Structure-activity relationships in human interleukin-1 alpha: identification of key residues for expression of biological activities.

To identify the sites important for the different biological activities of human interleukin-1 alpha (hIL-1 alpha), 56 single-amino acid-substituted mutants of hIL-1 alpha were produced in Escherichia coli using site-directed mutagenesis, and were examined for their biological activities such as mouse lymphocyte activating factor activity (LAF activity), cytostatic activity against human melanoma cells A-375 (A375 activity) and prostaglandin E2 (PGE2) inducing activity in human osteosarcoma cells MG-63 (PEI activity). Two amino acid residues, Asp26 and Asp151, were found to be important for these activities. The replacement of Asp26 by Val caused a decrease in LAF and PEI activities by one or two orders of magnitude and a slight decrease in A375 activity. The Tyr or Phe substitution for Asp151 caused decreases in LAF and A375 activities by one or two orders of magnitude and complete loss of PEI activity. The change from Asp151 to Lys or Arg resulted in marked decrease in LAF activity and complete loss of A375 and PEI activities. Since Asp26 and Asp151 are close to each other in the three-dimensional structure, the region involving these amino acids seems to be important for the biological activities of hIL-1 alpha.     

Identification of an interleukin-15alpha receptor-binding site on human interleukin-15

To identify the epitopes in human interleukin-15 (IL-15) that are responsible for binding to the interleukin-15 receptor alpha chain, antibody and receptor mapping by peptide scanning and site-directed mutagenesis was used. By using peptide scanning, we identified four regions in IL-15. The first region ((85)CKECEELEEKN(95)) is located in the C-D loop and is recognized by a set of non-inhibitory antibodies. The second region ((102)SFVHIVQMFIN(112)) is located in helix D and is recognized by two antibodies that are inhibitory of IL-15 bio-activity but not of IL-15 binding to IL-15Ralpha. The two remaining regions react with a recombinant soluble form of the IL-15Ralpha; the first ((44)LLELQVISL(52), peptide 1) corresponds to a sequence located in the B-helix and the second ((64)ENLII(68), peptide 2) to a sequence located in helix C. The latter is also contained in the epitope recognized by an antibody (monoclonal antibody B-E29) that prevents IL-15 binding to IL-15Ralpha. By site-directed mutagenesis, we confirmed that residues present in peptide 1 (Leu-45, Glu-46, Val-49, Ser-51, and Leu-52) and peptide 2 (Leu-66 and Ile-67) are involved in the binding of IL-15 to IL-15Ralpha. Furthermore, the results presented indicate that residues in the second peptide (Glu-64, Asn-65, and Ile-68) participate in IL-2Rbeta recruitment. This finding could have implications for the dynamics of receptor assembly. These results also indicate that the modes of interaction of IL-15 and IL-2 with their respective alpha chains are not completely analogous. Finally, some of the IL-15 mutants generated in this study displayed agonist or antagonist properties and may be useful as therapeutic agents.     

Differential biological activities of human interleukin-1 alpha and interleukin-1 beta

We examined the biological effects induced by both human recombinant interleukin-1 alpha (IL-1 alpha) and beta (IL-1 beta) in five different cell types of human, rat and mouse origin. IL-1 alpha and beta preparations were standardized in terms of biological activity in the EL-4/CTLL bioassay and, in parallel, employed to stimulate PGE2 secretion in human fibroblasts, mesangial cells (MC), C57B1/6 mouse MC, DBA/2 mouse macrophages and Sprague Dawley rat MC. In addition, the co-mitogenic effects of IL-1 alpha and beta were determined in freshly prepared Sprague Dawley rat thymocytes. No significant differences in IL-1 alpha and beta concentration dependent PGE2 production were detectable in the different cell types (MC, fibroblasts and macrophages) of human or mouse origin. Incubation of Sprague Dawley rat MC with both IL-1 alpha and beta resulted in a concentration dependent production of PGE2. However, in contrast to mouse or human MC the potency of IL-1 beta to induce PGE2 in Sprague Dawley rat MC was 26-fold higher compared to IL-1 alpha. In addition, the potency of IL-1 beta to enhance co-stimulated proliferation of Sprague Dawley thymocytes was 200-fold higher than that of equal biological activities of IL-1 alpha. When we tested the additive effects on Sprague Dawley cells, increasing IL-1 beta concentrations added to a fixed IL-1 alpha concentration resulted in a cumulative rise in both, PGE2 secretion by MC and thymocyte proliferation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Identification of amino acid residues critical for biological activity in human interleukin-18

