Circular dichroism and crosslinking studies of the interaction between four neurotrophins and the extracellular domain of the low-affinity neurotrophin receptor. D E Timm,A H Ross,K E Neet Protein science : a publication of the Protein Society
3
1993
Kivonat megmutatása
Interactions between the purified recombinant receptor extracellular domain (RED) of the human low-affinity neurotrophin receptor (LANR) and recombinant human brain-derived neurotrophic factor, neurotrophin-3 (NT-3) and neuotrophin-4/5 have been studied by chemical crosslinking and circular dichroism. Conformational changes subsequent to binding have been shown by these procedures. First, relative affinities of the neurotrophins for RED were determined by binding competition assays in which radioiodinated nerve growth factor (NGF) from mouse submaxillary gland was crosslinked to RED in the presence of varying amounts of unlabeled neurotrophin competitors. RED bound each of the 3 recombinant human neurotrophins with affinities that were indistinguishable from authentic mouse NGF. These results are the first measurement of binding of the neurotrophin family to their common receptor using purified components. In order to study the effect of binding on the conformation of the proteins, CD measurements were made before and after mixing neurotrophins and RED, as had previously been done with NGF and RED (Timm DE, Vissavajjhala P, Ross AH, Neet KE, 1992, Protein Sci 1:1023-1031). Similar changes in CD spectra occurred upon combination of each of the neurotrophins and RED, with negative changes near 220-225 nm and positive changes near 190-200 nm; however, significant differences existed among the various neurotrophin-RED difference spectra. The NT-3/RED complex showed the largest spectral change and NGF the smallest. Thus, specific conformational changes in secondary structure of neurotrophin, RED, or both accompany the binding of each neurotrophin to the extracellular domain of the LANR. Teljes cikk | 8019416
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Milacemide effects on the temporal inter-relationship of amino acids and monoamine metabolites in rat cerebrospinal fluid. J Semba,P N Patsalos European journal of pharmacology
230
1992
Kivonat megmutatása
The temporal inter-relationship of various amino acids and monoamine metabolites in rat cerebrospinal fluid was examined after acute administration of milacemide (100, 200 or 400 mg/kg i.p.), a glycine prodrug. Glycine concentrations rose linearly and dose dependently (20-190%) but were only significantly elevated at the higher milacemide dose (200 and 400 mg/kg). In animals given 400 mg/kg, glycine values were still significantly elevated 8 h later. A concomitant increase (20-25%) in serine and taurine and a decrease in alanine cerebrospinal fluid values were observed at the highest milacemide dose. Other amino acids were unaffected. While cerebrospinal fluid 5-hydroxyindoleacetic acid concentrations were unaffected, the dopamine metabolites, 3,4-dihydroxyphenylacetic acid and homovanillic acid, exhibited a linear dose-dependent reduction. However, only homovanillic acid values were significantly decreased after 400 mg/kg milacemide. Cerebrospinal fluid analysis may be useful as a first screen in ascertaining putative neurochemical changes associated with drug administration. | 8440309
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Chromatographic purification of the chloroplast ATP synthase (CF0-CF1) and the role of CF0 subunit IV in proton conduction. Y Feng,R E McCarty The Journal of biological chemistry
265
1990
Kivonat megmutatása
Chromatographic procedures were developed to purify chloroplast ATP synthase (CF0-CF1) in large amounts and to resolve subunits from this enzyme. The ATP synthase thus obtained has high ATP-Pi exchange and Mg2(+)-ATPase activities upon incorporation into asolectin liposomes. The purity of this preparation was about 95%. By modifications of this chromatographic procedure, we purified subunit IV-deficient CF0-CF1, subunit IV-deficient CF0, and subunit IV. Both ATP-Pi exchange and Mg2(+)-ATPase activities were impaired by depletion of subunit IV from CF0-CF1. Partial restoration of these activities was obtained by reconstituting subunit IV-deficient CF0-CF1 with subunit IV. The impairment of these activities was likely caused by a loss in proton conductivity of CF0 upon removal of subunit IV. The dicyclohexylcarbodiimide-sensitive Mg2(+)-ATPase of subunit IV-deficient CF0-CF1 was not as sensitive to the depletion of subunit IV as ATP-Pi exchange. Nearly 90% of subunit IV could be removed, but Mg2(+)-ATPase activity was inhibited by only 40-60%. Thus subunit IV of CF0-CF1 may not participate directly in proton transfer but may have a role in organizing and/or stabilizing CF0 structure. | 2142687
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