Patent application number | Description | Published |
20090117154 | SYNTHETIC POLYVALENT CARBOHYDRATES AS COMPONENTS OF MICROBICIDES - Inhibitors that block the DC-SIGN mediated transmission of the HIV-virus from mucosal infection sites to T-lymphocytes. In one embodiment, the inhibitors include at least one oligosaccharide chain attached to a scaffolding framework in which the number of the oligosaccharide chains attached to the scaffold can be 2, 3, 4 or more. In another embodiment, HIV-I viral infection is treated by administration of a composition including a therapeutically effective amount of an oligosaccharide cluster and/or oligosaccharide/protein cluster binding DC-SIGN, to inhibit DC-SIGN from binding to HIV envelope glycoprotein. | 05-07-2009 |
20100173323 | GLYCOSYLATION ENGINEERED ANTIBODY THERAPY - The instant invention is drawn to methods of generating a glycosylation-engineered antibody, and using the glycosylation-engineered antibody for treating a patient, particularly a cancer patient or a patient with an immune disease or disorder. The instant invention is also drawn to methods of generating a glycosylation-engineered antibody for use in the treatment of patients having a polymorphism that does not respond to conventional antibody therapy. The instant invention is also drawn to methods of improving the biological activity of an antibody by glycosylation engineering. The instant invention is also drawn to methods of modulating antibody-dependent cell-mediated cytoxicity (ADCC) using a glycosylation-engineered antibody. | 07-08-2010 |
20100221241 | CONSTRAINED HIV ENVELOPE-BASED IMMUNOGEN THAT SIMULTANEOUSLY PRESENTS RECEPTOR AND CORECEPTOR BINDING SITES - The present invention relates to a soluble binding complex comprising a soluble gp120 trimer, in which only two gp120 protomers have CD4 binding sites occupied by interconnecting CD4 mimetic moieties, thereby allowing for the exposure of CD4-induced epitopes on the mimetic-bound protomers and an unoccupied CD4 binding site on the third gp120 protomer. | 09-02-2010 |
20110070607 | GLYCOPROTEIN SYNTHESIS AND REMODELING BY ENZYMATIC TRANSGLYCOSYLATION - A chemoenzymatic method for the preparation of a homogeneous glycoprotein or glycopeptide, including (a) providing an acceptor selected from the group consisting of GlcNAc-protein and GlcNAc-peptide; and (b) reacting the acceptor with a donor substrate including an activated oligosaccharide moiety, in the presence of a catalyst comprising endoglycosidase (ENGase), to transfer the oligosaccharide moiety to the acceptor and yield the homogeneous glycoprotein or glycopeptide. The donor substrate includes, in a specific implementation, a synthetic oligosaccharide oxazoline. A related method of glycoprotein or glycopeptide remodeling with a predetermined natural N-glycan or a tailor-made oligosaccharide moiety, and a method of remodeling an antibody including a heterogeneous sugar chain, are also described. The disclosed methodology enables glycoprotein drugs to be modified for prolonged half-life in vivo, reduced immunogenicity, and enhanced in vivo activity, and for targeting and drug delivery. | 03-24-2011 |
20120226024 | CORE FUCOSYLATED GLYCOPEPTIDES AND GLYCOPROTEINS: CHEMOENZYMATIC SYNTHESIS AND USES THEREOF - A chemoenzymatic method for the preparation of a core-fucoslyated glycoprotein or glycopeptide, including (a) providing an acceptor selected from the group consisting of a fucosylated GlcNAc-protein and fucosylated GlcNAc-peptide; and (b) reacting the acceptor with a donor substrate including an activated oligosaccharide moiety, in the presence of an endoglycosidase (ENGase) selected from Endo;F1, Endo-F2, Endo-F3, Endo-D and related glycosynthase mutants to transfer the oligosaccharide moiety to the acceptor and yield the structure defined core-fucosylated glycoprotein or glycopeptide. The donor substrate includes, in a specific implementation, a synthetic oligosaccharide oxazoline. A related method of fucosylated glycoprotein or fucosylated glycopeptide remodeling with a predetermined natural N-glycan or a tailor-made oligosaccharide moiety, and a method of remodeling an antibody to include a predetermined sugar chain to replace a heterogeneous sugar chain, are also described. | 09-06-2012 |