Interleukin-18 (IL-18) is a pro-inflammatory cytokine, and IL-18-binding protein (IL-18BP) is a naturally occurring protein that binds IL-18 and neutralizes its biological activities. Computer modeling of human IL-18 identified two charged residues, Glu-42 and Lys-89, which interact with oppositely charged amino acid residues buried in a large hydrophobic pocket of IL-18BP. The cell surface IL-18 receptor alpha chain competes with IL-18BP for IL-18 binding, although the IL-18 receptor alpha chain does not share significant homology to IL-18BP. In the present study, Glu-42 was mutated to Lys and Lys-89 to Glu; Glu-42 and Lys-89 were also deleted separately. The deletion mutants (E42X and K89X) were devoid of biological activity, and the K89E mutant lost 95% of its activity. In contrast, compared with wild-type (WT) IL-18, the E42K mutant exhibited a 2-fold increase in biological activity and required a 4-fold greater concentration of IL-18BP for neutralization. The binding of WT IL-18 and its various mutants to human natural killer cells was evaluated by competition assays. The mutant E42K was more effective than WT IL-18 in inhibiting the binding of (125)I-IL-18 to natural killer cells, whereas the three inactive mutants E42X, K89E, and K89X were unable to compete with (125)I-IL-18 for binding. Similarly, WT IL-18 and the E42K mutant induced degradation of Ikappa-Balpha, whereas the three biologically inactive mutants did not induce degradation. The present study reveals that Glu-42 and Lys-89 are critical amino acid residues for the integrity of IL-18 structure and are important for binding to cell surface receptors, for signal transduction, and for neutralization by IL-18BP.     

Specific residues within an amino-terminal domain of 35 residues of interferon alpha are responsible for recognition of the human interferon alpha cell receptor and for triggering biological effects

Bovine interferon alpha C (IFN-alpha C) manifest at least 10(5)-fold lower antiviral activity on human cells than on bovine cells (Velan, B., Cohen, S., Grosfeld, H., Leitner, M., and Shafferman, A. (1985) J. Biol. Chem. 260, 5498-5504). By oligonucleotide site-directed mutagenesis within the coding region for the NH2-terminal 44-residue domain of BoIFN-alpha C, we replaced up to 18 residues by the corresponding HuIFN-alpha J1 residues. (HuIFN-alpha J1 is less than 60% homologous in sequence to BoIFN-alpha C.) The nine different bovine-human-IFN alpha hybrids obtained were compared to BoIFN-alpha C and HuIFN-alpha J1 with respect to their potential to induce an antiviral state, synthesis of 2-5A-synthetase, and their specific binding to human and bovine cells. Relative to BoIFN-alpha C, a gradual increase in biological activities (antiviral or 2-5A-synthetase) of approximately 10-, 10(2)-, 10(3)-, and approximately 10(4)-fold is obtained, depending on the number and positions of the residues substituted. A direct correlation exists between biological response and ability of IFN alpha to bind specifically to human cells. A BoIFN alpha molecule mutated in the 10-44 NH2-terminal domain was obtained which is 15, 8, and 35% as active as HuIFN-alpha J1 on human cells in specific binding, induction of antiviral, and 2-5A-synthetase activities, respectively. We concluded that at least 5 of the 12 residues at positions 10; 21, 22, 24; 27; 31, 34, 35, 37, 40; 42, 43 in the 10-44 NH2-terminal domain are critical for recognition of the human IFN-alpha cell receptor and for biological activity. These residues are found among 10 strictly conserved residues in all reported mammalian IFN alpha S, and they act in a cooperative manner to induce a biological response in human cells. The gap between the extent of improvement in binding capacity of the BoIFN alpha mutants on human cells and the corresponding biological response suggests that the primary signal of binding to the cell receptor is amplified within the cell. On bovine cells, HuIFN-alpha J1 and BoIFN-alpha C also compete for the same receptor, and it seems that at least part of the 10-44 NH2-terminal domain on IFN alpha is also involved in interaction with the bovine IFN alpha cell receptor.     

