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Desensitization of the Neurokinin 1 Receptor Is Mediated by the Receptor Carboxy-Terminal Region, but Is Not Caused by Receptor Internalization 总被引:1,自引:0,他引:1
Abstract: The carboxy-terminal cytoplasmic regions of the rat neurokinin 1 (substance P) and neurokinin 2 (neurokinin A) receptors have been exchanged to determine if this region of the neurokinin 1 receptor is involved in its desensitization. When expressed at similar levels in stably transfected Chinese hamster ovary (CHO) cell lines, receptors containing the carboxy-terminal region of the neurokinin 1 receptor desensitized significantly more (as measured by reduction of the inositol 1,4,5-trisphosphate response) when preexposed for 1 min to 1 µ M neurokinin, indicating a role for the carboxy-terminal region of the neurokinin 1 receptor in its desensitization. Measurement of receptor internalization using radiolabeled neurokinins (0.3 n M ) indicated that ∼75–80% of the receptors were internalized in each cell line after 10 min at 37°C, with no observable correlation between neurokinin receptor desensitization and internalization. Measurement of loss of receptor surface sites for cell lines CHO NK1 and CHO NK1NK2 following exposure to 1 µ M substance P also indicated no obvious relationship between the percent desensitization and percent of receptors internalized. Also, two inhibitors of neurokinin 1 receptor internalization, phenylarsine oxide and hyperosmolar sucrose, did not inhibit neurokinin 1 receptor desensitization. The protein kinase inhibitors Ro 31-8220, staurosporine, and Zn2+ had no effect on neurokinin 1 receptor desensitization, indicating that the kinases affected by these agents are not rate-limiting in neurokinin 1 receptor desensitization in this system. 相似文献
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Ronald J. Ash Gary A. Flynn Rob M.J. Liskamp Harry C.J. Ottenheijm 《Biochemical and biophysical research communications》1984,125(2):784-789
Sparsomycin, ScRs configuration, was the most potent of the four possible stereoisomers as a competitive inhibitor of peptide bond formation. In addition, the configuration of the two chiral centers dictated whether the compound exhibited time- and temperature-dependent inhibition of peptidyl transferase when incubated with polysomes prior to enzyme assay. The data corroborate the thesis that a peptidyl transferase-mediated acylation of the pivotal sulfoxide moiety and subsequent Pummerer rearrangement play a significant role in the inhibitory properties of sparsomycin. 相似文献
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We propose a model in which pattern formation is controlled by several concentration gradients of “morphogens” and by allosteric proteins which bind them. In this model, each protein can bind up to two molecules of each morphogen and has an “active state” when one molecule of each morphogen is bound. The concentration of the active state of such a “morphogen binding protein” varies with position in a way that depends on the values given the binding constants. In a contour map of the active state concentration, the contours can have a variety of simple shapes.Simply-shaped regions of cell differentiation can be defined directly by concentration contours of a morphogen binding protein using a threshold-sensing mechanism. More complex shapes may be generated using several proteins and a “winner-take-all” rule according to which each protein specifies some particular sort of cell differentiation and the differentiation of cells in any position is governed by the protein with the highest active state concentration.We present an application of our model to the vertebrate limb skeleton; we use the “winner-take-all” mechanism and thirteen morphogen binding proteins, eleven of which specify cartilage formation. In this model we use one morphogen binding protein to specify the shaft of a typical long bone and one for each epiphysis. Our model is reasonably successful in imitating the in vivo positions and orientations of developing bones and in generating simple, plausible-looking articular surfaces.In addition to the morphogen-binding model we propose a mechanism which could transform morphogen-binding patterns into high-amplitude patterns capable of controlling the activity of structural genes. This “amplifying mechanism” can account for two previously unexplained features of limb skeletal development: the early formation of the diffusely-bounded “scleroblastema” in the limb bud and the center-to-edge gradations in cartilage formation rate which are later seen within individual chondrification foci.A simple modification of the morphogen-binding model provides an explanation for the general anatomical phenomenon of metamerism: The model can account for the formation of inexactly repeating patterns (such as the pattern of the vertebral column) and suggests a mechanism by which such patterns could (1) evolve from exactly repeating patterns, and (2) acquire, in further evolution, a high degree of specialization of the individual repeating units.The most promising approach for testing the morphogen-binding model would appear to involve experiments in which cytoplasm is transferred between cells at various stages of pattern development. Support for the model could also come from the discovery of certain kinds of hereditary limb defects. 相似文献
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Treatment of methyl β-D-ribofuranoside with thionyl chloride in hexamethyl-phosphoric triamide gives two diastereoisomeric methyl 5-chloro-5-deoxy-β-D-ribo-furanoside 2,3-cyclic sulfites. Similar cyclic sulfites are formed from benzyl β-D-ribofuranoside and 1,4-anhydro-DL-ribitol. If acetonitrile is substituted for hexa-methylphosphoric triamide, the cyclic sulfites are the main products, and only traces of the chlorinated sugars are formed. 1H- and 13C-n.m.r.-spectral analysis of these reactions demonstrated that one of the diastereomers preponderates. The structure of these cyclic sulfites was established by comparison of the 1H-n.m.r. spectra with those of the propylene sulfites. Treatment of 1,2-O-isopropylidene-α-D-glucofuranose (14) with thionyl chloride in hexamethylphosphoric triamide yields 3-chloro-3-deoxy-1,2-O-isopropylidene-α-D-allofuranose 5,6-cyclic suffite. In contrast to the 2,3-cyclic suffites, which are stable, the cyclic sulfites derived from 14 slowly decompose at room temperature. 相似文献
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Eukaryotic initiation factors are found in the postribosomal supernatant as well as bound to the 40S ribosomal subunits. We have analyzed the factor activities from the supernatant by means of zonal centrifugation followed by Sepharose-heparin affinity chromatography. They exist both as free factors, sedimenting in a broad range from 4 to 7S, and complexed with other protein(s) with a sedimentation value of 16–20S. This complexed fraction contains besides eIF-2 another activity which exhibits a profound stimulation on amino acid incorporation in crude lysates and appears to counteract the heme-regulated inhibitor.Abbreviations eIF-2, eIF-3, eIF-4A and eIF-4B are eukaryotic initiation factors, see FEBS Letters 76, 1-10 (1977). 相似文献