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171.
Acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) is the clinical syndrome of persistent lung inflammation caused by various direct and indirect stimuli. Despite advances in the understanding of disease pathogenesis, few therapeutic have emerged for ALI/ARDS. Thus, in the present study we evaluated the therapeutic potential of ethyl gallate (EG), a plant flavanoid in the context of ALI using in vivo (BALB/c) and in vitro models (human monocytes). Our in vivo data supports the view that EG alleviates inflammatory condition in ALI as significant reduction in BALF neutrophils, ROS, proinflammatory cytokines and albumin levels were observed with the single i.p of EG post LPS exposure. Also, histochemical analysis of mice lung tissue demonstrated that EG restored LPS stimulated cellular influx inside the lung airspaces. Unraveling the mechanism of action, our RT-PCR and western blot analysis suggest that enhanced expression of HO-1 underlies the protective effect of EG on ROS level in mice lung tissue. Induction of HO-1 in turn appears to be mediated by Nrf2 nuclear translocation and consequent activation and ablation of Nrf2 activity through siRNA notably abrogated the EG induced protective effect in LPS induced human monocytes. Furthermore, our results indicate that EG generated moderate amounts of H2O2 could induce Nrf2 translocation in the in vitro systems. However, given the insignificant amount of H2O2 recorded in the injected material in the in vivo system, additional mechanism for EG action could not be excluded. Nevertheless our results highlight the protective role of EG in ALI and provide the novel insight into its usefulness as a therapeutic tool for the treatment of ALI. 相似文献
172.
Diptiman Choudhury Arnab GanguliDebabrata Ghosh Dastidar Bipul R. AcharyaAmlan Das Gopal Chakrabarti 《Biochimie》2013
Apigenin, a natural flavone, present in many plants sources, induced apoptosis and cell death in lung epithelium cancer (A549) cells with an IC50 value of 93.7 ± 3.7 μM for 48 h treatment. Target identification investigations using A549 cells and also in cell-free system demonstrated that apigenin depolymerized microtubules and inhibited reassembly of cold depolymerized microtubules of A549 cells. Again apigenin inhibited polymerization of purified tubulin with an IC50 value of 79.8 ± 2.4 μM. It bounds to tubulin in cell-free system and quenched the intrinsic fluorescence of tubulin in a concentration- and time-dependent manner. The interaction was temperature-dependent and kinetics of binding was biphasic in nature with binding rate constants of 11.5 × 10−7 M−1 s−1 and 4.0 × 10−9 M−1 s−1 for fast and slow phases at 37 °C, respectively. The stoichiometry of tubulin–apigenin binding was 1:1 and binding the binding constant (Kd) was 6.08 ± 0.096 μM. Interestingly, apigenin showed synergistic anti-cancer effect with another natural anti-tubulin agent curcumin. Apigenin and curcumin synergistically induced cell death and apoptosis and also blocked cell cycle progression at G2/M phase of A549 cells. The synergistic activity of apigenin and curcumin was also apparent from their strong depolymerizing effects on interphase microtubules and inhibitory effect of reassembly of cold depolymerized microtubules when used in combinations, indicating that these ligands bind to tubulin at different sites. In silico modeling suggested apigenin bounds at the interphase of α–β-subunit of tubulin. The binding site is 19 Å in distance from the previously predicted curcumin binding site. Binding studies with purified protein also showed both apigenin and curcumin can simultaneously bind to purified tubulin. Understanding the mechanism of synergistic effect of apigenin and curcumin could be helped to develop anti-cancer combination drugs from cheap and readily available nutraceuticals. 相似文献
173.
