Your search keyword '"Snouwaert J"' showing total 3 results

1. Analysis of the heterogeneity of the biological responses to native and mutant human interleukin-6.

Author

Krakauer T, Snouwaert JN, Fowlkes DM, and Krakauer H

Subjects

Animals, B-Lymphocytes drug effects, B-Lymphocytes metabolism, B-Lymphocytes microbiology, Cell Transformation, Viral physiology, Herpesvirus 4, Human, Humans, Immunoglobulin M biosynthesis, Interleukin-6 genetics, Kinetics, Liver cytology, Liver drug effects, Liver Neoplasms, Experimental drug therapy, Mutation, Rats, Stimulation, Chemical, Structure-Activity Relationship, Tumor Cells, Cultured drug effects, Interleukin-6 pharmacology

Abstract

The structure-function relationships of the biological activities of mutant varieties of the pleiotropic cytokine interleukin-6 (human) were measured by three assays: induction of immunoglobulin M (IgM) secretion from an Epstein-Barr virus-transformed human B cell line and induction of fibrinogen secretion from either a human hepatoma cell line or a rat hepatoma cell line. The biological effects of the cytokine were characterized by three parameters as determined by a novel analysis: effectiveness (the maximal response attainable), efficiency (the concentration yielding a half-maximal response), and complexity (a measure of heterogeneity and feedback control). Substitution of serine for cysteine was associated with a reduction in the effectiveness of interleukin-6 in both fibrinogen secretion assays. In the assay with human hepatoma cells, there was also a profound reduction in efficiency. Serine substitution in the human IgM synthesis assay appears mainly to reduce the efficiency. Deletion of amino acids 4 to 23 increased the efficiency in the rat hepatoma assay. The complexity parameter suggests the presence of multiple receptor classes or negative feedback in all three assays. Use of the proposed sequential approach to the analysis of dose-response relations in bioassays provides a more useful quantitative assessment of activities as well as more insight into the complexity of the reactions.

Published

1992

2. Role of disulfide bonds in biologic activity of human interleukin-6.

Author

Snouwaert JN, Leebeek FW, and Fowlkes DM

Subjects

Binding, Competitive, Cell Line, Cysteine chemistry, Escherichia coli genetics, Humans, Interleukin-6 genetics, Interleukin-6 physiology, Mutagenesis, Recombinant Proteins, Disulfides chemistry, Interleukin-6 chemistry

Abstract

We have examined the functional importance of the two disulfide bonds formed by the four conserved cysteines of human interleukin (IL-6). Using a bacterial expression system, we have synthesized a series of recombinant IL-6 mutants in which the constituent cysteines of the first (Cys45-Cys51), second (Cys74-Cys84), or both disulfide bonds of recombinant human interleukin-6 were replaced by other amino acids. Each mutant was partially purified and tested in four representative bioassays. While mutants lacking Cys45 and Cys51 retained activity similar to nonmutated recombinant IL-6, the activity of mutants lacking Cys74 and Cys84 was significantly reduced, especially in assays involving human cell lines. These results indicate that the first disulfide bond of human interleukin-6 is not required for maintenance of normal biologic activity. However, the fact that mutants lacking Cys45 and Cys51 were more active than corresponding cysteine-free mutants indicates that the disulfide bond formed by these residues contributes to biologic activity in the absence of the second disulfide bond. Competition binding studies with representative mutants indicate that their affinity for the human IL-6 receptor parallels their biologic activities on human cells.

Published

1991

3. Effects of site-specific mutations on biologic activities of recombinant human IL-6.

Author

Snouwaert JN, Kariya K, and Fowlkes DM

Subjects

Amino Acid Sequence, Animals, B-Lymphocytes cytology, Base Sequence, Biological Assay, Cell Differentiation, Cell Division, Chromosome Deletion, Cysteine physiology, Humans, Hybridomas cytology, Interleukin-6 genetics, Interleukin-6 physiology, Liver cytology, Mice, Molecular Sequence Data, Mutagenesis, Site-Directed, Rats, Recombinant Proteins pharmacology, Structure-Activity Relationship, Interleukin-6 chemistry

Abstract

To examine structure-activity relationships of human IL-6, we have determined the effects of specific mutations on the biologic activity of a human rIL-6 expressed in bacteria. Three types of mutants were examined: 1) a variant that contains serines in place of the four naturally occurring cysteines; 2) a series of cysteine-containing deletion mutants, each having a single internal 20 amino acid deletion; and 3) a cysteine-free variant containing a single 20 amino acid deletion. The mutants of the second type constitute a set of nonoverlapping, adjacent deletions spanning amino acids 4 through 183 of the 184 amino acids in natural human IL-6. All of the mutants were expressed, along with the full length, cysteine-containing analogue, in Escherichia coli as fusion proteins, joined to beta-galactosidase through a collagen linker. This system allows microgram quantities of the rIL-6 variants to be partially purified from small bacterial cultures without chromatographic or refolding steps. Each of the rIL-6 variants was released from the beta-galactosidase fusion protein with collagenase, and the recovered rIL-6 was quantitated by laser densitometry of Coomassie-stained, SDS polyacrylamide gels. The sp. ac. of each of the rIL-6 variants was determined using four assays: induction of IgM secretion from an EBV transformed human B cell line, induction of fibrinogen secretion from a human hepatoma cell line, induction of fibrinogen secretion from a rat hepatoma cell line, and induction of proliferation of a murine hybridoma cell line. Replacement of cysteines with serines reduced activity relative to cysteine-containing rIL-6 to about 20% in the rat hepatoma assay and about 3% in the mouse hybridoma assay, whereas activity in both of the human cell lines was reduced to less than 0.1%. These data suggest that the murine and rat cell lines are less selective than the human cell lines in their requirements for recognition of biologically active IL-6. Each of the deletions, except that of amino acids 4 through 23, resulted in loss of activity in all four assays. These results suggest that the information necessary for activity is not contained within any one portion of the IL-6 molecule, but rather that multiple segments of the protein are required for each of the biologic activities that we tested.

Published

1991