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381.
Cultured monkey retinal pigment epithelial (RPE) cells rapidly secrete large amounts of insulin-like growth factor binding proteins (IGF-BPs). IGF-II tracer binding activity in conditioned media is two to three times greater than that of IGF-I. Under reducing SDS-PAGE conditions, 125I-IGF affinity-crosslinked binding protein (BP) is visualized as a broad band between 36 +/- 2.9 and 49 +/- 3.3 kDa. Because the electrophoretic mobility of the crosslinked BP is increased under non-reducing conditions (33-45 kDa), intramolecular sulfhydryl bonding may be present. Frequently, the radiographic band representing affinity-crosslinked binding protein exhibits a complex pattern of non-uniform densities that suggests structural or functional IGF-BP micro-heterogeneity. IGF-BPs synthesized by RPE also exhibit heterogeneity with respect to the absence or presence of oligosaccharide side chains. In particular, the larger, but not the mid-sized or smaller IGF-BPs exhibit side chains linked to the core protein with N-glycosidic linkage. None of the crosslinked IGF-BPs exhibit O-linked side chains. Long-term (12, 24, 48 hr) conditioning studies revealed that IGF-BP fails to accumulate in culture media beyond 12 hr, but that replacement of conditioned media with fresh media allows a second period of binding protein accumulation. Other short-term (12 hr) experiments indicate that, in fresh medium, the levels of IGF-BP increase during the first 6-8 hr and then remain stable. To examine the processes contributing to these steady state levels of IGF-BP, aliquots of 8-hr conditioned medium were removed from the cells and either frozen on dry ice or incubated at 37 degrees C for 16 hr. Importantly, it was found that incubation at 37 degrees C resulted in a near total loss of binding activity. This is the first report of IGF-BP degrading activity in a cell culture system. These findings indicate that 1) primate RPE cells rapidly secrete a complex mixture of N-glycosylated and non-glycosylated IGF-BPs, and 2) the steady state levels of secreted IGF-BP are tightly regulated at least in part through a concomitant IGF-BP inactivating activity. Cultured RPE cells may be of utility in examining the mechanisms of IGF-BP synthesis, secretion, and degradation at the cellular level. 相似文献
382.
Robert J. Waldbillig Bruce A. Pfeffer Timothy J. Schoen Alice A. Adler† Z. Shen-Orr Louis Scavo DerekLeRoith Gerald J. Chader 《Journal of neurochemistry》1991,57(5):1522-1533
The interphotoreceptor matrix (IPM), lying between retinal photoreceptor and pigment epithelial (RPE) cells, contains insulin-like growth factor I (IGF-I) immunoreactivity that co-elutes with authentic human IGF-I in HPLC analyses. Cultured human RPE cells synthesize and release IGF-I, raising the possibility that the RPE serves as a source of IPM IGF-I in vivo. Photoreceptor rod outer segments and cultured monkey RPE cells express specific IGF-I receptors with alpha-subunits of 120 and 138 kDa, respectively. They thus appear to be of the "brain" (in photoreceptors) and "peripheral" (in RPE cells) receptor subtypes. Additionally, the IPM contains high levels of an IGF binding protein (IGF-BP) that specifically binds IGF-I and IGF-II. The IPM-BP is visualized as a single radiographic band by both ligand blot and affinity cross-linking procedures. With enzymes specific for removing N- and O-linked oligosaccharides, the IPM-BP was found to contain O- but not N-linked glycosylated side chains. The distinctive size and glycosylation pattern of the IPM-BP indicate that it is not derived from the vitreous or serum but instead is synthesized locally. The presence of IGF-I and IGF-BP in the IPM, together with the presence of IGF-I receptors on both photoreceptor and RPE cells, suggests the presence of an outer retina autocrine-paracrine system. 相似文献
383.
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385.
Escherichia coli RNA polymerase holoenzyme bound to promoter sites on T7 DNA is attacked and inactivated by the polyanion heparin. The highly stable RNA polymerase-T7 DNA complex formed at the major T7 A1 promoter can be completely inactivated by treatment with heparin, as shown by monitoring the loss of activity of such complexes, and by gel electrophoresis of the RNA products transcribed. The rate of this inactivation is much faster than the rate of dissociation of RNA polymerase from promoter complexes, and thus represents a direct attack of heparin on the polymerase molecule bound at promoter A1. Experiments employing the nitrocellulose filter binding technique suggest that heparin inactivates E. coli RNA polymerase when bound to T7 DNA by directly displacing the enzyme from the DNA. RNA polymerase bound at a minor T7 promoter (promoter C) is much less sensitive to heparin attack than enzyme bound at promoter A1. Thus, the rate of inactivation of RNA polymerase-T7 DNA complexes by heparin is dependent upon the structure of the promoter involved even though the inhibitor binds to a site on the enzyme molecule. 相似文献
386.
