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101.
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Pop N Igel P Brennauer A Cabrele C Bernhardt GN Seifert R Buschauer A 《Journal of receptor and signal transduction research》2011,31(4):271-285
The four functionally expressed human neuropeptide Y receptor subtypes (hY(1)R, hY(2)R, hY(4)R, hY(5)R) belong to class A of the G-protein-coupled receptors (GPCRs) and interact with pertussis toxin-sensitive G(i/o)-proteins. The number of small molecules described as ligands for hY(1)R and hY(5)R exceeds by far those for hY(2)R. Potent non-peptidergic ligands for the hY(4)R are not available so far. Here, we report on the functional reconstitution of the hY(2)R and the hY(4)R in Sf9 insect cells using the baculovirus system. Sf9 cells were genetically engineered by infection with up to four different baculoviruses, combining the receptors with G-proteins of the G(i/o) family and regulators of G-protein signaling (RGS) proteins to improve signal-to-noise ratio. In steady-state GTPase assays, using pNPY (Y(2)) and hPP (Y(4)), the GPCRs coupled to various G(i)/G(o)-proteins and both, RGS4 and GAIP, enhanced the signals. Co-expression systems hY(2)R + G?(i2) and hY(4)R + G?(i2)/G?(o) + RGS4, combined with G?(1)?(2), yielded best signal-to-noise ratios. hY(2)R function was validated using both agonistic peptides (NPY, PYY, NPY(13?36)) and selective non-peptidergic antagonists (BIIE0246 and derivatives), whereas the hY(4)R model was characterized with peptidergic agonists (PP, NPY, GW1229, and BW1911U90). Tunicamycin inhibited receptor N-glycosylation diminished NPY signals at hY(2)R and abolished hY(4)R function. Investigations with monovalent salts showed sensitivity of hY(4)R toward Na(+), revealing moderate constitutive activity. After validation, an acylguanidine (UR-PI284) was identified as a weak non-peptide Y(4)R antagonist. In summary, the established steady-state GTPase assays provide sensitive test systems for the characterization of Y(2) and Y(4) receptor ligands. 相似文献
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Settles M Etzrodt M Kosanke K Schiemann M Zimmermann A Meier R Braren R Huber A Rummeny EJ Weissleder R Swirski FK Wildgruber M 《PloS one》2011,6(10):e25197
Objective
To explore the capacity of human CD14+CD16++ and CD14++CD16- monocytes to phagocyte iron-oxide nanoparticles in vitro.Methods
Human monocytes were labeled with four different magnetic nanoparticle preparations (Ferumoxides, SHU 555C, CLIO-680, MION-48) exhibiting distinct properties and cellular uptake was quantitatively assessed by flow cytometry, fluorescence microscopy, atomic absorption spectrometry and Magnetic Resonance Imaging (MRI). Additionally we determined whether cellular uptake of the nanoparticles resulted in phenotypic changes of cell surface markers.Results
Cellular uptake differed between the four nanoparticle preparations. However for each nanoparticle tested, CD14++CD16- monocytes displayed a significantly higher uptake compared to CD14+CD16++ monocytes, this resulted in significantly lower T1 and T2 relaxation times of these cells. The uptake of iron-oxide nanoparticles further resulted in a remarkable shift of expression of cell surface proteins indicating that the labeling procedure affects the phenotype of CD14+CD16++ and CD14++CD16- monocytes differently.Conclusion
Human monocyte subsets internalize different magnetic nanoparticle preparations differently, resulting in variable loading capacities, imaging phenotypes and likely biological properties. 相似文献105.
106.
Dr. Armin Resch 《Planta》1954,44(1):75-98
Ohne ZusammenfassungMit 14 Textabbildungen. 相似文献
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Quitterer U Pohl A Langer A Koller S Abdalla S 《Biochemical and biophysical research communications》2011,(3):544-549
Heterodimerization of the angiotensin II AT1 receptor with the receptor for the vasodepressor bradykinin, B2R, is known to sensitize the AT1-stimulated response of hypertensive individuals in vivo. To analyze features of that prototypic receptor heterodimer in vitro, we established a new method that uses fluorescence resonance energy transfer (FRET) and applies for the first time AT1-Cerulean as a FRET donor. The Cerulean variant of the green fluorescent protein as donor fluorophore was fused to the C-terminus of AT1, and the enhanced yellow fluorescent protein (EYFP) as acceptor fluorophore was fused to B2R. In contrast to AT1–EGFP, the AT1-Cerulean fusion protein was retained intracellularly. To facilitate cell surface delivery of AT1-Cerulean, a cleavable signal sequence was fused to the receptor’s amino terminus. The plasma membrane-localized AT1-Cerulean resembled the native AT1 receptor regarding ligand binding and receptor activation. A high FRET efficiency of 24.7% between membrane-localized AT1-Cerulean and B2R-EYFP was observed with intact, non-stimulated cells. Confocal FRET microscopy further revealed that the AT1/B2 receptor heterodimer was functionally coupled to receptor desensitization mechanisms because activation of the AT1-Cerulean/B2R-EYFP heterodimer with a single agonist triggered the co-internalization of AT1/B2R. Receptor co-internalization was sensitive to inhibition of G protein-coupled receptor kinases, GRKs, as evidenced by a GRK-specific peptide inhibitor. In agreement with efficient AT1/B2R heterodimerization, confocal FRET imaging of co-enriched receptor proteins immobilized on agarose beads also detected a high FRET efficiency of 24.0%. Taken together confocal FRET imaging revealed efficient heterodimerization of co-enriched and cellular AT1/B2R, and GRK-dependent co-internalization of the AT1/B2R heterodimer. 相似文献
110.