Screening of ethnic medicinal plants of South India against influenza (H1N1) and their antioxidant activity

Antiviral activity against H1N1 influenza was studied using ethnic medicinal plants of South India. Results revealed that Wrightia tinctoria (2.25 μg/ml) was one of the best antidotes against H1N1 virus in terms of inhibitory concentration of 50% (IC₅₀) whereas the control drug Oseltamivir showed 6.44 μg/ml. Strychnos minor, Diotacanthus albiflorus and Cayratia pedata showed low cytotoxicity (>100) to the MDCK (Malin darby canine kidney) cells by cytotoxicity concentration of 50% (CC₅₀) and possessed antiviral activity suggesting that these plants can be used as herbal capsules for H1N1 virus. W. tinctoria and S. minor showed high therapeutic indexes (TI) such as 12.67 and 21.97 suggesting that those plants can be used for anti-viral drug development. The CC₅₀ values of Eugenia singampattiana (0.3 μg/ml), Vitex altissima (42 μg/ml), Salacia oblonga (7.32 μg/ml) and Salacia reticulata (7.36 μg/ml) resulted in cytotoxicity of the MDCK cells, due to their high phenolic content. Findings from this study state that the plant W. tinctoria can be a potent source for third generation anti-viral drug development against H1N1.     

Development of a semiochemical-based trapping method for the New Guinea sugarcane weevil, Rhabdoscelus obscurus in Guam

Abstract:  Aggregation pheromone of the Australian population of New Guinea sugarcane weevil, Rhabdoscelus obscurus (Boisduval), in conjunction with other semiochemicals, was used to develop an efficient trapping method for the weevil population in Guam. In a field experiment at Yigo, plastic bucket traps baited with the lure of the Australian R. obscurus population in combination with ethyl acetate and cut sugarcane captured significantly more weevils than traps baited with pheromone + ethyl acetate, pheromone + sugarcane or individual lure components alone. Traps baited with various semiochemical-based lures and treated with insecticide captured significantly greater numbers of weevils than those not treated with insecticide. Traps baited with cut sugarcane caught significantly more weevils than those without sugarcane. Semiochemical-based trapping in weevil management has potential either in mass trapping or as part of an integrated pest management (IPM) programme. Based on the present findings, a future line of work for the control of this weevil is proposed.     

Host adaptation of the fruit piercing moth, Eudocima fullonia

Abstract.  The fruit piercing moth, Eudocima fullonia (Clerck) (Lepidoptera: Noctuidae), whose larval host plants are vines of the family Menispermaceae in Asia, Africa and Australia, is thought to have adapted to Erythrina spp. in the Pacific and Papua New Guinea and has been designated as a separate biotype from the Australasian and African biotype. To test the hypothesis that the Pacific population of E. fullonia is a biotype, feeding trials with the host plants Tinospora homosepala Diels (Menispermaceae) and Erythrina variegata Linn. (Fabaceae) were conducted in Guam. The results indicate that the Guam population of E. fullonia is a biotype that has expanded its host range from its normal Menispermaceae plants to Erythrina species, possibly due to genetic changes and/or the presence of closely related alkaloids in both the species and paucity of menisperms.     

Efficacité des ennemis naturels deLantana camara à Guam : évaluation locale et saisonnière

As part of a continuing effort to eliminate or, at least, reduceLantana camara L., a weed commonly found in Guam, biweekly surveys were conducted over a four and a halfyear period to determine the effectiveness of the weed’s natural enemies in reducing plant vigor and viable seed numbers. A total of eight biocontrol agents were monitored. The leaf damaging insects were the hispine beetle,Uroplata girardi Pic. (Col.: Chrysomelidae), the tingid bug,Teleonemia scrupulosa Stål (Hem.: Tingidae), the leafminer fly,Calycomyza lantanae Frick (Dip.: Agromyzidae) and the noctuid moth,Hypena strigata (F.) (Lep: Noctuidae). The moths,Lantanophaga pusillidactyla (Walker) (Lep.: Pterophoridae),Epinotia lantana (Busck) (Lep.: Tortricidae) andAdoxopheyes melia Clarke (Lep.: Tortricidae) andT. scrupulosa were the flower damaging insects.E. lantana and the seedfly,Ophiomyia lantanae (Froggatt) (Dip.: Agromyzidae) accounted for berry losses. An empirical biocontrol model was fitted to the observed data. The model estimated that the eight biocontrol agents prevented the production of or damaged 225.9 berries per square meter per biweekly observation period. Observed production was only 96.1 undamaged berries per square meter per observation period. Thus, the biocontrol agents were reducing potential berry production by 70.1 percent. The biocontrol model was also used to estimate the individual contributions of the eight agents to the overall control ofL. camara on Guam     