Secretion of N-glycosylated human recombinant interleukin-1 alpha in Saccharomyces cerevisiae

We have expressed fragments of the cDNA coding for mature human interleukin-1 alpha (hIL-1 alpha) in Saccharomyces cerevisiae. Mature hIL-1 alpha contains one potential N-linked glycosylation site that is not recognized in mammalian cells. Translational fusions to either one of three yeast signal sequences resulted in secretion of bioactive, N-glycosylated hIL-1 alpha. The extent of glycosylation was significantly reduced using the alpha-factor signal sequence, which itself contains three N-linked glycosylation sites known to be core glycosylated. N-glycosylation has no effect on biological specific activity.     

Identification of amino-terminal pro-C-type natriuretic peptide in human plasma

We report the first identification of a circulating peptide from the amino-terminal end of proCNP. A specific radioimmunoassay was established based on antisera to the synthetic peptide proCNP(1-15). Extracts of plasma, drawn from patients with congestive heart failure or from sheep with experimental heart failure, were subjected to size exclusion and reverse-phase high-pressure liquid chromatography (HPLC) coupled to radioimmunoassay (RIA). These studies revealed the presence of an immunoreactive peptide with a molecular weight (M(r) approximately 5 kDa) similar to that expected for NT-proCNP(1-50), a potential fragment released during processing of pro(CNP). The same material was isolated from extracts of homogenized ovine pituitary, a tissue known to be a relatively enriched source of CNP. Plasma NT-proCNP levels in 22 patients with congestive heart failure (9.7 +/- 0.5 pmol/L, mean +/- SEM, range 5.4-13.7 pmol/L) were raised (P = 0.003) compared to those in 16 healthy volunteers (7.4 +/- 0.3 pmol/L, range 5.7-10.7 pmol/L) and were higher than levels reported for CNP in similar subjects. This first identification of circulating NT-proCNP opens the possibility of studying the factors regulating CNP production and metabolism in vivo.     

Progesterone binding to the tryptophan residues of human alpha1-acid glycoprotein

Binding studies between progesterone and alpha1-acid glycoprotein allowed us to demonstrate that the binding site of progesterone contains one hydrophobic tryptophan residue and that the structure of the protein is not altered upon binding. The data obtained at saturated concentrations of progesterone clearly reveal the type of interaction at physiological levels.     

Cell surface expression of hybrid murine/human MHC class II beta alpha dimers. Key influence of residues in the amino-terminal portion of the beta 1 domain

To aid in the identification of key residues responsible for the control of class II MHC beta-alpha dimer assembly and expression, a series of cotransfections of human plus mouse beta- and alpha-genes was performed. The resulting expression data were correlated with the sequences of the relevant proteins to identify residues that played critical roles in these processes. For the I-E/DR homologues good expression was seen for both E beta DR alpha and DR beta E alpha combinations involving several allelically variable beta-chains of each species. These results are consistent with the sequence conservation seen for I-E and DR gene products, and indicate that the species-specific differences that do exist play little role in controlling dimer formation or transport. For A beta chains, a more complex picture was seen. A beta d, but not A beta k or A beta b, was found to coexpress with human alpha-chains. Not only did A beta d show expression with the homologous DQ alpha-chain, but it also was expressed with DR alpha and DP alpha. These data indicate that species-specific residues do not control dimer expression under these conditions and confirm that allelically polymorphic residues have a crucial role in this process. Mapping studies using recombinant A beta genes established the importance of the residues in the amino-terminal half of the beta 1 domain in the differences observed among the A beta alleles. Sequence comparison of DR beta, DP beta, DQ beta, E beta, and A beta chains in this region revealed a single residue (position 12) conserved in most chains and differing in a nonconservative fashion between A beta d vs A beta b or k. A beta d has the conserved lysine at this position, whereas A beta b has methionine and A beta k has glutamine. To test whether this residue actually was important physiologically, a lysine codon was created in a recombinant A beta gene possessing the amino-terminal sequence of the kappa haplotype, and the ability of this mutant chain to be expressed with various mouse A alpha-chains was examined. This mutant chain was shown to gain the ability to be efficiently expressed with A alpha d without losing its ability to be expressed with A alpha k. These data reemphasize the special role played by allelically polymorphic residues in Ia expression and identify one such polymorphic site as position 12.(ABSTRACT TRUNCATED AT 400 WORDS)     

