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141.
Leblond J Le Pessot F Hubert-Buron A Duclos C Vuichoud J Faure M Breuillé D Déchelotte P Coëffier M 《Experimental biology and medicine (Maywood, N.J.)》2008,233(2):219-228
Mucositis, a common toxic side effect of chemotherapy, is characterized by an arrest of cell proliferation and a loss of gut barrier function, which may cause treatment reduction or withdrawal. Gut integrity depends on nutritional and metabolic factors, including the balance between protein synthesis and proteolysis. The effects of methotrexate (MTX; a frequently used chemotherapeutic agent) on intestinal proteolysis and gut barrier function were investigated in rats. Male Sprague-Dawley rats received 2.5 mg/kg of MTX subcutaneously during 3 days and were euthanized at Day 4 (D4) or Day 7 (D7). We observed at D4 that MTX induced mucosal damage and increased intestinal permeability (7-fold) and the mucosal concentration of interleukin (IL)-1beta and IL-6 (4- to 6-fold). In addition, villus height and glutathione content significantly decreased. Intestinal proteolysis was also affected by MTX as cathepsin D activity increased at D4, whereas chymotrypsin-like proteasome activity decreased and calpain activities remained unaffected. At D7, cathepsin D activity was restored to control levels, but proteasome activity remained reduced. This disruption of proteolysis pathways strongly contributed to mucositis and requires further study. Lysosomal proteolytic activity may be considered the main proteolytic pathway responsible for alteration of mucosal integrity and intestinal permeability during mucositis, as cathepsin D activity was found to be correlated with mucosal atrophy and intestinal permeability. Proteasome regulation could possibly be an adaptive process for survival. Future investigation is warranted to target proteolytic pathways with protective nutritional or pharmacological therapies during mucositis. 相似文献
142.
Si-Yan Liao Jin-Can Chen Guang-Quan Mo Chao Zhang Kang-Cheng Zheng 《Molecular simulation》2015,41(4):356-364
3-(4-Fluorophenyl)-N-((4-fluorophenyl)sulphonyl)acrylamide (FFSA) is a potential tubulin polymerisation inhibitor. In this article, a theoretical study of the binding between FFSA and tubulin in colchicine site was carried out by molecular docking, molecular dynamics (MD) simulation and binding free energy calculations. The docking calculations preliminarily indicate that there are three possible binding modes 1, 2 and 3; MD simulations and binding free energy calculations identify that binding mode 2 is the most favourable, with the lowest binding free energy of ? 29.54 kcal/mol. Moreover, our valuable results for the binding are as follows: the inhibitor FFSA is suitably located at the colchicine site of tubulin, where it not only interacts with residues Leu248β, Lys254β, Leu255β, Lys352β, Met259β and Val181a by hydrophilic interaction, but also interacts with Val181α and Thr179α by hydrogen bond interaction. These two factors are both essential for FFSA strongly binding to tubulin. These theoretical results help understanding the action mechanism and designing new compounds with higher affinity to tubulin. 相似文献
143.
Neng-Yi?Hou Kun?Yang Tie?Chen Xin-Zu?Chen Bo?Zhang Xian-Ming?Mo Jian-Kun?HuEmail author 《Molecular biology reports》2011,38(2):997-1004
The identification and separation of small intestinal epithelial stem cells are still on the preliminary stage. In this study,
we planned to utilize immunohistochemistry, fluorescence-activated cell sorting (FACS) and RT-PCR to investigate the possibility
of CD133 and CD44 as markers of human small intestinal epithelial stem cells. The expressions of CD133, CD44 and Lgr5 were
studied by immunohistochemistry. Four subgroups of CD133+CD44+, CD133+CD44−, CD133−CD44+, CD133−CD44− were sorted out through FACS and the expression level of Lgr5 gene was measured by RT-PCR and polyacrylamide gel electropheresis (PAGE) with sliver stained. Ten cases of samples were
available for analyzing. By immunohistochemical staining, few cells with positive expressions of CD133, CD44 and Lgr5 were
distributed in the bottom of crypts with the expression locations somewhat overlapped. The average percentage of CD133+CD44+ cells was 0.0580 ± 0.0403%, while the corresponding contents of CD133+CD44− cells, CD133−CD44+ cells and CD133−CD44− cells were 0.4000 ± 0.1225%, 0.7000 ± 0.2646% and 76.5600 ± 3.5529% respectively. Ten times of positive expressions of Lgr5 were detected in the CD133+CD44+ groups, while 9/10, 8/10 and 4/10 times for CD133+CD44−, CD133−CD44+ and CD133−CD44− subgroups respectively. With the help of Quantityone 4.62 software, the densities of corresponding place to Lgr5 and reference gene were obtained. The density ratios of corresponding place to Lgr5 to reference gene were significant difference between subgroups (P < 0.001). By means of LSD method, the density ratios in CD133+CD44+ subgroups had statistical differences from the other subgroups (P < 0.05). We concluded CD133+CD44+ cells may be human small intestinal epithelial stem cells, which need further researches to confirm. 相似文献
144.
