1549 results about "Glycosyl" patented technology

The present invention provides conjugates between erythropoietin and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

The invention includes methods and compositions for remodeling a peptide molecule, including the addition or deletion of one or more glycosyl groups to a peptide, and / or the addition of a modifying group to a peptide.

The present invention provides conjugates between erythropoietin and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

The invention includes methods and compositions for remodeling a peptide molecule, including the addition or deletion of one or more glycosyl groups to a peptide, and / or the addition of a modifying group a peptide.

The present invention provides conjugates between Factor IX and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

The present invention provides polypeptides that include an O-linked glycosylation site that is not present in the wild-type peptide. The polypeptides of the invention include glycoconjugates in which a species such as a water-soluble polymer, a therapeutic agent of a biomolecule is covalently linked through an intact O-linked glycosyl residue to the polypeptide. Also provided are methods of making the peptides of the invention and methods, pharmaceutical compositions containing the peptides and methods of treating, ameliorating or preventing diseased in mammals by administering an amount of a peptide of the invention sufficient to achieve the desired response.

The invention includes methods and compositions for remodeling a peptide molecule, including the addition or deletion of one or more glycosyl groups to a peptide, and / or the addition of a modifying group of peptide.

The present invention provides IFN-α conjugates including IFN-α peptides and modifying groups such as PEG moieties. The IFN-α peptide and modifying group are linked via an intact glycosyl linking group interposed between and covalently attached to the IFN-α peptide and the modifying group. The IFN-α conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar onto an amino acid or a glycosyl residue on the IFN-α peptide. Also provided are methods for preparing the IFN-α conjugates, methods for treating various disease conditions with the IFN-α conjugates, and pharmaceutical formulations including the IFN-α conjugates.

The present invention provides polypeptide conjugates wherein a modifying group such as a water-soluble polymer, a therapeutic agent or a biomolecule is covalently linked to the polypeptide through a glycosyl linking group. In one embodiment, the polypeptide includes a glycosylation consensus sequence, wherein glycosylation occurs at an aromatic amino acid residue, such as the C-2 or the N-1 position of a tryptophan side chain. Exemplary polypeptides of the invention are those in which the glycosylation consensus sequence has been introduced into the amino acid sequence of the polypeptide by mutation. In another aspect the invention provides polypeptide conjugates wherein the modifying group is covalently linked to the polypeptide via a glycosyl mimetic linking group. Also provided are methods of making and using as well as pharmaceutical compositions containing the polypeptide conjugates of the invention. Further provided are methods of treating, ameliorating or preventing diseases in mammals by administering an amount of a polypeptide conjugate of the invention sufficient to achieve the desired response.

The present invention provides conjugates between follicle stimulating hormone and PEG moieties. The conjugates are linked via an intact glycosyl linking group that is interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from both glycosylated and unglycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto either an amino acid or glycosyl residue on the peptide. Also provided are pharmaceutical formulations including the conjugates. Methods for preparing the conjugates are also within the scope of the invention.

This invention relates to a composition suitable for use in the prevention of opportunistic infections in immune-compromised individuals comprising a probiotic Bifidobacterium lactis, Bifidobacterium infantis, Bifidobacterium breve or Bifidobacterium longum and a fucosylated oligosaccharide selected from the group comprising 2′-fucosyllactose, 3′fucosyllactose, difucosyllactose, lacto-N-fucopentaose, lacto-N-fucohexaose, fucosyllacto-N-hexaose and fucosyllacto-N-neohexaose. The invention further extends to the use of such a composition in the prevention of opportunistic infections in immune-compromised individuals.

The invention includes methods and compositions for remodeling a peptide molecule, including the addition or deletion of one or more glycosyl groups to a peptide, and / or the addition of a modifying group to a peptide.

The invention includes methods and compositions for forming peptide conjugates intracellularly having a covalent linkage between a modifying group and a glycosylated or non-glycosylated peptide. The modifying group is conjugated to the peptide via a glycosyl linking group interposed between and covalently linked to both the peptide and the modifying group.

The present invention provides conjugates between Factor IX and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

The present invention provides peptide conjugates that are formed between a modified lipid and a glycosyl residue and / or an amino acid residue on a peptide. The modified lipid includes a modifying group and a lipid linking group. Exemplary lipid linking groups include myristoyl, palmitoyl, and isoprenyl moieties.

A method of conjugating peptides and proteins by means of glycosyltransferase is provided.

The present invention provides conjugates between a substrate, e.g., peptide, glycopeptide, lipid, etc., and a modified saccharyl fragment bearing a modifying group such as a water-soluble polymer, therapeutic moiety or a biomolecule. The conjugates are linked via the enzymatic conversion of the activated modified saccharyl fragment into a glycosyl linking group that is interposed between and covalently attached to the substrate and the modifying group. The conjugates are formed from substrates by the action of a sugar transferring enzyme, e.g., a glycosyltransferase. For example, when the substrate is a peptide, the enzyme conjugates a modified saccharyl fragment moiety onto either an amino acid or glycosyl residue of the peptide. Also provided are pharmaceutical formulations that include the conjugates. Methods for preparing the conjugates are also within the scope of the invention.

