Antiadipogenic and proosteogenic effects of luteolin,a major dietary flavone,are mediated by the induction of DnaJ (Hsp40) Homolog,Subfamily B,Member 1

Luteolin (3,4,5,7-tetrahydroxyflavones), a major dietary flavone, regulates a variety of biological effects including cancer progression, insulin resistance and inflammation. However, its exact actions on adipogenesis and osteogenesis and the underlying molecular mechanisms are yet to be clarified. In this study, we show that luteolin suppresses lipid accumulation but increases osteoblast differentiation. In mechanism studies, luteolin increases the expression of the heat shock proteins (Hsp) 40 (Dnajb1) and Hsp90 (Hsp90b1), but not those of other heat shock proteins including Hsp20, Hsp27, Hsp47, Hsp70, Hsp72, and Hsp90, and another type of Hsp40 (Dnaja1). Silencing Dnajb1 by using small interfering RNAs (siRNAs), but not against Hsp90b1, recapitulates the effects of luteolin in adipocyte and osteoblast differentiation. Consistently, the forced expression of Dnajb1 decreases the lipid accumulation and stimulates alkaline phosphatase (ALPL) activity. The antiadipogenic and proosteogenic effects of luteolin are significantly blunted in Dnajb1-deficient cells, further suggesting that Dnajb1 is, at least in part, required for luteolin's dual actions in adipogenesis and osteogenesis. Together, our data implicate luteolin as an ingredient and Dnajb1 as a molecular target for the development of functional foods and drugs in metabolic and bone-related diseases.     

The anti-cancerous activity of adaptogenic herb Astragalus membranaceus

BackgroundCancer is the most dreadful disease increasing rapidly causing an economic burden globally. A standardized chemotherapy regimen planned with curative intent weakens the immune system and damages healthy cells making the patient prone to infections and severe side effects with pain and fatigue.PurposeAstragalus membranaceus (AM) has a long history of use in the treatment of severe adverse diseases. For thousands of years, it has been used in mixed herbal decoctions for the treatment of cancer. Due to growing interest in this plant root for its application to treat various types of cancers and tumors, has attracted researcher's interest.MethodThe literature search was done from core collections of electronic databases such as Web of Science, Google Scholar, PubMed and Science Direct using keywords given below and terms like pharmacological and phytochemical details of this plant.OutcomeAstragalus membranaceus has demonstrated the ability to modulate the immune system during drug therapy making the patient physically fit and prolonged life. It has become a buzzword of herbalists as it is one of the best of seven important adaptogenic herbs with a protective effect against chronic stress and cancer. It demonstrated significant amelioration of the perilous toxic effects induced by concurrently administered chemo onco-drugs.ConclusionThe natural phytoconstituents of this plant formononetin, astragalus polysaccharide, and astragalosides which show high potential anti-cancerous activity are studied and discussed in detail. One of them are used in clinical trials to overcome cancer related fatigue. Overall, this review aims to provide an insight into Astragalus membranaceus status in cancer therapy.     

Identification of two acetylcholinesterases in Pardosa pseudoannulata and the sensitivity to insecticides