Purification and characterization of human interleukin-1 alpha produced in Escherichia coli

The production of human interleukin-1 alpha (IL-1 alpha) in Escherichia coli is described together with a method for its purification. The isolated protein was shown to be pure and physically homogeneous. The in vitro biological activity of IL-1 alpha was tested with the mononuclear-cell factor and the lymphocyte-activating factor assays. The specific activity determined with both assays was about 3 X 10(7) units mg-1 and is similar to that observed with recombinant human IL-1 beta. The purified protein was resolved by chromatofocusing into two species of isoelectric points 5.45 and 5.20 (75% and 25%, respectively, of the total protein). Both species had similar chemical properties and biological activities to the unfractionated protein. The charge difference between the species was attributed to the deamidation of a single Asn or Gln residue.     

丙型肝炎病毒高变区1中介导感染的关键氨基酸残基鉴定

丙型肝炎病毒( HCV)包膜E2蛋白氨基端的高变区1(HVR1)由27个氨基酸组成,是HCV蛋白中变异频率最高的肽段.HVR1含中和抗体表位,同时对HCV细胞侵入起重要作用,其结构与功能的关系目前尚不清楚.本研究对H77株包膜蛋白基因中的HVR1进行了一系列缺失突变,然后将突变体表达质粒与假病毒包装质粒共转染人胚肾(H...     

Identification of effector-activating residues of Gs alpha.

The heterotrimeric G proteins transduce extracellular signals by interacting with specific intracellular effectors. We have used a scanning mutagenesis approach to identify amino acids of alpha S, the alpha subunit of Gs, that determine the specificity of its interaction with its effector, adenylyl cyclase. In alpha subunit chimeras, residues 236-356 of alpha S comprise the shortest linear stretch that is required for activation of adenylyl cyclase. Within these 121 residues, we identified four clusters of residues in which substitutions prevented effector activation. Mutations in three of these regions did not affect alpha subunit expression or the GTP-induced conformational change. The identified alpha S residues in the NH2-terminal half of the 121-residue region endowed the cognate alpha i2 segment with the ability to activate effector, while those in the COOH-terminal half did not. In a three-dimensional G alpha model, based on the structure of p21ras, the effector-activating residues of alpha S form a surface on the membrane-facing side of the molecule; this surface includes a region that changes conformation upon binding GTP.     

Identification of the key residues determining the product specificity of isomerohydrolase

The efficient recycling of the chromophore of visual pigments, 11-cis-retinal, through the retinoid visual cycle is an essential process for maintaining normal vision. RPE65 is the isomerohydrolase in retinal pigment epithelium and generates predominantly 11-cis-retinol (11cROL) and a minor amount of 13-cis-retinol (13cROL), from all-trans-retinyl ester (atRE). We recently identified and characterized novel homologues of RPE65, RPE65c, and 13-cis-isomerohydrolase (13cIMH), which are expressed in the zebrafish inner retina and brain, respectively. Although these two homologues have 97% identical amino acid sequences, they exhibit distinct product specificities. Under the same assay conditions, RPE65c generated predominantly 11cROL, similar to RPE65, while 13cIMH generated exclusively 13cROL from atRE substrate. To study the impacts of the key residues determining the isomerization product specificity of RPE65, we replaced candidate residues by site-directed mutagenesis in RPE65c and 13cIMH. Point mutations at residues Tyr58, Phe103, and Leu133 in RPE65c resulted in significantly altered isomerization product specificities. In particular, our results showed that residue 58 is a primary determinant of isomerization specificity, because the Y58N mutation in RPE65c and its reciprocal N58Y mutation in 13cIMH completely reversed the respective enzyme isomerization product specificities. These findings will contribute to the elucidation of molecular mechanisms underlying the isomerization reaction catalyzed by RPE65.     