The present invention provides polypeptides that include an O-linked glycoconjugate in which a species such as a water-soluble polymer, a therapeutic agent of a biomolecule is covalently linked through an intact O-linked glycosyl residue to the polypeptide. The polypeptides of the invention include wild-type peptides and mutant peptides that include an O-linked glycosylation site that is not present in the wild-type peptide. Also provided are methods of making the peptides of the invention and methods, pharmaceutical compositions containing the peptides and methods of treating, ameliorating or preventing diseased in mammals by administering an amount of a peptide of the invention sufficient to achieve the desired response.

The present invention provides polypeptides that include an O-linked glycosylation site that is not present in the wild-type peptide. The polypeptides of the invention include glycoconjugates in which a species such as a water-soluble polymer, a therapeutic agent of a biomolecule is covalently linked through an intact O-linked glycosyl residue to the polypeptide. Also provided are methods of making the peptides of the invention and methods, pharmaceutical compositions containing the peptides and methods of treating, ameliorating or preventing diseased in mammals by administering an amount of a peptide of the invention sufficient to achieve the desired response.

Disclosed is an invention concerning triazolyloligosaccharides, oligosaccharides wherein the bonding between the saccharide groups is via a triazole group and methods for their preparation.

The invention provides methods for treating or decreasing the likelihood of developing a stress-granule related disorder and / or cancer by administering one or more poly-ADP-ribose polymerase (PARP) inhibitors, one or more PARP activators, one or more poly-ADP-ribose glycosylase (PARG) activators, and / or one or more poly-ADP-ribose glycohydrolase ARH3 activators. The invention also provides corresponding methods of decreasing stress granule formation and / or proliferation in a cell or a population of cells. The invention further provides methods of increasing the number of stress granules and proliferation in a cell or a population of cells by administering one or more PARP activators, one or more PARP inhibitors, one or more PARG inhibitors, and / or one or more ARH3 inhibitors. The invention also provides methods for screening for agents for treating or decreasing the likelihood of developing a stress granule-related disorder or cancer, and methods for determining the propensity for developing a stress granule-related disorder or cancer, as well as compositions and kits containing one or more PARP inhibitors, one or more PARP activators, one or more PARG activators, and one or more ARH3 activators.

The invention includes methods and compositions for forming peptide conjugates intracellularly having a covalent linkage between a modifying group and a glycosylated or non-glycosylated peptide. The modifying group is conjugated to the peptide via a glycosyl linking group interposed between and covalently linked to both the peptide and the modifying group.

The present invention provides conjugates between erythropoietin and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

The present invention provides conjugates between erythropoietin and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.

Glycosylceramide analogues are disclosed in which the ceramide moiety and optionally the carbohydrate moiety are modified or replaced. These analogues are useful as immunomodulators, antitumor agents, and as other pharmaceutical agents.

The present invention provides a highly glycosylated iduronate-2-sulfatase enzyme comprising an iduronate-2-sulfatase polypeptide with at least 5 kilodalton (kDa) more sugar than iduronate-2-sulfatase purified from a natural source, e.g. human liver. The present invention also provides an enzymatically active polypeptide fragment or variant of such a highly glycosylated iduronate-2-sulfatase. The present invention further provides an isolated nucleic acid encoding iduronate-2-sulfatase, as well as an expression vector, a host cell and a method for producing the present highly glycosylated iduronate-2-sulfatase enzyme. In one embodiment the present invention is directed to a method for producing a glycosylated iduronate-2-sulfatase enzyme which comprises culturing a host cell containing a nucleic acid encoding an enzymatically active iduronate-2-sulfatase polypeptide wherein the host cell glycosylates the polypeptide to a greater degree than a native iduronate-2-sulfatase polypeptide expressed by a natural human liver cell.

Disclosed are amphiphilic compounds comprising Formula I:wherein R1, R2, and R3 are C2-C12 straight or branched alkyl; unsubstituted phenyl, biphenyl, C3-C8 cycloalkyl, or C3-C8 cycloalkenyl; or phenyl, biphenyl, C3-C8 cycloalkyl, or C3-C8 cycloalkenyl substituted with one, two, or three C1-C6 straight or branched alkyl groups; or R1 and R2 combined are C3-C8 cycloalkyl, C3-C8 cycloalkenyl; or C3-C8 cycloalkyl or C3-C8 cycloalkenyl substituted with one, two, or three C1-C6 straight or branched alkyl groups; one of R4 or R5 is selected from the group consisting of C2-C6-straight or branched alkyl-(dimethyl-N-oxide), alkyl-(dimethylamine), alkyl-(trimethylammonium), alkyl-glucosyl, alkyl-maltosyl, glucosyl, maltosyl, and polyethylene(glycosyl); the other of R4 or R5 is selected from the group consisting of H, C2-C6 straight or branched alkyl or alkenyl, C2-C6-straight or branched alkyl-(dimethyl-N-oxide); alkyl-(dimethylamine), alkyl-(trimethylammonium), alkyl-glucosyl, alkyl-maltosyl, glucosyl, maltosyl, and polyethylene(glycosyl); and salts thereof. The compounds are detergents useful in the solubilization of membrane-bound proteins.