Pardosa pseudoannulata is an important predatory enemy against insect pests, such as rice planthoppers and leafhoppers. In order to understand the insecticide selectivity between P. pseudoannulata and insect pests, two acetylcholinesterase genes, Pp-ace1 and Pp-ace2, were cloned from this natural enemy. The putative proteins encoded by Pp-ace1 and Pp-ace2 showed high similarities to insect AChE1 (63% to Liposcelis entomophila AChE1) and AChE2 (36% to Culex quinquefasciatus AChE2) with specific functional motifs, which indicated that two genes might encode AChE1 and AChE2 proteins respectively. The recombinant proteins by expressing Pp-ace1 and Pp-ace2 genes in insect sf9 cells showed high AChE activities. The kinetic parameters, V_max and K_m, of two recombinant AChE proteins were significantly different. The sensitivities to six insecticides were determined in two recombinant AChEs. Pp-AChE1 was more sensitive to all tested insecticides than Pp-AChE2, such as fenobucarb (54 times in K_i ratios), isoprocarb (31 times), carbaryl (13 times) and omethoate (6 times). These results indicated that Pp-AChE1 might be the major synaptic enzyme in the spider. By sequence comparison of P. pseudoannulata and insect AChEs, the key amino acid differences at or close to the functional sites were found. The locations of some key amino acid differences were consistent with the point mutation sites in insect AChEs that were associated with insecticide resistance, such as Phe331 in Pp-AChE2 corresponding to Ser331Phe mutation in Myzus persicae and Aphis gossypii AChE2, which might play important roles in insecticide selectivity between P. pseudoannulata and insect pests. Of course, the direct evidences are needed through further studies.     

Genetic diversity in three species of Forsythia (Oleaceae) endemic to Korea: Implications for population history,taxonomy, and conservation

As the mountains in temperate regions have been hypothesized as refugia for boreal and temperate plants during the Last Glacial Maximum, one would expect high within-population genetic variation and low or moderate among-population differentiation for those species occurring there. We selected Forsythia ovata and Forsythia saxatilis, endemic to limestone mountains of Korea, to test the scenario that limestone ranges would also have acted as refugia. We undertook a population genetic analysis using 14 putative allozyme loci of the two species and the widely cultivated Forsythia koreana. We found relatively high levels of genetic diversity and low to moderate among-population differentiation in F. ovata and F. saxatilis, which are consistent with the proposed scenario. Allozyme data revealed that F. ovata and F. saxatilis are likely conspecific. As many populations of F. ovata and F. saxatilis have experienced dramatic decreases in their size, a comprehensive conservation program is urgently needed.     

Persistence of perorally inoculated entomopoxvirus spindles in the midgut of Bombyx mori larvae

Peroral inoculation of entomopoxvirus (EV) spindles, microstructures composed of the protein fusolin, enhances the infectivity of some insect viruses by disrupting the physical barrier against microbe infection, the peritrophic matrix, in the insect midgut. Here, we examined the temporal persistence of spindles of Anomala cuprea EV (ACEV) that infect Coleopteran species in Bombyx mori larva midgut because spindle solubility over time in the midgut is closely associated with the degree of the enhancement of microbe infectivity by fusolin. A number of ACEV spindles fed to B. mori larvae were retained in the digestive systems even 20 h after the completion of feeding spindles, and a number of spindles were found to be excreted still almost intact in feces under a light microscope. In an in vitro experiment, most ACEV spindles remained intact in B. mori midgut juice 1 h after the start of incubation and some of spindles appeared even overnight in contrast to Bombyx mori nucleoplyhedrovirus polyhedra, which were immediately dissolved in midgut juice. These results suggest spindles are not generally dissolved readily in the midgut of many insects. The difficulty in solubility of ACEV spindles is considered to be mainly due to that fusolin contains many cysteine residues that form a 3D network of disulfide bonds between fusolin dimers. To use spindles at a low cost as additives in microbial insecticides, increasing the solubility of spindles by protein engineering is important to utilize full spindles inoculated.     

Possible coexistence of Harmonia axyridis Pallas (Coleoptera: Coccinellidae) and Diaeretiella rapae M'Intosh (Hymenoptera: Braconidae) in the biological control of Lipaphis erysimi (Homoptera: Aphididae)