Induction of insulin secretion in engineered liver cells by nitric oxide

Background  

Type 1 Diabetes Mellitus results from an autoimmune destruction of the pancreatic beta cells, which produce insulin. The lack of insulin leads to chronic hyperglycemia and secondary complications, such as cardiovascular disease. The currently approved clinical treatments for diabetes mellitus often fail to achieve sustained and optimal glycemic control. Therefore, there is a great interest in the development of surrogate beta cells as a treatment for type 1 diabetes. Normally, pancreatic beta cells produce and secrete insulin only in response to increased blood glucose levels. However in many cases, insulin secretion from non-beta cells engineered to produce insulin occurs in a glucose-independent manner. In the present study we engineered liver cells to produce and secrete insulin and insulin secretion can be stimulated via the nitric oxide pathway.     

Synthesis of novel β-lactam fused spiroisoxazolidine chromanones and tetralones as potent antimicrobial agent for human and plant pathogens

Synthesis of novel β-lactam fused spiroisoxazolidine chromanones and tetralones ring systems has been achieved by intermolecular 1,3-dipolar cycloaddition reaction of bicyclic nitrone with unusual dipolarophiles, arylidene chromanones/tetralones under different reaction conditions. The synthesized compounds were evaluated for antimicrobial activities. It was observed that two of the synthesized compounds exhibited relatively good antibacterial and antifungal activities.     

Insulin-secretagogue activity and cytoprotective role of the traditional antidiabetic plant Scoparia dulcis (Sweet Broomweed)

Scoparia dulcis (Sweet Broomweed) has been documented as a traditional treatment of diabetes. The administration of an aqueous extract of Scoparia dulcis at a dose of 200 mg/kg body weight significantly decreased the blood glucose with significant increase in plasma insulin level in streptozotocin diabetic rats at the end of 15 days treatment. The insulin secretagogue action of Scoparia dulcis plant extract (SPEt) was further investigated using isolated pancreatic islets from mice. SPEt at a dose of 10 microg/ml evoked 6.0 fold stimulation of insulin secretion from isolated islets indicating its insulin secretagogue activity. In addition the effect of SPEt on streptozotocin induced cell death and nitric oxide (NO) in terms of nitrite production were also examined. SPEt protected against streptozotocin- mediated cytotoxicity (88%) and NO production in rat insulinoma cell line (RINm5F). Above results suggest the glucose lowering effect of SPEt to be associated with potentiation of insulin release from pancreatic islets. Our results revealed the possible therapeutic value of Scoparia dulcis for the better control, management and prevention of diabetes mellitus progression.     

Sphingolipid C-9 Methyltransferases Are Important for Growth and Virulence but Not for Sensitivity to Antifungal Plant Defensins in Fusarium graminearum

The C-9-methylated glucosylceramides (GlcCers) are sphingolipids unique to fungi. They play important roles in fungal growth and pathogenesis, and they act as receptors for some antifungal plant defensins. We have identified two genes, FgMT1 and FgMT2, that each encode a putative sphingolipid C-9 methyltransferase (C-9-MT) in the fungal pathogen Fusarium graminearum and complement a Pichia pastoris C-9-MT-null mutant. The ΔFgmt1 mutant produced C-9-methylated GlcCer like the wild-type strain, PH-1, whereas the ΔFgmt2 mutant produced 65 to 75% nonmethylated and 25 to 35% methylated GlcCer. No ΔFgmt1ΔFgmt2 double-knockout mutant producing only nonmethylated GlcCer could be recovered, suggesting that perhaps C-9-MTs are essential in this pathogen. This is in contrast to the nonessential nature of this enzyme in the unicellular fungus P. pastoris. The ΔFgmt2 mutant exhibited severe growth defects and produced abnormal conidia, while the ΔFgmt1 mutant grew like the wild-type strain, PH-1, under the conditions tested. The ΔFgmt2 mutant also exhibited drastically reduced disease symptoms in wheat and much-delayed disease symptoms in Arabidopsis thaliana. Surprisingly, the ΔFgmt2 mutant was less virulent on different host plants tested than the previously characterized ΔFggcs1 mutant, which lacks GlcCer synthase activity and produces no GlcCer at all. Moreover, the ΔFgmt1 and ΔFgmt2 mutants, as well as the P. pastoris strain in which the C-9-MT gene was deleted, retained sensitivity to the antifungal plant defensins MsDef1 and RsAFP2, indicating that the C-9 methyl group is not a critical structural feature of the GlcCer receptor required for the antifungal action of plant defensins.