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141.
Burns AR Zheng Z Soubra SH Chen J Rumbaut RE 《American journal of physiology. Heart and circulatory physiology》2007,293(5):H2904-H2910
Endothelial cells in vivo are well known to respond to parallel shear stress induced by luminal blood flow. In addition, fluid filtration across endothelium (transendothelial flow) may trigger nitric oxide (NO) production, presumably via shear stress within intercellular clefts. Since NO regulates neutrophil-endothelial interactions, we determined whether transendothelial flow regulates neutrophil transmigration. Interleukin-1beta-treated human umbilical vein endothelial cell (HUVEC) monolayers cultured on a polycarbonate filter were placed in a custom chamber with or without a modest hydrostatic pressure gradient (DeltaP, 10 cm H(2)O) to induce transendothelial flow. In other experiments, cells were studied in a parallel plate flow chamber at various transendothelial flows (DeltaP = 0, 5, and 10 cm H(2)O) and luminal flows (shear stress of 0, 1, and 2 dyn/cm(2)). In the absence of luminal flow, transendothelial flow reduced transmigration of freshly isolated human neutrophils from 57% to 14% (P < 0.05) and induced an increase in NO detected with a fluorescent assay (DAF-2DA). The NO synthase inhibitor L-NAME prevented the effects of transendothelial flow on neutrophil transmigration, while a NO donor (DETA/NO, 1 mM) inhibited neutrophil transmigration. Finally, in the presence of luminal flow (1 and 2 dyn/cm(2)), transendothelial flow also inhibited transmigration. On the basis of HUVEC morphometry and measured transendothelial volume flow, we estimated cleft shear stress to range from 49 to 198 dyn/cm(2). These shear stress estimates, while substantial, are of similar magnitude to those reported by others with similar analyses. These data are consistent with the hypothesis that endothelial cleft shear stress inhibits neutrophil transmigration via a NO-dependent mechanism. 相似文献
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Luft JR Wolfley JR Said MI Nagel RM Lauricella AM Smith JL Thayer MH Veatch CK Snell EH Malkowski MG Detitta GT 《Protein science : a publication of the Protein Society》2007,16(4):715-722
An efficient optimization method for the crystallization of biological macromolecules has been developed and tested. This builds on a successful high-throughput technique for the determination of initial crystallization conditions. The optimization method takes an initial condition identified through screening and then varies the concentration of the macromolecule, precipitant, and the growth temperature in a systematic manner. The amount of sample and number of steps is minimized and no biochemical reformulation is required. In the current application a robotic liquid handling system enables high-throughput use, but the technique can easily be adapted in a nonautomated setting. This method has been applied successfully for the rapid optimization of crystallization conditions in nine representative cases. 相似文献
144.
Merker MP Audi SH Lindemer BJ Krenz GS Bongard RD 《American journal of physiology. Lung cellular and molecular physiology》2007,293(3):L809-L819
The objective was to determine the impact of intact normoxic and hyperoxia-exposed (95% O(2) for 48 h) bovine pulmonary arterial endothelial cells in culture on the redox status of the coenzyme Q(10) homolog coenzyme Q(1) (CoQ(1)). When CoQ(1) (50 microM) was incubated with the cells for 30 min, its concentration in the medium decreased over time, reaching a lower level for normoxic than hyperoxia-exposed cells. The decreases in CoQ(1) concentration were associated with generation of CoQ(1) hydroquinone (CoQ(1)H(2)), wherein 3.4 times more CoQ(1)H(2) was produced in the normoxic than hyperoxia-exposed cell medium (8.2 +/- 0.3 and 2.4 +/- 0.4 microM, means +/- SE, respectively) after 30 min. The maximum CoQ(1) reduction rate for the hyperoxia-exposed cells, measured using the cell membrane-impermeant redox indicator potassium ferricyanide, was about one-half that of normoxic cells (11.4 and 24.1 nmol x min(-1) x mg(-1) cell protein, respectively). The mitochondrial electron transport complex I inhibitor rotenone decreased the CoQ(1) reduction rate by 85% in the normoxic cells and 44% in the hyperoxia-exposed cells. There was little or no inhibitory effect of NAD(P)H:quinone oxidoreductase 1 (NQO1) inhibitors on CoQ(1) reduction. Intact cell oxygen consumption rates and complex I activities in mitochondria-enriched fractions were also lower for hyperoxia-exposed than normoxic cells. The implication is that intact pulmonary endothelial cells influence the redox status of CoQ(1) via complex I-mediated reduction to CoQ(1)H(2), which appears in the extracellular medium, and that the hyperoxic exposure decreases the overall CoQ(1) reduction capacity via a depression in complex I activity. 相似文献
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146.