To study the interactions between the aphidophagous predator Harmonia axyridis Pallas (Coleoptera: Coccinellidae) and the specialist aphid parasitoid Diaeretiella rapae M'Intosh (Hymenoptera: Braconidae) in the biological control of mustard aphid, Lipaphis erysimi (Homoptera: Aphididae), the prey discrimination by H. axyridis among unparasitized, non-mummified parasitized and mummified aphids was examined under laboratory conditions. Prey/host selections were also tested by offering L. erysimi at various developmental stages to assess the possibility of coexistence between the two species, so the prey preference of H. axyridis when D. rapae parasitize aphids, and the host preference of D. rapae when H. axyridis interfered with the parasitization were detected. We found that H. axyridis could discriminate against mummies rather than non-mummified parasitized aphids. The ladybug showed a significantly positive preference for adult prey when D. rapae turned aphids into mummies, while D. rapae tended to parasitize younger nymphal aphids when H. axyridis was introduced. The present study suggests the prey discrimination against mummies by H. axyridis, and indicates that H. axyridis and D. rapae can avoid resource competition by attacking different and non-overlapping developmental stages of aphid. Thus, H. axyridis and D. rapae can potentially coexist and establish a stable ecosystem in the biological control of L. erysimi.     

Can aphid-induced plant signals be transmitted aerially and through the rhizosphere?

Aphids, through their close association with plants, cause systemic release of semiochemicals. These may have negative effects on subsequent aphid colonisation and can also have positive roles with insects that are antagonistic to aphid development, for example parasitoids. One of the semiochemicals involved in host selection by aphids is methyl salicylate, and since this compound was shown to have a role as a plant stress signal, the hypothesis that aphids might facilitate identification of new plant signals was examined. Confirmation was obtained during an investigation of avoidance of unsuitable hosts by the lettuce aphid, Nasonovia ribis-nigri. (Z)-Jasmone was identified as a plant-derived semiochemical acting negatively for a number of aphid species, and positively for insect antagonists such as parasitoids and predators. However, when the compound was employed at 0.1 ppm in air above intact plants, these plants then attracted aphid parasitoids long after the (Z)-jasmone itself was no longer detectable. A specific interaction was proposed, since the (Z)-jasmone appeared to be selectively taken up by the plants. Aerial interactions between intact barley plants from different cultivars, which may be differentially releasing stress associated signals, can also influence acceptability to aphids. Furthermore, it has been shown that exudates from the roots of aphid-infested plants, grown hydroponically or in soil, cause intact plants to become more attractive to parasitoids.     

Design of Tripeptides as a Competitive Inhibitor for HMG-CoA Reductase

International Journal of Peptide Research and Therapeutics - This study presents a simple approach in design of tripeptides as a competitive inhibitor for 3-hydroxy-3-methylglutaryl CoA reductase...     

Ras-related proteins (Rab) are key proteins related to male fertility following a unique activation mechanism

Ras-related protein Rab (Rab) proteins, member of Ras superfamily of monomeric G proteins, are well known key regulators of intracellular vesicular transport. Recently, it has been reported that Rab 2A and 3A are related to acrosomal exocytosis in spermatozoa and Rab 2A can be used to fertility-related biomarker in male. However, the role and mechanism of Rab proteins in spermatozoa has not been fully understood yet. Therefore, the study to analyze the expression and location of various Rab proteins in spermatozoa is required to understand the role and mechanism of Rab proteins in spermatozoa. In present study, to analyze the expression level and location of various Rab proteins (Rab 2A, Rab3A, Rab4, Rab5, Rab8A, Rab9, Rab11, Rab14, Rab25, Rab27A, and Rab34) and Rab protein regulators (RabGAP, RabGDI, RabGEF) in spermatozoa following capacitation, immunofluorescence and western blot analysis were performed. All of 11 Rab proteins were expressed in acrosomal region and tail of spermatozoa. Furthermore, all Rab proteins and Rab protein regulators, except RabGAP, have decreased expression patterns after capacitation. Taken together, Rab proteins were located in sperm head and tail. In addition, expression patterns of Rab proteins in spermatozoa were altered following capacitation. Therefore, our results suggested that Rab proteins may be key proteins related with capacitation as well as playing important role with uniquely activation pathway for male fertility.