits (MEAS) confirmed the presence of different bioactive secondary metabolites. MEAS scavenged reactive free radicals and inhibited lipid peroxidation in vitro. To confirm the antioxidant efficiency of MEAS, in vivo experiment was carried out in which MTX was administered to induce oxidative stress. Co-administration of MEAS reduced MTX-induced hepatic, renal, and pulmonary toxicities via significantly (p < .01) enhancing antioxidant status and reducing oxidative stress. MTX treatment significantly (p < .01) increased liver and kidney toxicity markers and increased proinflammatory cytokine (TNF-α, IL-1ß, and IL-6) levels. However, co-administration of MEAS significantly (p < .01) reduced their levels, and tissue histopathology confirmed the protective effect of MEAS in maintaining normal tissue architecture following MTX treatment. Protective effect of MEAS is accredited to the antioxidant and anti-inflammatory properties exhibited by bioactive compounds in MEAS. PRACTICAL APPLICATIONS: Amomum subulatum (Black cardamom) is a folkloric and culinary spice used for its organoleptic, nutritional, and medicinal properties. This study demonstrated the phytochemical composition and antioxidant potential of methanolic extract of A. subulatum dry fruits (MEAS). Toxicities associated with MTX therapy limit its clinical application. MEAS attenuated methotrexate-induced oxidative stress, inflammation, and associated organ damages, suggesting the possible therapeutic application of A. subulatum in reducing oxidative stress and associated diseases. Our results showed that A. subulatum is a potential functional food, which may be used for the betterment of health due to its richness in antioxidant and anti-inflammatory phytochemicals.

Liposome nano-formulation with cationic polar lipid DOTAP and cholesterol as a suitable pH-responsive carrier for molecular therapeutic drug (all-trans retinoic acid) delivery to lung cancer cells.

The molecular targeted drug ATRA demands a suitable carrier that delivers to the cancer site due to its poor bioavailability and drug resistance. ATRA, being a lipid with carboxylic acid, has been nano-formulated as a cationic lipo-ATRA with DOTAP:cholesterol:ATRA (5:4:1) and its pH-responsive release, intracellular drug accumulation, and anticancer effect on human lung cancer (A549) cell line analysed. The analysis of the physicochemical characteristics of the developed lipo-ATRA (0.8 µmol) revealed that the size of 231 ± 2.35 d.nm had a zeta potential of 6.4 ± 1.19 and an encapsulation efficiency of 93.7 ± 3.6%. The ATRA release from lipo-ATRA in vitro was significantly (p ≤ 0.05) higher at acidic pH 6 compared to pH 7.5. The intracellular uptake of ATRA into lipo-ATRA-treated A549 cells was seven-fold higher (0.007 ± 0.001 mg/ml) while only three-fold uptake was observed in free ATRA treatment (0.003 ± 0.002 mg/ml). The lipo-ATRA treatment caused a highly significant (p ≤ 0.001) decrease in percent cell viability at 48 h when compared with the free ATRA treatment. Overall, the results proved that the developed lipo-ATRA has suitable physicochemical properties with enhanced ATRA release at acidic pH, while maintaining stability at physiologic pH and temperature. This resulted in an increased ATRA uptake by lung cancer cells with enhanced treatment efficiency. Hence, it is concluded that DOTAP lipo-ATRA is a suitable carrier for ATRA delivery to solid cancer cells.

Preparation and characterization of withaferin A loaded pegylated nanoliposomal formulation with high loading efficacy: In vitro and in vivo anti-tumour study.

Withaferin A (WA) is a natural steroidal lactone with promising therapeutic applications. However, its clinical application is limited due to the low bioavailability and hydrophobic nature. In this study, we had prepared PEGylated nanoliposomal withaferin A (LWA) using thin-film hydration method. Dynamic light scattering, Transmission electron microscopy, and HPLC were used to investigate the impact of prepared formulations on the size, charge, morphology, and encapsulation efficiency of the LWA. The prepared nanoliposomal system had spherical vesicles, with the mean particle size of 125 nm and had an encapsulation efficiency of 83.65% with good stability. The characterization results indicated that nanoliposomal formulation is able to improve biocompatibility and bioavailability of WA. In vitro drug release study showed that LWA had an enhanced sustained drug release effect than the free drug. In vitro studies using ascites cell lines (DLA and EAC) showed that LWA treatment could induce apoptosis in ascites cells evidenced by acridine orange/ethidium bromide, Hoechst, and Giemsa staining. In vivo tumour study revealed that LWA treatment significantly reduced tumour growth and improved survival in DLA tumour bearing mice. In vivo results further demonstrated that LWA mitigated solid tumour development by regulating Ki-67 and cyclin D1 protein expression. The overall study results reveal that nanoliposome encapsulated WA exhibits therapeutic efficacy over WA in regulating tumour development as evidenced from ascites cell apoptosis as well as experimental tumour reduction studies.