Identification of the key residues responsible for the assembly of selenodeiodinases

Type I deiodinase is the best characterized member of a small family of selenoenzymes catalyzing the bioactivation and disposal of thyroid hormone. This enzyme is an integral membrane protein composed of two 27-kDa subunits that assemble into a functional enzyme after translation using a highly conserved sequence of 16 amino acids in the C-terminal half of the polypeptide, (148)DFLXXYIXEAHXXDGW(163). In this study, we used alanine scanning mutagenesis to identify the key residues in this domain required for holoenzyme assembly. Overexpression of sequential alanine-substituted mutants of a dimerization domain-green fluorescent protein fusion showed that sequence (152)IYI(154) was required for type I enzyme assembly and that a catalytically active monomer was generated by a single I152A substitution. Overexpression of the sequential alanine-substituted dimerization domain mutants in type II selenodeiodinase-expressing cells showed that five residues ((153)FLIVY(157)) at the beginning and three residues ((164)SDG(166)) at the end of this region were required for the assembly of the type II enzyme. In vitro binding analysis revealed a free energy of association of -60 +/- 5 kJ/mol for the noncovalent interaction between dimerization domain monomers. These data identify and characterize the essential residues in the dimerization domain that are responsible for the post-translational assembly of selenodeiodinases.     

Radioprotection of the intestinal crypts of mice by recombinant human interleukin-1 alpha

Recombinant human interleukin-1 alpha (rHIL-1 alpha or IL-1) protected the intestinal crypt cells of mice against X-ray-induced damage. The survival of crypt cells measured in terms of their ability to form colonies of regenerating duodenal epithelium in situ was increased when IL-1 was given either before or after irradiation. The maximum degree of radioprotection was seen when the drug was given between 13 and 25 h before irradiation. The IL-1 dose producing maximum protection was about 6.3 micrograms/kg. This is the first report indicating that the cytokine IL-1 has a radioprotective effect in the intestine. The finding suggests that IL-1 may be of potential value in preventing radiation injury to the gut in the clinic.     

Identification of an interleukin-1 beta binding protein in human plasma

A covalent cross-linking technique was used to bind iodinated interleukin-1 (IL1) alpha and beta to plasma proteins. One specific IL1 beta binding protein was observed, that when cross-linked to ¹²⁵I-ILl beta migrated to approximately 60 kDa on SDS-PAGE. The protein did not bind IL1 alpha. The 43 -kDa protein was partially purified using a wheat germ agglutinin affinity column. The isolated factor again specifically bound IL1 beta, and appeared to consist of single chain glycoprotein. The protein was heat stable and had a rapid association time with IL1 beta. This protein may be an important carrier molecule for IL1 beta in vivo.     

Identification of key amino acid residues in Neisseria polysaccharea amylosucrase

Amylosucrase from Neisseria polysaccharea catalyzes the synthesis of an amylose-like polymer from sucrose. Sequence alignment revealed that it belongs to the glycoside hydrolase family 13. Site-directed mutagenesis enabled the identification of functionally important amino acid residues located at the active center. Asp-294 is proposed to act as the catalytic nucleophile and Glu-336 as general acid base catalyst in amylosucrase. The conserved Asp-401, His-195 and His-400 residues are critical for the enzymatic activity. These results provide strong support for the predicted close structural and functional relationship between the sucrose-glucosyltransferases and enzymes of the alpha-amylase family.