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211.
Mostofa Ataur Rohman Kundan Saha 《Journal of biomolecular structure & dynamics》2013,31(18):4737-4746
212.
The emergence of antibiotic resistance in bacterial pathogens has foxed the health organizations which are actively scrambling
for solutions. The available data indicate an increased morbidity in infections often leading to mortality among patients
where drug-resistant pathogens have negated the effect of the medicines. In the context of developing “novel bacterial inhibitors”
for killing or arresting the growth of drug-resistant pathogens, UDP-N-acetylglucosamine enolpyruvyl transferase (MurA) is an enzyme that provides hope for the future. This enzyme catalyzes the first committed step
in the biosynthesis of peptidoglycan, an integral and essential component of the bacterial cell wall. MurA enzyme is neither
present nor required by mammals and shows poor homology with human proteins. Therefore, it is an ideal target for antibacterial
chemotherapy. Till date, 18 structures of MurA (in native and ligand-bound forms) from different bacterial pathogens have
been solved. In the last 2 years, eight structures of bacterial MurA have been submitted to the Protein Data Bank and many
inhibitors discovered. The present review discusses the structural and functional features of MurA of bacterial pathogens
along with the development of MurA-targeted inhibitors. 相似文献
213.
214.
Wang Y Rishi AK Wu W Polin L Sharma S Levi E Albelda S Pass HI Wali A 《Molecular and cellular biochemistry》2011,357(1-2):83-94
Malignant pleural mesothelioma (MPM) is an aggressive, asbestos-related malignancy of the thoracic pleura. Although, platinum-based agents are the first line of therapy, there is an urgent need for second-line therapies to treat the drug-resistant MPM. Cell cycle as well as apoptosis pathways are frequently altered in MPM and thus remain attractive targets for intervention strategies. Curcumin, the major component in the spice turmeric, alone or in combination with other chemotherapeutics has been under investigation for a number of cancers. In this study, we investigated the biological and molecular responses of MPM cells to curcumin treatments and the mechanisms involved. Flow-cytometric analyses coupled with western immunoblotting and gene-array analyses were conducted to determine mechanisms of curcumin-dependent growth suppression of human (H2373, H2452, H2461, and H226) and murine (AB12) MPM cells. Curcumin inhibited MPM cell growth in a dose- and time-dependent manner while pretreatment of MPM cells with curcumin enhanced cisplatin efficacy. Curcumin activated the stress-activated p38 kinase, caspases 9 and 3, caused elevated levels of proapoptotic proteins Bax, stimulated PARP cleavage, and apoptosis. In addition, curcumin treatments stimulated expression of novel transducers of cell growth suppression such as CARP-1, XAF1, and SULF1 proteins. Oral administration of curcumin inhibited growth of murine MPM cell-derived tumors in vivo in part by stimulating apoptosis. Thus, curcumin targets cell cycle and promotes apoptosis to suppress MPM growth in vitro and in vivo. Our studies provide a proof-of-principle rationale for further in-depth analysis of MPM growth suppression mechanisms and their future exploitation in effective management of resistant MPM. 相似文献
215.
Kumar A Pandey AK Singh SS Shanker R Dhawan A 《Free radical biology & medicine》2011,51(10):1872-1881
Extensive use of engineered nanoparticle (ENP)-based consumer products and their release into the environment have raised a global concern pertaining to their adverse effects on human and environmental health. The safe production and use of ENPs requires improvement in our understanding of environmental impact and possible ecotoxicity. This study explores the toxicity mechanism of ZnO and TiO(2) ENPs in a gram-negative bacterium, Escherichia coli. Internalization and uniform distribution of characterized bare ENPs in the nano range without agglomeration was observed in E. coli by electron microscopy and flow cytometry. Our data showed a statistically significant concentration-dependent decrease in E. coli cell viability by both conventional plate count method and flow cytometric live-dead discrimination assay. Significant (p<0.05) DNA damage in E. coli cells was also observed after ENP treatment. Glutathione depletion with a concomitant increase in hydroperoxide ions, malondialdehyde levels, reactive oxygen species, and lactate dehydrogenase activity demonstrates that ZnO and TiO(2) ENPs induce oxidative stress leading to genotoxicity and cytotoxicity in E. coli. Our study substantiates the need for reassessment of the safety/toxicity of metal oxide ENPs. 相似文献
216.