Pyrazole (1, 2-diazole) induce apoptosis in lymphoma cells by targeting BCL-2 and BCL-XL genes and mitigate murine solid tumour development by regulating cyclin-D1 and Ki-67 expression.

Pyrazole or 1,2-Diazole is a five-membered heteroaromatic ring with two nitrogen atoms which is widely used in pharmacological research and organic synthesis. Several natural and synthetic pyrazole derivatives possess anti-cancer potential and some of them have underwent clinical trials. In this aspect, an investigation into the efficiency of the pyrazole nucleus to inhibit the growth and progression of various cancer cell lines/ experimental tumours would help in giving a better clarity to the anti-cancer behaviour of pyrazole containing drugs. This paper investigates the efficiency of pyrazole against Dalton's Lymphoma Ascites (DLA) cell line. Pyrazole inhibited the growth of DLA cells in vitro by committing them towards apoptosis. In vitro results were consistent in DLA induced murine solid tumour in vivo systems. Drug-treatment improved survival, reduced tumour loads, stabilized body weights and improved the haematological and serum biochemical parameters of DLA solid tumour bearing mice, thereby improving their overall survivability. Drug administration contained the aggravation of solid tumour by targeted downregulation of Cyclin-D1 and Ki-67. In addition, the mRNA expression levels of anti-apoptotic genes, BCL-2 and BCL-XL were downregulated in solid tumours, corroborating the in vitro results that pyrazole encourage apoptotic cell death in DLA cells. The new findings establish pyrazole as a potential anti-cancer drug candidate. The results must encourage future investigations into the efficacy of the drug against various cancer types.

Traditional knowledge to clinical trials: a review on nutritional and therapeutic potential of Pithecellobium dulce.

The review describes botanical aspects, bioactive phytocompounds and pharmacological properties of different parts of Pithecellobium dulce, with special emphasis on the nutritional status of its fruits. The different parts of plant extract have been reported to possess anti-oxidant, anti-inflammatory, anti-microbial, anti-diabetic, cardio protective, anti-diarrhoeal, anti-ulcerogenic, larvicidal and ovicidal activities. Different parts of plant extracts were reported to contain several bioactive phytocompounds such as flavonoids, saponins, tannins, alkaloids etc. Natural products discovered so far served as a viable source for new drugs. Over the past few years, continued and perpetual attention of people has been paid to medicinal plants in connection with its remarkable importance in drug discovery. Plant products always remains a drug of choice for the identification of novel leads despite facing a tough competition from existing synthetic alternatives derived from combinatorial chemistry, owing to their efficacy, side effects, and safety. P. dulce is a highly acclaimed genus in traditional system of medicine because of its versatile nutraceutical and pharmacological properties. In this review we discuss in detail about nutritional and various therapeutic properties of P. dulce.

Edible Sword Bean Extract Induces Apoptosis in Cancer Cells In Vitro and Inhibits Ascites and Solid Tumor Development In Vivo.

Antitumor potential of edible sword bean (Canavalia gladiata (L.)) extract has been evaluated against Daltons lymphoma ascites (DLA) using in vitro and in vivo studies. Methanolic extraction was carried out and in vitro studies were performed against both DLA and A549, lung cancer cell lines. The results revealed that sword bean extract inhibited cell growth and induced apoptosis as evidenced by cytotoxic assay, Hoechst 33342 staining and acridine orange/ethidium bromide dual staining. In vivo studies performed on DLA induced solid as well as ascitic tumors models showed administration of sword bean extract (10 mg/kg B.wt.) could significantly inhibit ascitic and solid tumor development in mice. Therefore, our overall results revealed that C. gladiata treatment could significantly inhibit tumor development and induce apoptosis in tumor cells.

Molecular docking analysis of doronine derivatives with human COX-2.

Cyclooxygenase-2 (COX-2) is linked to inflammation. Therefore, it is of interest to design and develop novel inhibitors for COX-2. Hence, we report the molecular docking based binding features of doronine derivatives (desacetyldoronine, floradnin, onetine, 22310115, 21159807) with the human Cyclooxygenase-2 as potential inhibitors. A pyrrolizidine alkaloid doronine a molecular constituents of Emilia sonchifolia is an herbal alternative to known drugs in the prophylaxis of inflammation. We report the molecular docking, pharmacophore, ADMET and molecular properties analysis data of doronine and its similar compounds. Docking and ADMET Data shows that COX-2 binds with doronine with optimal features for further consideration.