In this study, we investigated the signaling pathways implicated in SSa-induced apoptosis of human colon carcinoma (HCC) cell
lines. SSa-induced apoptosis of HCC cells was associated with proteolytic activation of caspase-9, caspase-3, and PARP cleavages
and decreased levels of IAP family members, such as XIAP and c-IAP-2, but not of survivin. The fluorescence intensity of DiOC6
was significantly reduced after SSa treatment. CsA significantly inhibited SSa-induced loss of mitochondrial transmembrane
potential and moderately inhibited SSa-induced cell death. SSa treatment also enhanced the activities of caspase-2 and caspase-8,
Bid cleavage, and the conformational activation of Bax. Additionally, SSa-induced apoptosis was inhibited by both the selective
caspase-2 inhibitor z-VDVAD-fmk and the selective caspase-8 inhibitor z-IETD-fmk and also by si-RNAs against caspase-2 and
caspase-8. The selective caspase-9 inhibitor, z-LEHD-fmk, also inhibited SSa-induced apoptosis, albeit to a lesser extent
compared to z-VDVAD-fmk and z-IETD-fmk, indicating that both mitochondria-dependent and mitochondria-independent pathways
are associated with SSa-induced apoptosis. Both z-VDVAD-fmk and z-IETD-fmk significantly attenuated the colony-inhibiting
effect of SSa. Moreover, inhibition of caspase-2 activation by the pharmacological inhibitor z-VDVAD-fmk, or by knockdown
of protein levels using a si-RNA, suppressed SSa-induced caspase-8 activation, Bid cleavage, and the conformational activation
of Bax. Although caspase-8 is an initiator caspase like caspase-2, the inhibition of caspase-8 activation by knockdown using
a si-RNA did not suppress SSa-induced caspase-2 activation. Altogether, our results suggest that sequential activation of
caspase-2 and caspase-8 is a critical step in SSa-induced apoptosis. 相似文献
145.
Bing Zhang Jia Xu Shu-Fan Mo Jian-Xi Yao Song-Yuan Dai 《Journal of molecular modeling》2016,22(12):300
Electron transfer between cytochrome c (Cytc) and electrodes can be influenced greatly by the orientation of protein on the surface of the electrodes. In the present study, different initial orientations of Cytc on the surface of five types of single-walled carbon nanotubes (SWNTs), with different diameters and chirality, were constructed. Properties of the orientations of proteins on the surface of these tubes were first investigated through molecular dynamics simulations. It was shown that variations in SWNT diameter do not significantly affect the orientation; however, the chirality of the SWNTs is crucial to the orientation of the heme embedded in Cytc, and the orientation of the protein can consequently be influenced by the heme orientation. A new electron pathway between Cytc and SWNT, which hopefully benefits electron transfer efficiency, has also been proposed. This study promises to provide theoretical guidance for the rational design of bio-sensors or bio-fuel cells by using Cytc-decorated carbon nanotube electrodes. 相似文献
146.
147.
148.