Alok Kumar Mukesh Kumar Moushumi Ghosh Abhijit Ganguli 《Microbiology and immunology》2013,57(2):100-110
Lactobacillus casei LA‐1 isolated from a nondairy fermented source was evaluated for its in vitro ability to reduce cholesterol. The bacterium tested positive for bile salt deconjugation in relation to cholesterol removal. Tested growth‐associated physiological variables such as pH, temperature and inoculum size were all found to have significant effects on in vitro cholesterol reduction and biomass production (both P < 0.005). Furthermore, a central composite design was used to evaluate the effects of significant variables and their interactions. A linear regression model was developed for in vitro cholesterol reduction as a function of growth‐associated variables. Maximum cholesterol reduction achieved was 45% whereas maximum biomass yield of 2.34 optical density was observed at the central point. Our study possibly indicates that the growth of L. casei LA‐1 depends on its cholesterol removing ability. 相似文献
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Piyushi Gupta Sadashib Ghosh Ashwat Nagarajan Veer Singh Mehta Ellora Sen 《Cellular signalling》2013,25(3):682-689
The non-classical HLA class I antigen HLA-G contributes to immune escape mechanisms in glioblastoma multiforme (GBM). We have previously shown that IL-1β–HIF-1α axis connects inflammatory and oncogenic pathways in GBM. In this study, we investigated the role of IL-1β induced inflammation in regulating HLA-G expression. IL-1β increased HLA-G and Toll like receptor 4 (TLR4) expression in a HIF-1α dependent manner. Inhibition of TLR4 signaling abrogated IL-1β induced HLA-G. IL-1β increased HMGB1 expression and its interaction with TLR4. Inhibition of HMGB1 inhibited TLR4 and vice versa suggesting the existence of HMGB1–TLR4 axis in glioma cells. Interestingly, HMGB1 inhibition prevented IL-1β induced HLA-G expression. Elevated levels of HMGB1 and β-defensin 3 were observed in GBM tumors. Importantly, β-defensin-3 prevented IL-1β induced HLA-G, TLR4, HMGB1 expression and release of pro-inflammatory mediators. Our studies indicate that β-defensin-3 abrogates IL-1β induced HLA-G expression by negatively affecting key molecules associated with its regulation. 相似文献
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178.
Isothermal calorimetry (ITC) is efficient in characterizing and recognizing both high affinity and low affinity intermolecular interactions quickly and accurately. Adriamycin (ADR) and daunomycin (DNM) are the two anticancer drugs whose activity is achieved mainly by intercalation with DNA. During chemotherapy, normal human genomic DNA and mutated DNA from K562 leukemic cells show different thermodynamic properties and binding affinities on interaction with ADR and DNM when followed by ITC. Normal DNA shows more than one step in kinetic analysis, which could be attributed to outside binding, intercalation and reshuffling as suggested by Chaires et al. (1985); whereas K562 DNA fits a different binding pattern with higher binding affinities (by one order or more) compared to normal DNA. Structural properties of the interaction were followed by laser Raman spectroscopy, where difference in structure was apparent from the shifts in marker B DNA Raman bands (Ling et al., 2005). A correlation of thermodynamic contribution and structural data reveals step wise changes in normal genomic DNA conformation on drug binding. The overall structural change is higher in normal DNA–DNM interaction suggesting a partial B to A transition on drug binding. Such large changes were not observed for K562 DNA–DNM interaction which showed B to A transition properties in native from itself corroborating with our earlier findings (Ghosh et al., 2012). 相似文献
179.
Nitin Kumar Pandey Sudeshna Ghosh Nóra Veronika Nagy 《Journal of biomolecular structure & dynamics》2013,31(9):1366-1378
Protein aggregation is related to a series of pathological disorders the main cause of which are the fibrillar species generated during the process. Human serum albumin (HSA) undergoes rapid fibrillation in the presence of Cu(II) at pH 7.4 in 60% ethanol after 6-h incubation (~65?°C) followed by room temperature incubation. Here, we have investigated the effect of a stoichiometric variation of Cu(II) on the self-assembly of HSA using Congo red and thioflavin T dye-binding studies, circular dichroism spectroscopy, Fourier transform infrared spectroscopy, electron paramagnetic resonance spectroscopy, fluorescence microscopy and transmission electron microscopy. The simulation of EPR spectra suggests that with the increment in Cu(II) ion concentration, there is a change in ligand field coordination. Kinetic parameters indicate reduced cooperativity that may be related to the nonspecific coordination on increment of Cu(II) concentration. Cu(II) is also able to direct the accumulation of a large number of fibers along with a formation of dense fibrillar network which is evident from microscopic images. 相似文献
180.