The Role of Elytra in Beetle Flight: I. Generation of Quasi-Static Aerodynamic Forces

We conducted a comprehensive study to investigate the aerodynamic characteristics and force generation of the elytra of abeetle,Allomyrina dichotoma.Our analysis included wind tunnel experiments and three-dimensional computational fluiddynamics simulations using ANSYS-CFX software.Our first approach was a quasi-static study that considered the effect ofinduced flapping flow due to the flapping motion of the fore-wings (elytra) at a frequency of around 30 Hz to 40 Hz.The dihedralangle was varied to represent flapping motion during the upstroke and downstroke.We found that an elytron producespositive lift at 0° geometric angle of attack,negative lift during the upstroke,and always produces drag during both the upstrokeand downstroke.We also found that the lift coefficient of an elytron does not drop even at a very high geometric angle of attack.For a beetle with a body weight of 5 g,based on the quasi-static method,the fore-wings (elytra) can produce lift of less than 1%of its body weight.     

sMEK1 enhances gemcitabine anti-cancer activity through inhibition of phosphorylation of Akt/mTOR

Recently, we reported that sMEK1 is down-regulated in cancer cells and tissues, and that it enhances the pro-proliferative effect as a novel pro-apoptotic protein. However, the biological mechanism of the sMEK1 tumor suppressor in the cellular signal pathway has not been well understood. In our current work, we examined whether sMEK1 could promote the cytotoxic activity of gemcitabine in the human ovarian carcinoma system. Initially, we attempted to use a treatment of gemcitabine traditional chemotherapeutic agent and over-expression of sMEK1 in OVCAR-3 cancer cells. The combined treatment of sMEK1 and gemcitabine was more effective at inhibiting cell proliferation than either chemotherapeutic agent treatment alone. In addition, sMEK1 actively contributes to cell migration through its ability to promote gemcitabine-inhibited cell migration in tumorigenesis. Cell cycle-related proteins are highly associated with the down-regulation of cyclin D1 and CDK4, and the promotion of p16 and p27 as a cyclin-dependent kinase inhibitor. At the same time, sMEK1 arrests cell cycle progression in the G(1)-G(0) phase, and activates p53 and p21 expression, whereas Bcl-2 and Bcl-xL protein expression is reduced. Additionally, sMEK1 and gemcitabine suppresses the phosphorylation of signaling modulators downstream of PI3K, such as PDK1 and Akt. The p53 and p21 promoter luciferase activities were promoted by either sMEK1 or gemcitabine, and sMEK1 and gemcitabine combined additively activated the promoter further. Furthermore, as expected, sMEK1 plus gemcitabine markedly reduced the phosphorylation of p70S6K and the phosphorylation of 4E-BP1, which is one of the best characterized targets of the mTOR complex cascade. Taken together, these results provide evidence that sMEK1 can effectively regulate the pro-apoptotic activity of gemcitabine through the up-regulation of p53 expression.     

Inhibitory activity of phosphorylated chitooligosaccharides on the formation of calcium phosphate

Chitooligosaccharides (COSs) were successfully prepared using an ultrafiltration membrane bioreactor system, and named as COS-I (10–5 kDa), COS-II (5–3 kDa), COS-III (3–1 kDa), and COS-IV (below 1 kDa), respectively. In addition, their phosphorylated derivatives were prepared by a P₂O₅ in methanesulfonic acid solution, and inhibitory activity on the formation of insoluble calcium phosphate of phosphorylated chitooligosaccharides. Phosphorylated COS-IV exhibited the highest inhibitory activity of calcium phosphate precipitation among tested chitooligosaccharides. Its inhibitory activity, especially at the concentration more than 4 mg/ml, was similar to that of CPP, which is widely used as a calcium fortifying agent increasing calcium absorbability. Therefore, phosphorylated chitooligosaccharides may be potential inhibitors of calcium phosphate precipitation.     