Zhong‐Ze Fang Haina Wang Yun‐Feng Cao Dong‐Xue Sun Li‐Xuan Wang Mo Hong Ting Huang Jian‐Xing Chen Jia Zeng 《Chirality》2015,27(3):189-193
UDP‐glucuronosyltransferases (UGTs)‐catalyzed glucuronidation conjugation reaction plays an important role in the elimination of many important clinical drugs and endogenous substances. The present study aims to investigate the enantioselective inhibition of carprofen towards UGT isoforms. In vitro a recombinant UGT isoforms‐catalyzed 4‐methylumbelliferone (4‐MU) glucuronidation incubation mixture was used to screen the inhibition potential of (R)‐carprofen and (S)‐carprofen towards multiple UGT isoforms. The results showed that (S)‐carprofen exhibited stronger inhibition potential than (R)‐carprofen towards UGT2B7. However, no significant difference was observed for the inhibition of (R)‐carprofen and (S)‐carprofen towards other UGT isoforms. Furthermore, the inhibition kinetic behavior was compared for the inhibition of (S)‐carprofen and (R)‐carprofen towards UGT2B7. A Lineweaver–Burk plot showed that both (S)‐carprofen and (R)‐carprofen exhibited competitive inhibition towards UGT2B7‐catalyzed 4‐MU glucuronidation. The inhibition kinetic parameter (Ki) was calculated to be 7.0 μM and 31.1 μM for (S)‐carprofen and (R)‐carprofen, respectively. Based on the standard for drug–drug interaction, the threshold for (S)‐carprofen and (R)‐carprofen to induce a drug–drug interaction is 0.7 μM and 3.1 μM, respectively. In conclusion, enantioselective inhibition of carprofen towards UDP‐glucuronosyltransferase (UGT) 2B7 was demonstrated in the present study. Using the in vitro inhibition kinetic parameter, the concentration threshold of (S)‐carprofen and (R)‐carprofen to possibly induce the drug–drug interaction was obtained. Therefore, clinical monitoring of the plasma concentration of (S)‐carprofen is more important than (R)‐carprofen to avoid a possible drug–drug interaction between carprofen and the drugs mainly undergoing UGT2B7‐catalyzed metabolism. Chirality 27:189–193, 2015. © 2014 Wiley Periodicals, Inc. 相似文献
149.
Carbon nanotube powders as electrode modifier to enhance the activity of anodic biofilm in microbial fuel cells 总被引:2,自引:0,他引:2
Carbon nanotube (CNT) is a promising electrode material and has been used as an anode modifier in microbial fuel cells (MFCs). In this study, a new method of simultaneously adding CNT powders and Geobacter sulfurreducens into the anode chamber of a MFC was used, aiming to form a composite biofilm on the anode. The performance of MFCs such as startup time and steady-state power generation was investigated under conditions of different CNT powders dosages. Results showed that both the startup time and the anodic resistance were reduced. The optimal dosage of CNT powders pre-treated by acid was 4 mg/mL for the anode chamber with an effective volume of 25 mL. The anodic resistance and output voltage of the MFC with CNT powders addition were maintained around 180 Ω and 650 mV during 40 days operation, while those of the MFC without CNT powders addition increased from 250 Ω to 540 Ω and decreased from 630 mV to 540 mV, respectively, demonstrating that adding CNT powders helped stabilize the anodic resistance, thus the internal resistance and power generation during long-term operation. Based on cyclic voltammogram, the electrochemical activity of anodic biofilm was enhanced by adding CNT powders, though no significant increase of the biomass in anodic biofilm was detected by phospholipids analysis. There was no remarkable change of ohmic resistance with an addition of CNT powders revealed by current interrupt method, which indicated that the rate of mass transfer might be promoted by the presence of CNT powders. 相似文献
150.
水稻白叶枯病菌是一种引起水稻白叶枯病的植物病原细菌,水稻白叶枯病是世界水稻生产中最严重的细菌性病害之一.本研究采用携带同源序列的自杀质粒pK18MobGⅡ整合的办法构建了水稻白叶枯病菌中国菌株13751编码6-磷酸葡糖酸内酯酶的基因XOO2193的非极性突变体GNM2193.对突变体的表型分析发现其毒力在杂交水稻品种特优63上显著减弱,突变体在非寄主植物蓖麻上不能引起过敏反应.此外,突变体胞外多糖的产量是野生型的43.4%.用一段含有XOO2193基因的DNA 片段对GNM2193进行功能互补,互补菌株在水稻上的毒力、引起过敏反应的能力和胞外多糖产量恢复到野生型水平.说明XOO2193基因与病菌的毒力和胞外多糖的产生有关. 相似文献