Somatostatin and dopamine receptors are well expressed and co-localized in several brain regions, suggesting the possibility of functional interactions. In the present study we used a combination of pharmacological, biochemical and photobleaching fluorescence resonance energy transfer (pbFRET) to determine the functional interactions between human somatostatin receptor 2 (hSSTR2) and human dopamine receptor 2 (hD2R) in both co-transfected CHO-K1 or HEK-293 cells as well as in cultured neuronal cells which express both the receptors endogenously. In monotransfected CHO-K1 or HEK-293 cells, D2R exists as a preformed dimer which is insensitive to agonist or antagonist treatment. In control CHO-K1 cells stably co-transfected with hD2R and hSSTR2, relatively low FRET efficiency and weak expression in co-immunoprecipitate from HEK-293 cells suggest the absence of preformed heterooligomers. However, upon treatment with selective ligands, hD2R and hSSTR2 exhibit heterodimerization. Agonist-induced heterodimerization was accompanied by increased affinity for dopamine and augmented hD2R signalling as well as prolonged hSSTR2 internalization. In contrast, cultured striatal neurons display constitutive heterodimerization between D2R and SSTR2, which were agonist-independent. However, heterodimerization in neurons was completely abolished in the presence of the D2R antagonist eticlopride. These findings suggest that hD2R and hSSTR2 operate as functional heterodimers modulated by ligands in situ, which may prove to be a useful model in designing new therapeutic drugs. 相似文献
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148.
Said Aoufouchi Annie De Smet Frédéric Delbos Camille Gelot Ida Chiara Guerrera Jean-Claude Weill Claude-Agnès Reynaud 《Molecular and cellular biology》2015,35(17):3059-3070
Mice derived from the 129 strain have a nonsense codon mutation in exon 2 of the polymerase iota (Polι) gene and are therefore considered Polι deficient. When we amplified Polι mRNA from 129/SvJ or 129/Ola testes, only a small fraction of the full-length cDNA contained the nonsense mutation; the major fraction corresponded to a variant Polι isoform lacking exon 2. Polι mRNA lacking exon 2 contains an open reading frame, and the corresponding protein was detected using a polyclonal antibody raised against the C terminus of the murine Polι protein. The identity of the corresponding protein was further confirmed by mass spectrometry. Although the variant protein was expressed at only 5 to 10% of the level of wild-type Polι, it retained de novo DNA synthesis activity, the capacity to form replication foci following UV irradiation, and the ability to rescue UV light sensitivity in Polι−/− embryonic fibroblasts derived from a new, fully deficient Polι knockout (KO) mouse line. Furthermore, in vivo treatment of 129-derived male mice with Velcade, a drug that inhibits proteasome function, stabilized and restored a substantial amount of the variant Polι in these animals, indicating that its turnover is controlled by the proteasome. An analysis of two xeroderma pigmentosum-variant (XPV) cases corresponding to missense mutants of Polη, a related translesion synthesis (TLS) polymerase in the same family, similarly showed a destabilization of the catalytically active mutant protein by the proteasome. Collectively, these data challenge the prevailing hypothesis that 129-derived strains of mice are completely deficient in Polι activity. The data also document, both for 129-derived mouse strains and for some XPV patients, new cases of genetic defects corresponding to the destabilization of an otherwise functional protein, the phenotype of which is reversible by proteasome inhibition. 相似文献
149.