The present study was designed to investigate (i) the role of AMPK activation in inducing autophagy in androgen-dependent prostate cancer cells subjected to androgen deprivation and hypoxia, and (ii) whether autophagy offers a survival advantage under these harsh conditions. Low androgen and low oxygen are two co-existing conditions frequently found in prostate cancer tissue following surgical or medical castration. In LNCaP cells, androgen deprivation and hypoxia together boosted AMPK activation to a higher level than that seen with either condition alone. The augmented AMPK response was associated with improved viability and the induction of autophagy. These observations suggest that a threshold of AMPK activity has to be attained in order to trigger autophagy, since neither androgen deprivation nor hypoxia by itself was capable of pushing AMPK activity past that threshold. Beclin-1 was identified as a potential downstream target of AMPK in turning on the autophagic cascade. If autophagy was blocked by chemical inhibition or RNA interference of key regulators, e.g., AMPK or beclin-1, more cells would die by apoptosis. The occurrence of autophagy is thus a survival mechanism for androgen-dependent prostate cancer cells to escape from an androgen-deprived and hypoxic subsistence. 相似文献
217.
The biological delignification of lignocellulosic feedstocks, Prosopis juliflora and Lantana camara was carried out with Pycnoporus cinnabarinus, a white rot fungus, at different scales under solid-state fermentation (SSF) and the fungal treated substrates were evaluated
for their acid and enzymatic saccharification. The fungal fermentation at 10.0 g substrate level optimally delignified the
P. juliflora by 11.89% and L. camara by 8.36%, and enriched their holocellulose content by 3.32 and 4.87%, respectively, after 15 days. The fungal delignification
when scaled up from 10.0 g to 75.0, 200.0 and 500.0 g substrate level, the fungus degraded about 7.69–10.08% lignin in P. juliflora and 6.89–7.31% in L. camara, and eventually enhanced the holocellulose content by 2.90–3.97 and 4.25–4.61%, respectively. Furthermore, when the fungal
fermented L. camara and P. juliflora was hydrolysed with dilute sulphuric acid, the sugar release was increased by 21.4-42.4% and the phenolics content in hydrolysate
was decreased by 18.46 and 19.88%, as compared to the unfermented substrate acid hydrolysis, respectively. The reduction of
phenolics in acid hydrolysates of fungal treated substrates decreased the amount of detoxifying material (activated charcoal)
by 25.0–33.0% as compared to the amount required to reduce almost the same level of phenolics from unfermented substrate hydrolysates.
Moreover, an increment of 21.1–25.1% sugar release was obtained when fungal treated substrates were enzymatically hydrolysed
as compared to the hydrolysis of unfermented substrates. This study clearly shows that fungal delignification holds potential
in utilizing plant residues for the production of sugars and biofuels. 相似文献
218.
219.
Rampersad RR Tarrant TK Vallanat CT Quintero-Matthews T Weeks MF Esserman DA Clark J Di Padova F Patel DD Fong AM Liu P 《PloS one》2011,6(10):e25833
CCR2 is considered a proinflammatory mediator in many inflammatory diseases such as rheumatoid arthritis. However, mice lacking CCR2 develop exacerbated collagen-induced arthritis. To explore the underlying mechanism, we investigated whether autoimmune-associated Th17 cells were involved in the pathogenesis of the severe phenotype of autoimmune arthritis. We found that Th17 cells were expanded approximately 3-fold in the draining lymph nodes of immunized CCR2−/− mice compared to WT controls (p = 0.017), whereas the number of Th1 cells and regulatory T cells are similar between these two groups of mice. Consistently, levels of the Th17 cell cytokine IL-17A and Th17 cell-associated cytokines, IL-6 and IL-1β were approximately 2–6-fold elevated in the serum and 22–28-fold increased in the arthritic joints in CCR2−/− mice compared to WT mice (p = 0.04, 0.0004, and 0.01 for IL-17, IL-6, and IL-1β, respectively, in the serum and p = 0.009, 0.02, and 0.02 in the joints). Furthermore, type II collagen-specific antibodies were significantly increased, which was accompanied by B cell and neutrophil expansion in CCR2−/− mice. Finally, treatment with an anti-IL-17A antibody modestly reduced the disease severity in CCR2−/− mice. Therefore, we conclude that while we detect markedly enhanced Th17-cell responses in collagen-induced arthritis in CCR2-deficient mice and IL-17A blockade does have an ameliorating effect, factors additional to Th17 cells and IL-17A also contribute to the severe autoimmune arthritis seen in CCR2 deficiency. CCR2 may have a protective role in the pathogenesis of autoimmune arthritis. Our data that monocytes were missing from the spleen while remained abundant in the bone marrow and joints of immunized CCR2−/− mice suggest that there is a potential link between CCR2-expressing monocytes and Th17 cells during autoimmunity. 相似文献
220.
Costa FF Bischof JM Vanin EF Lulla RR Wang M Sredni ST Rajaram V Bonaldo Mde F Wang D Goldman S Tomita T Soares MB 《PloS one》2011,6(10):e25114