The synthesis of mouse erythrocyte membrane proteins by Friend erythroleukemia cells during dimethyl sulfoxide-induced differentiation was studied. Untreated and dimethyl sulfoxide-treated cells were incubated with l-[3H] leucine and the incorporation of radioactivity into total trichloroacetic acid-insoluble proteins and into proteins immunoprecipitated with a multivalent rabbit antibody to mouse erythrocyte membranes was determined. The immunoprecipitated membrane proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and radioactivity was detected by fluorography. The incorporation of l-[3H]leucine into total cell proteins was linear for 20 min in both untreated and treated cells. Exposure of the cells to dimethyl sulfoxide had an inhibitory effect on protein synthesis, with a significant decrease noted on the fourth day of treatment and a continued decline occurring until the seventh day when protein synthesis was 42% that of untreated cells. The synthesis of erythrocyte membrane proteins was 0.49% that of total cell proteins in untreated cells, was increased to 1.27% by the third day of treatment and remained at about 1% of total protein synthesis from the fourth to the seventh day. Untreated cells synthesized low levels of spectrin, bands 5 and 6 proteins. Treatment with dimethyl sulfoxide caused a staggered increase in synthesis of a number of erythrocyte membrane proteins. Spectrin synthesis increased 4-fold by the third day of treatment and declined thereafter. The synthesis of membrane proteins with electrophoretic mobilities similar to bands 3 and 4 was increased 2–3-fold by the fourth day, while bands 6 and 5 proteins attained maximal synthesis (4-fold) on the fifth and sixth days of treatment. 相似文献
387.
A heat and caustic pretreatment process has been tested to determine the increase in gas yield that can be obtained from fermentation of organic municipal refuse. A treatment temperature of 130°C and a NaOH concentration of 3 g/100 g of dry solids resulted in the highest gas yield for the conditions tested. The probable increase in gas yield was 20% for the best conditions tested. The treatment procedure also substantially increased the rates of gas production. A high conversion efficiency is possible at much shorter reactor retention times with pretreatment than without pretreatment. 相似文献
388.
Abstract: This review focuses on the uptake and primary translocation of boron (B), as well as on the subcellular compartmentation of B and its role in cell walls of higher plants. B uptake occurs via passive diffusion across the lipid bilayer, facilitated transport through major intrinsic proteins (MIPs), and energy-dependent transport through a high affinity uptake system. Whereas the first two represent passive uptake systems, which are constitutively present, the latter is induced by low B supply and is able to establish a concentration gradient for B between the root symplasm and the external medium. At high B supply, a substantial retention of B can be observed at xylem loading, and passive processes are most likely responsible for that. At low B supply, another energy-dependent high affinity transport system for B seems to be induced which establishes an additional concentration gradient between root symplasm and the xylem. The possible significance of all these processes at various B supplies is discussed. The role of soluble B complexes in uptake and primary translocation of B has been evaluated, but the few data available do not allow comprehensive conclusions to be drawn. In any case, there are no indications that soluble B complexes play a major role in either uptake or primary translocation of B. The subcellular compartmentation of B still remains a matter of controversy, but it is unequivocally clear that B is present in all subcellular compartments (apoplasm, cell wall, cytosol and vacuole). The relative distribution of B between these is dependent on plant species and experimental conditions and may vary greatly. Recent results on the well-established role of B in cell walls are summarized and their physiological significance discussed. 相似文献
389.
The influence of soluble phenol concentration and polyphenoloxidase activity in leaves of both B‐deficient and B‐sufficient sunflower plants ( Helianthus annuus L. cv. Frankasol) on plasma membrane permeability was investigated, A study was also undertaken as to whether or not the incubation of B‐deficient leaves in ascorbate‐ and calcium‐containing solutions has a beneficial effect on plasma membrane integrity. Plants were cultivated under controlled environmental conditions with deficient and sufficient B supply and different light intensity to provoke changes in phenol metabolism. Analysis of membrane permeability (measured by potassium efflux), soluble phenol concentration and polyphenoloxidase (EC 1.10.3.1) activity of leaves showed that there was no correlation between these parameters. Furthermore, incubation in solutions containing ascorbate and calcium did not decrease the enhanced membrane permeability due to B deficiency, which could, however, be lowered by boric acid application. In summary, the results suggest that B does not maintain plasma membrane integrity by complexing phenols or inhibiting polyphenoloxidase activity, thereby preventing damage by oxygen free radicals. Ascorbate metabolism or calcium‐related disorders seem also not to be involved. It is therefore likely that B has a direct function at the membrane, possibly by stimulating membrane‐related enzymes, or in a structural role similar to that reported for the cell wall. 相似文献
390.
Peter J. Lammers Jeongwon Jun Jehad Abubaker Raul Arreola Anjali Gopalan Berta Bago Cinta Hernandez-Sebastia James W. Allen David D. Douds Philip E. Pfeffer Yair Shachar-Hill 《Plant physiology》2001,127(3):1287-1298
The arbuscular mycorrhizal (AM) symbiosis is responsible for huge fluxes of photosynthetically fixed carbon from plants to the soil. Lipid, which is the dominant form of stored carbon in the fungal partner and which fuels spore germination, is made by the fungus within the root and is exported to the extraradical mycelium. We tested the hypothesis that the glyoxylate cycle is central to the flow of carbon in the AM symbiosis. The results of (13)C labeling of germinating spores and extraradical mycelium with (13)C(2)-acetate and (13)C(2)-glycerol and analysis by nuclear magnetic resonance spectroscopy indicate that there are very substantial fluxes through the glyoxylate cycle in the fungal partner. Full-length sequences obtained by polymerase chain reaction from a cDNA library from germinating spores of the AM fungus Glomus intraradices showed strong homology to gene sequences for isocitrate lyase and malate synthase from plants and other fungal species. Quantitative real-time polymerase chain reaction measurements show that these genes are expressed at significant levels during the symbiosis. Glyoxysome-like bodies were observed by electron microscopy in fungal structures where the glyoxylate cycle is expected to be active, which is consistent with the presence in both enzyme sequences of motifs associated with glyoxysomal targeting. We also identified among several hundred expressed sequence tags several enzymes of primary metabolism whose expression during spore germination is consistent with previous labeling studies and with fluxes into and out of the glyoxylate cycle. 相似文献