Florence Lederer

The cytochrome b5-fold: An adaptable module

The family of b5-like cytochromes encompasses, besides cytochrome b5 itself, hemoprotein domains covalently associated with other redox proteins, in flavocytochrome b2 (L-lactate dehydrogenase), sulfite oxidase and assimilatory nitrate reductase. A comparison of about 40 amino acid sequences deposited in data banks shows that eight residues are invariant and about 15 positions carry strongly conservative substitutions. Examination of the location of these invariant and conserved positions in the light of the three-dimensional structures of beef cytochrome b5 and S cerevisiae flavocytochrome b2 suggests a strongly conserved protein structure for the b5-like heme-binding domain throughout evolution. Numerous NMR studies have demonstrated the existence of a positional isomerism for the heme, which involves both a 180 degree-rotation around the heme alpha,gamma-meso carbon atoms and a rotation through an axis normal to the heme plane at the iron. NMR studies did not detect significant differences in protein structure between reduced and oxidized states, or between species. The role of a number of side chains was probed by site-directed mutagenesis. Studies of complex formation and of electron transfer rates between cytochrome b5 and redox partners have led to the idea that complexation is driven by electrostatic forces, that it is generally the exposed heme edge which makes contact with electron donors and acceptors, but that there are multiple overlapping sites within this general area. For the bi- and trifunctional members of the family, extrapolation of available data would suggest a mobile heme-binding domain within a complex structure. In these cases the existence of a single interaction area for both electron donor and acceptor, or of two different ones, remains open to discussion.

Protein methylation and protein methylases in Leishmania donovani and Leishmania tropica promastigotes

We studied the content of acid-stable methylated amino acids of soluble proteins in promastigotes of Leishmania donovani and L. tropica. epsilon-N-Trimethyllysine and NG,NG-dimethylarginine were found in both Leishmania species after culture in the presence of [methyl-14C]methionine. In addition, 3-N-methylhistidine was found only in L. tropica and epsilon-N-dimethyllysine only in proteins of L. donovani. As sinefungin, an antileishmanial nucleoside antibiotic, is a known transmethylase inhibitor, its effect on protein methylation was studied, in whole cells and in vitro. In the first case the drug had no effect on the content of methylated amino acid residues of soluble proteins. In vitro, histone methylation by crude extracts was studied at pH 7.2 and 9.0, known in other organisms as optimum pH values for arginine and lysine methylation, respectively. Surprisingly, arginine methylation by extracts of L. donovani was the same at both pH values while lysine residues were more efficiently methylated at pH 7.2 than at pH 9 by the extracts of the two species. These results indicate that the properties of protein methylases I and III of these parasites are different from those of other organisms hitherto studied. The inhibition constants of sinefungin for the leishmanial protein methylases were weak in comparison with those for enzymes from other sources, with the exception of the constant of L. donovani enzyme at pH 9.

Mutation to glutamine of histidine 373, the catalytic base of flavocytochrome b2 (L-lactate dehydrogenase)

Flavocytochrome b2 catalyzes the two-electron oxidation of L-lactate. Reducing equivalents are transferred first to FMN then to heme b2 in the same subunit, finally to cytochrome c or a non-physiological acceptor. The enzymes three-dimensional structure, when analyzed in the light of existing mechanistic knowledge, suggested that His 373 is the active site base which initiates the substrate chemical transformation by abstracting the lactate alpha-proton. We report here the properties of a mutant enzyme with glutamine substituted histidine at position 373. The mutated enzyme preparations show a 10(4)-fold decrease in catalytic activity. We find that most of this residual activity can be eliminated by treatments with: 1) fluoropyruvate, an affinity label for His 373; and 2) 2- hydroxy-3-butynoate, a suicide reagent which normally forms an adduct with FMN but in this case leaves the bulk of the prosthetic group intact. Furthermore, although spectral titrations do not detect any binding of oxalate, this reagent inhibits the mutant enzyme with the same kinetic behaviour as for the wild-type enzyme. We conclude that the enzyme preparations contain about 1 in 10(4) molecules of wild-type flavocytochrome b2; this is probably due to codon misreading during biosynthesis. Thus the H373Q enzyme displays at most 10(5)-fold less activity than the wild-type enzyme. We report values for the spectrally determined binding constants of sulfite, pyruvate and D-lactate for the mutant enzyme. Finally, we show that 2,6-dichlorophenol indophenol, which is a 10-fold more sensitive routine electron acceptor than ferricyanide, accepts electrons only from heme b2 and not from the flavin.