Effect of gamma irradiation on the efficacy of β-glucan against acetaminophen induced toxicity in mice

The present study was conducted to compare the efficacy of unirradiated β-glucan (UBG) and gamma irradiated β-glucan (GIBG) against acetaminophen (APAP) induced hepatotoxicity in mice. Mice of BALB/c strain were pretreated with UBG and GIBG (50 mg/kg, p.o.) for 7 days and on the 8th day they received an overdose of APAP (500 mg/kg, i.p.). Eight hours after the APAP injection, the levels of serum aminotransferase (AST) and alanine aminotransferase (ALT) were measured and liver, kidney and lung tissue were examined for morphological changes. A significant elevation (p < 0.001) of the levels of AST and ALT was observed in mice toxicated with APAP. Histology data revealed severe liver centrilobular necrosis, portal vein damage with apparent toxicity in renal glomerulus and lung inflammation associated with edema. However, a significant inhibition (p < 0.05) in the elevation of AST and ALT was observed in mice that received UBG and GIBG compared with APAP-treated mice. Histology examination revealed the non-statistical difference between the protective effects of GIBG and UBG against acetaminophen challenge. In conclusion, it was demonstrated that gamma irradiation induced no severe alteration in the protective activity of β-glucan against APAP-induced hepatotoxicity.     

Glucose promotes membrane cholesterol crystalline domain formation by lipid peroxidation

Oxidative damage to vascular cell membrane phospholipids causes physicochemical changes in membrane structure and lipid organization, contributing to atherogenesis. Oxidative stress combined with hyperglycemia has been shown to further increase the risk of vascular and metabolic diseases. In this study, the effects of glucose on oxidative stress-induced cholesterol domain formation were tested in model membranes containing polyunsaturated fatty acids and physiologic levels of cholesterol. Membrane structural changes, including cholesterol domain formation, were characterized by small angle X-ray scattering (SAXS) analysis and correlated with spectrophotometrically-determined lipid hydroperoxide levels. Glucose treatment resulted in a concentration-dependent increase in lipid hydroperoxide formation, which correlated with the formation of highly-ordered cholesterol crystalline domains (unit cell periodicity of 34 Å) as well as a decrease in overall membrane bilayer width. The effect of glucose on lipid peroxidation was further enhanced by increased levels of cholesterol. Treatment with free radical-scavenging agents inhibited the biochemical and structural effects of glucose, even at elevated cholesterol levels. These data demonstrate that glucose promotes changes in membrane organization, including cholesterol crystal formation, through lipid peroxidation.     

Phlorotannins in Ecklonia cava extract inhibit matrix metalloproteinase activity

Matrix metalloproteinase (MMP) inhibitors have been identified as potential therapeutic candidates for metastasis, arthritis, chronic inflammation and wrinkle formation. For the first time here we report a detailed study on the inhibitory effects of phlorotannins in brown algae, Ecklonia cava (EC) on MMP activities in cultured human cell lines. A novel gelatin digestion assay could visualize complete inhibition of bacterial collagenase-1 activity at 20 microg/ml of EC extract during preliminary screening studies. Sensitive fluorometric assay revealed that EC extract can specifically inhibit both MMP-2 and MMP-9 activities significantly (P < 0.001) at 10 microg/ml. In addition, artificially induced activities of MMP-2 and MMP-9 in human dermal fibroblasts and HT1080 cells were inhibited by EC extract in a more or less similar manner to the positive control doxycycline. Even though the expression levels of MMPs differ from one cell type to the other, gelatin zymography clearly revealed that both MMP expression and activity in cells can be inhibited by EC extract. More interestingly, EC extract did not exert any cytotoxic effect even at 100 microg/ml anticipating its potential use as a safe MMP inhibitor.     

Prophylactic and Therapeutic Efficacy of Avian Antibodies Against Influenza Virus H5N1 and H1N1 in Mice

Background

Pandemic influenza poses a serious threat to global health and the world economy. While vaccines are currently under development, passive immunization could offer an alternative strategy to prevent and treat influenza virus infection. Attempts to develop monoclonal antibodies (mAbs) have been made. However, passive immunization based on mAbs may require a cocktail of mAbs with broader specificity in order to provide full protection since mAbs are generally specific for single epitopes. Chicken immunoglobulins (IgY) found in egg yolk have been used mainly for treatment of infectious diseases of the gastrointestinal tract. Because the recent epidemic of highly pathogenic avian influenza virus (HPAIV) strain H5N1 has resulted in serious economic losses to the poultry industry, many countries including Vietnam have introduced mass vaccination of poultry with H5N1 virus vaccines. We reasoned that IgY from consumable eggs available in supermarkets in Vietnam could provide protection against infections with HPAIV H5N1.