20130131325 | GLYCOPROTEIN SYNTHESIS AND REMODELING BY ENZYMATIC TRANSGLYCOSYLATION - A chemoenzymatic method for the preparation of a homogeneous glycoprotein or glycopeptide, including (a) providing an acceptor selected from the group consisting of GlcNAc-protein and GlcNAc-peptide; and (b) reacting the acceptor with a donor substrate including an activated oligosaccharide moiety, in the presence of a catalyst comprising endoglycosidase (ENGase), to transfer the oligosaccharide moiety to the acceptor and yield the homogeneous glycoprotein or glycopeptide. The donor substrate includes, in a specific implementation, a synthetic oligosaccharide oxazoline. A related method of glycoprotein or glycopeptide remodeling with a predetermined natural N-glycan or a tailor-made oligosaccharide moiety, and a method of remodeling an antibody including a heterogeneous sugar chain, are also described. The disclosed methodology enables glycoprotein drugs to be modified for prolonged half-life in vivo, reduced immunogenicity, and enhanced in vivo activity, and for targeting and drug delivery. | 05-23-2013 |
20130137857 | TRANSGLYCOSYLATION ACTIVITY OF GLYCOSYNTHASE MUTANTS OF AN ENDO-BETA-N-ACETYLGLUCOSAMINIDASE (ENDO-D) FROM STREPTOCOCCUS PNEUMONIAE - The present invention provides for recombinant Endo-D and selected mutants that exhibit reduced hydrolysis activity and increased transglycosylation activity for the synthesis of glycoproteins wherein a desired sugar chain is added to a core fucosylated or nonfucosylated GlcNAc-protein acceptor by transglycosylation. Such recombinant Endo-D and selected mutants are useful for efficient glycosylation remodeling of IgG1-Fc domain. | 05-30-2013 |
20140348865 | IMMUNOGENS BASED ON AN HIV-1 V1V2 SITE-OF-VULNERABILITY - Disclosed are HIV immunogens. Also disclosed are nucleic acids encoding these immunogens and methods of producing these antigens. Methods for generating an immune response in a subject are also disclosed. In some embodiments, the method is a method for treating or preventing a human immunodeficiency type 1 (HIV-1) infection in a subject. | 11-27-2014 |
20150087811 | GLYCOPROTEIN SYNTHESIS AND REMODELING BY ENZYMATIC TRANSGLYCOSYLATION - A chemoenzymatic method for the preparation of a homogeneous glycoprotein or glycopeptide, including (a) providing an acceptor selected from the group consisting of GlcNAc-protein and GlcNAc-peptide; and (b) reacting the acceptor with a donor substrate including an activated oligosaccharide moiety, in the presence of a catalyst comprising endoglycosidase (ENGase), to transfer the oligosaccharide moiety to the acceptor and yield the homogeneous glycoprotein or glycopeptide. The donor substrate includes, in a specific implementation, a synthetic oligosaccharide oxazoline. A related method of glycoprotein or glycopeptide remodeling with a predetermined natural N-glycan or a tailor-made oligosaccharide moiety, and a method of remodeling an antibody including a heterogeneous sugar chain, are also described. The disclosed methodology enables glycoprotein drugs to be modified for prolonged half-life in vivo, reduced immunogenicity, and enhanced in vivo activity, and for targeting and drug delivery. | 03-26-2015 |
20150087814 | CHEMOENZYMATIC GLYCOENGINEERING OF ANTIBODIES AND FC FRAGMENTS THEREOF - The present invention provides for recombinant Endo-S mutants that exhibit reduced hydrolysis activity and increased transglycosylation activity for the synthesis of glycoproteins wherein a desired sialylated oxazoline or synthetic oligosaccharide oxazoline is added to a core fucosylated or nonfucosylated GlcNAc-protein acceptor. Such recombinant Endo-S mutants are useful for efficient glycosylation remodeling of IgGl-Fc domain to provide different antibody glycoforms carrying structurally well-defined Fc N-glycans. | 03-26-2015 |