Behaviour of human immunoglobulin G subclasses on thiophilic gels : comparison with hydrophobic interaction chromatography

We have used thiophilic and hydrophobic interaction chromatography in an attempt to obtain enriched human immunoglobulin G (IgG) subclasses from a therapeutic immunoglobulin preparation. Proteins were adsorbed on a thiophilic gel and on Phenyl-, Butyl-, or Octyl-Sepharose in 1 M ammonium sulphate. Elution with a decreasing salt gradient produced no marked subclass selectivity, except with Octyl-Sepharose, which yielded a poorly adsorbed fraction somewhat enriched in IgG2, representing ca. 20% of the total initial protein. Neither thiophilic nor hydrophobic interaction chromatography appear suitable for an efficient enrichment in subclasses, which all show a broad heterogeneity in their affinity for these columns. The influence of the starting salt concentration was also studied. With thiophilic gels, in the absence of ammonium sulphate, ca. 30% of the initial load was not absorbed, and was found to be enriched in IgG2. At 2.5 and 5% ammonium sulphate, practically no adsorption occurred. At 7.5% ammonium sulphate, the non-adsorbed fraction was enriched in IgG3. With Phenyl-Sepharose, adsorption increased smoothly with the salt concentration. It is concluded that different forces come into play for absorption on thiophilic gels at low and high salt concentration.

Characterization of insulin degradation products generated in liver endosomes: In vivo and in vitro studies

The degradation products generated from A14 and B26 125I-labelled insulins in liver endosomes in vivo and in vitro have been isolated by high-performance liquid chromatography and cleavages in the B chain have been identified by automated radiosequence analysis. In rats sacrificed various times after injection of each of the 125I-labelled insulins, two major degradation products slightly less hydrophobic than intact iodoinsulins were identified; these accounted, at 8 min. for about 45% (A14 125I-labelled insulin) and 15% (B26 125I-labelled insulin) of the total radioactivity recovered, respectively. The products generated from A14 125I-labelled insulin contained an intact A chain, whereas those generated from B26 125I-labelled insulin contained a B chain cleaved at the B16-B17 bond. With B26 125I-labelled insulin, two minor products, with cleavages at the B23-B24 and B24-B25 bonds, were also observed. In vivo chloroquine treatment did not alter the nature but caused a decrease in the amount of insulin degradation products associated with endosomes. When endosomal fractions isolated from iodoinsulin injected rats were incubated at 30 degrees C in isotonic KCl, a rapid degradation of iodoinsulin, maximal at pH 6, was observed. With A14 125I-labelled insulin, the two major degradation products identified in vivo were generated along with monoiodotyrosine, but with B26 125I-labelled insulin monoiodotyrosine was the main product formed. Addition of ATP, presumably by decreasing the endosomal pH, shifted the medium pH for maximal iodoinsulin degradation to about 7-8. These studies have allowed a direct identification of two previously suggested cleavage sites in the B chain. They have also shown that the degradation products generated in cell-free endosomes under conditions that promote endosomal acidification are similar to those identified in vivo.

Production of biologically active thymulin in Escherichia coli through expression of a chemically synthesized gene

SummaryA synthetic gene coding for thymulin was ligated into an expression vector (pJB 1301) and placed under lac operon control. In the recombinant clones, thymulin was expressed as part of a β galactosidase chimeric protein which was then cleaved by cyanogen bromide. Thymulin was purified using various chromatography systems including gel filtration and HPLC, and was detected by radioimmunoassay (RIA). In the biological assay the purified recombinant peptide demonstrated the same zinc dependency as natural thymulin and had the same amino acid composition and primary structure.

Invertase fromOpuntia ficus-indica fruits

Abstract A 100-fold purification of acid β-fructofuranosidase activity (optimum pH 4.5) was obtained from Opuntia ficus-indica fruits using ion exchange (DEAE-Sephadex A50) and affinity (concanavalin-A) column chromatography. The purified enzyme is a glycoprotein from its ability to bind the lectin concanavalin-A. SDS polyacrylamide gel electrophoresis resolved one major diffuse band at 54000. This band exhibited invertase activity in the native gel. The enzyme was stable between pH 5 and 7 and exhibited high sensitivity to Hg 2+ . Thermal inactivation appeared biphasic. A saturable protection effect against thermal inactivation was afforded by glucose.

Purification of Microsomal Native Cytochrome b5 fromPotato Tubers (Solanum tuberosum L.)

Summary Detergent-solubilized cytochrome b 5 from potato tuber microsomes was purified in its native form to aspecific content of 25.8 nmol per mg of protein, by using a combination of conventional and high performance (FPLC) chromatography. The highly purified cytochrome bs has an apparent molecular mass of 17 kDa on SDS-PAGE.

Polymeric analogues of N-formyl peptides are potent activators of degranulation and superoxide production by human neutrophils

Analogues of N-formyl methionyl leucyl phenylalanine possessing three and four peptide units grafted onto an inert carbon skeleton were tested as activators of human polymorphonuclear leukocytes. For the two responses studied, degranulation and respiratory burst, the polymeric analogues showed two maxima of activity, one at the same concentration as the monomer, the other one at a concentration 100- to 1000-fold lower. The potency of the polymers with respect to the monomer is discussed in terms of receptor clustering. The similarity of the dose-response curves for superoxide production and lysozyme secretion indicates that the early transmembrane signalling events are identical for the two responses studied.