Methods and Findings

We found that H5N1-specific IgY that are prepared from eggs available in supermarkets in Vietnam by a rapid and simple water dilution method cross-protect against infections with HPAIV H5N1 and related H5N2 strains in mice. When administered intranasally before or after lethal infection, the IgY prevent the infection or significantly reduce viral replication resulting in complete recovery from the disease, respectively. We further generated H1N1 virus-specific IgY by immunization of hens with inactivated H1N1 A/PR/8/34 as a model virus for the current pandemic H1N1/09 and found that such H1N1-specific IgY protect mice from lethal influenza virus infection.

Conclusions

The findings suggest that readily available H5N1-specific IgY offer an enormous source of valuable biological material to combat a potential H5N1 pandemic. In addition, our study provides a proof-of-concept for the approach using virus-specific IgY as affordable, safe, and effective alternative for the control of influenza outbreaks, including the current H1N1 pandemic.     

Radial growth response of Pinus densiflora and Quercus spp. to topographic and climatic factors in South Korea

Aims This study aimed to develop radial growth models and to predict the potential spatial distribution of Pinus densiflora (Japanese red pine) and Quercus spp. (Oaks) in South Korea, considering topographic and climatic factors.Methods We used a dataset of diameter at breast height and radial growth estimates of individual trees, topographic and climatic factors in systematic sample plots distributed over the whole of South Korea. On the basis that radial growth is attributed primarily to tree age, we developed a radial growth model employing tree age as an explanatory variable. We estimated standard growth (SG), defined as radial growth of the tree at age 30, to eliminate the influence of tree age on radial growth. In addition, SG estimates including the Topographic Wetness Index, temperature and precipitation were calculated by the Generalized Additive Model.Important findings As a result of variogram analysis of SG, we found spatial autocorrelation between SG, topographic and climatic factors. Incremental temperature had negative impacts on radial growth of P. densiflora and positive impacts on that of Quercus spp. Precipitation was associated with positive effects on both tree species. Based on the model, we found that radial growth of P. densiflora would be more vulnerable than that of Quercus spp. to climatic factors. Through simulation with the radial growth model, it was predicted that P. densiflora stands would be gradually replaced with Quercus spp. stands in eastern coastal and southern regions of South Korea in the future. The models developed in this study will be helpful for understanding the impact of climatic factors on tree growth and for predicting changes in distribution of P. densiflora and Quercus spp. due to climate change in South Korea.     

Induction of male germ cell-like lineage from chicken fetal bone marrow stem cells with chicken testis extract

Bone marrow-derived stem cells (BMCs) are able to differentiate into multilineage cells such as muscle, bone, cartilage, fat, and nerve cells. In the present study, we investigated the differentiation capability of chicken BMCs into germ cells by using retinoic acid (RA) and chicken testis extract (chTE). The chicken BMCs were isolated from fetal chicken femurs on post-fertilization day 20, cultured in vitro, and treated with RA and chTE, respectively. The cultured chicken BMCs displayed fibroblast-like morphology and were positive for mesenchymal-specific markers such as CD44, CD90, and CD105 at the mRNA level. RT-PCR and immunocytostaining revealed that both RA and chTE treatments induced the expression of early-germ-cell markers such as Stra8, Dazl and DDX4. The increase of germ cell-specific gene expression after chTE treatment indicates that testicular environment-derived proteins may induce in vitro germ-cells. In addition, we performed a microarray analysis to identify differentially expressed genes (DEGs) in RA and chTE, respectively. A total of 1,629 DEGs were obtained and the chTE treatment showed very lower numbers of DEGs than the RA treatment. Collectively, our results indicate that chicken BMCs have the potential to differentiate to male germ cells in vitro with testis derived proteins.