Your search keyword '"Hubert François Gaertner"' showing total 3 results

1. Semisynthetic analogues of PSC-RANTES, a potent anti-HIV protein

Author

Robin E. Offord, Oliver Hartley, Hubert François Gaertner, Gabriel Kuenzi, and Paolo Botti

Subjects

Spectrometry, Mass, Electrospray Ionization, Stereochemistry, HIV Fusion Inhibitors/pharmacology, Thiazolidine, Biomedical Engineering, Pharmaceutical Science, Bioengineering, Hydrazide, Chemical synthesis, chemistry.chemical_compound, HIV Fusion Inhibitors, Microbicide, medicine, Peptide bond, Humans, Chromatography High Pressure Liquid, ddc:610, ddc:576, Chemokine CCL5, Chromatography, High Pressure Liquid, Pharmacology, Chemistry, Organic Chemistry, Combinatorial chemistry, Semisynthesis, Entry inhibitor, Hela Cells, Chemokine CCL5/chemistry/pharmacology, Spectrometry Mass Electrospray Ionization, Linker, Biotechnology, medicine.drug, HeLa Cells

Abstract

New HIV prevention methods are needed, and among those currently being explored are "microbicides", substances applied topically to prevent HIV acquisition during sexual intercourse. The chemokine analogue PSC-RANTES (N(alpha)(n-nonanoyl)-des-Ser(1)-[ L-thioprolyl(2), L-cyclohexylglycyl(3)]-RANTES(4-68)) is a highly potent HIV entry inhibitor which has shown promising efficacy in its initial evaluation as a candidate microbicide. However, a way must be found to produce the molecule by cheaper means than total chemical synthesis. Since the only noncoded structures are located at the N-terminus, a possible solution would be to produce a protein fragment representing all but the N-terminal region using low-cost recombinant production methods and then to attach, site specifically, a short synthetic fragment containing the noncoded N-terminal structures. Here, we describe the evaluation of a range of different conjugation chemistries in order to identify those with potential for development as economical routes to production of a PSC-RANTES analogue with antiviral activity as close as possible to that of the parent protein. The strategies tested involved linkage through oxime, hydrazone/hydrazide, and Psi[CH2-NH] bonds, as well as through a peptide bond obtained either by a thiazolidine rearrangement or by direct alpha-amino acylation of a protein fragment in which 4 of the 5 lysine residues of the native sequence were replaced by arginine (the fifth lysine is essential for activity). Where conjugation involved replacement of one or more residues with a linker moiety, the point in the main chain at which the linker was introduced was varied. The resulting panel of 22 PSC-RANTES analogues was evaluated for anti-HIV activity in an entry inhibition assay. The [Arg (25,45,56,57)] PSC-RANTES analogue has comparable potency to PSC-RANTES, and one of the oxime linked analogues, 4L-57, has potency only 5-fold lower, with scope for improvement. Both represent promising leads for development as microbicide compounds that could be produced at low cost via semisynthesis.

Published

2008

2. Site-specific attachment of functionalized poly(ethylene glycol) to the amino terminus of proteins

Author

Robin E. Offord and Hubert François Gaertner

Subjects

Threonine, Transamination, Stereochemistry, Neutrophils, Sialoglycoproteins, Biomedical Engineering, Pharmaceutical Science, Bioengineering, Dinoprostone, Polyethylene Glycols, Serine, chemistry.chemical_compound, Residue (chemistry), Structure-Activity Relationship, Polymer chemistry, Granulocyte Colony-Stimulating Factor, Animals, Humans, Cells, Cultured, Skin, Pharmacology, chemistry.chemical_classification, Binding Sites, Organic Chemistry, Interleukin-8, Periodate, Proteins, Polymer, Fibroblasts, Oxime, Hematopoietic Stem Cells, Peptide Fragments, Rats, Chemotaxis, Leukocyte, Interleukin 1 Receptor Antagonist Protein, chemistry, Indicators and Reagents, Ethylene glycol, Biotechnology, Protein Binding

Abstract

A convenient method for the construction of site-specifically modified poly(ethylene glycol)-protein conjugates is described. This method relies on the ability to generate a reactive carbonyl group in place of the terminal amino group. If the protein has N-terminal serine or threonine, this can be done by very mild periodate oxidation and generates a glyoxylyl group. A method less restricted by the nature of the N-terminal residue, but which requires somewhat harsher conditions, is metal-catalyzed transamination, which gives a keto group. The N-terminal-introduced reactive carbonyl group specifically reacts, under mild acidic conditions, with an aminooxy-functionalized poly(ethylene glycol) to form a stable oxime bond. Using polymers of different size and shape (linear or multibranched), various conjugates of IL-8, G-CSF, and IL-1ra were constructed and further characterized with respect to their biological activity and pharmacokinetic behavior in rats. Unlike most previous methods, this approach places a single PEG chain at a defined site on the protein. It should therefore be more likely to conserve biological activity when the latter depends on interaction with another macromolecule (unlike enzymic activity which often survives multiple PEGylation).

Published

1996

3. Site-specific religation of G-CSF fragments through a thioether bond

Author

David Timms, Hubert François Gaertner, Roger Camble, Robin E. Offord, Keith Rose, and Ronald Cotton

Subjects

Stereochemistry, Proteolysis, Recombinant Fusion Proteins, Molecular Sequence Data, Biomedical Engineering, Pharmaceutical Science, Bioengineering, Alkylation, Sulfides, Mass Spectrometry, law.invention, chemistry.chemical_compound, Hydroxylamine, Thioether, law, Granulocyte Colony-Stimulating Factor, medicine, Amino Acid Sequence, Pharmacology, medicine.diagnostic_test, Enzymatic digestion, Organic Chemistry, Acetylation, Peptide Fragments, Recombinant Proteins, Molecular Weight, chemistry, Iodoacetic anhydride, Recombinant DNA, Electrophoresis, Polyacrylamide Gel, Derivative (chemistry), Biotechnology

Abstract

A new approach is described for linking, through a thioether bond, the C-terminus of one unprotected polypeptide with the N-terminus of another. Homocysteine thiolactone is attached to the C-terminus of one polypeptide by reverse proteolysis and provides through hydroxylamine treatment a free sulfhydryl group. The alpha-amino group of a second polypeptide is selectively iodoacetylated by reaction with iodoacetic anhydride at pH 6.0 or the N-hydroxysuccinimide ester derivative at pH 7.0. Coupling of the two modified fragments occurs in a spontaneous alkylation reaction under mild conditions. After preliminary experiments with small peptides, this approach was extended to large protein fragments derived from recombinant analogs of G-CSF by enzymatic digestion. This approach provides a means of making head-to-tail protein chimeras or introducing noncoded structural elements into a protein.

Published

1994