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1.
Glycobiology ; 28(11): 825-831, 2018 11 01.
Artículo en Inglés | MEDLINE | ID: mdl-30137320

RESUMEN

Glycosylation is the most common post-translational modification of serum proteins, and changes in the type and abundance of glycans in human serum have been correlated with a growing number of human diseases. While the glycosylation pattern of human serum is well studied, little is known about the profiles of other mammalian species. Here, we report detailed glycosylation profiling of canine serum by hydrophilic interaction chromatography-ultraperformance liquid chromatography (HILIC-UPLC) and mass spectrometry. The domestic dog (Canis familiaris) is a widely used model organism and of considerable interest for a large veterinary community. We found significant differences in the serum N-glycosylation profile of dogs compared to that of humans, such as a lower abundance of galactosylated and sialylated glycans. We also compare the N-glycan profile of canine serum to that of canine IgG - the most abundant serum glycoprotein. Our data will serve as a baseline reference for future studies when performing serum analyses of various health and disease states in dogs.


Asunto(s)
Glicoproteínas/metabolismo , Polisacáridos/metabolismo , Animales , Perros , Glicoproteínas/sangre , Glicosilación , Humanos , Polisacáridos/sangre
2.
MAbs ; 8(2): 340-6, 2016.
Artículo en Inglés | MEDLINE | ID: mdl-26514686

RESUMEN

Glycosylation affects the efficacy, safety and pharmacokinetics/pharmacodynamics properties of therapeutic monoclonal antibodies (mAbs), and glycoengineering is now being used to produce mAbs with improved efficacy. In this work, a glycoengineered version of rituximab was produced by chemoenzymatic modification to generate human-like N-glycosylation with α 2,6 linked sialic acid. This modified rituximab was comprehensively characterized by liquid chromatography-mass spectrometry and compared to commercially available rituximab. As anticipated, the majority of N-glycans were converted to α 2,6 linked sialic acid, in contrast to CHO-produced rituximab, which only contains α 2,3 linked sialic acid. Typical posttranslational modifications, such as pyro-glutamic acid formation at the N-terminus, oxidation at methionine, deamidation at asparagine, and disulfide linkages were also characterized in both the commercial and glycoengineered mAbs using multiple enzymatic digestion and mass spectrometric analysis. The comparative study reveals that the glycoengineering approach does not cause any additional posttranslational modifications in the antibody except the specific transformation of the glycoforms, demonstrating the mildness and efficiency of the chemoenzymatic approach for glycoengineering of therapeutic antibodies.


Asunto(s)
Espectrometría de Masas , Ácido N-Acetilneuramínico/química , Rituximab/química , Animales , Células CHO , Cricetinae , Cricetulus , Glicosilación , Humanos
3.
J Vis Exp ; (58): e3749, 2011 Dec 26.
Artículo en Inglés | MEDLINE | ID: mdl-22230788

RESUMEN

Glycosylation, the addition of covalently linked sugars, is a major post-translational modification of proteins that can significantly affect processes such as cell adhesion, molecular trafficking, clearance, and signal transduction. In eukaryotes, the most common glycosylation modifications in the secretory pathway are additions at consensus asparagine residues (N-linked); or at serine or threonine residues (O-linked) (Figure 1). Initiation of N-glycan synthesis is highly conserved in eukaryotes, while the end products can vary greatly among different species, tissues, or proteins. Some glycans remain unmodified ("high mannose N-glycans") or are further processed in the Golgi ("complex N-glycans"). Greater diversity is found for O-glycans, which start with a common N-Acetylgalactosamine (GalNAc) residue in animal cells but differ in lower organisms. The detailed analysis of the glycosylation of proteins is a field unto itself and requires extensive resources and expertise to execute properly. However a variety of available enzymes that remove sugars (glycosidases) makes possible to have a general idea of the glycosylation status of a protein in a standard laboratory setting. Here we illustrate the use of glycosidases for the analysis of a model glycoprotein: recombinant human chorionic gonadotropin beta (hCGß), which carries two N-glycans and four O-glycans. The technique requires only simple instrumentation and typical consumables, and it can be readily adapted to the analysis of multiple glycoprotein samples. Several enzymes can be used in parallel to study a glycoprotein. PNGase F is able to remove almost all types of N-linked glycans. For O-glycans, there is no available enzyme that can cleave an intact oligosaccharide from the protein backbone. Instead, O-glycans are trimmed by exoglycosidases to a short core, which is then easily removed by O-Glycosidase. The Protein Deglycosylation Mix contains PNGase F, O-Glycosidase, Neuraminidase (sialidase), ß1-4 Galactosidase, and ß-N-Acetylglucosaminidase. It is used to simultaneously remove N-glycans and some O-glycans. Finally, the Deglycosylation Mix was supplemented with a mixture of other exoglycosidases (α-N-Acetylgalactosaminidase, α1-2 Fucosidase, α1-3,6 Galactosidase, and ß1-3 Galactosidase), which help remove otherwise resistant monosaccharides that could be present in certain O-glycans. SDS-PAGE/Coomasie blue is used to visualize differences in protein migration before and after glycosidase treatment. In addition, a sugar-specific staining method, ProQ Emerald-300, shows diminished signal as glycans are successively removed. This protocol is designed for the analysis of small amounts of glycoprotein (0.5 to 2 µg), although enzymatic deglycosylation can be scaled up to accommodate larger quantities of protein as needed.


Asunto(s)
Glicoproteínas/biosíntesis , Glicósido Hidrolasas/metabolismo , Proteínas/metabolismo , Gonadotropina Coriónica Humana de Subunidad beta/metabolismo , Electroforesis en Gel de Poliacrilamida/métodos , Glicosilación , Humanos , Modelos Moleculares , Proteínas Recombinantes/metabolismo , Especificidad por Sustrato
4.
Eukaryot Cell ; 5(5): 836-48, 2006 May.
Artículo en Inglés | MEDLINE | ID: mdl-16682461

RESUMEN

Entamoeba histolytica, which causes amebic dysentery and liver abscesses, is spread via chitin-walled cysts. The most abundant protein in the cyst wall of Entamoeba invadens, a model for amebic encystation, is a lectin called EiJacob1. EiJacob1 has five tandemly arrayed, six-Cys chitin-binding domains separated by low-complexity Ser- and Thr-rich spacers. E. histolytica also has numerous predicted Jessie lectins and chitinases, which contain a single, N-terminal eight-Cys chitin-binding domain. We hypothesized that E. invadens cyst walls are composed entirely of proteins with six-Cys or eight-Cys chitin-binding domains and that some of these proteins contain sugars. E. invadens genomic sequences predicted seven Jacob lectins, five Jessie lectins, and three chitinases. Reverse transcription-PCR analysis showed that mRNAs encoding Jacobs, Jessies, and chitinases are increased during E. invadens encystation, while mass spectrometry showed that the cyst wall is composed of an approximately 30:70 mix of Jacob lectins (cross-linking proteins) and Jessie and chitinase lectins (possible enzymes). Three Jacob lectins were cleaved prior to Lys at conserved sites (e.g., TPSVDK) in the Ser- and Thr-rich spacers between chitin-binding domains. A model peptide was cleaved at the same site by papain and E. invadens Cys proteases, suggesting that the latter cleave Jacob lectins in vivo. Some Jacob lectins had O-phosphodiester-linked carbohydrates, which were one to seven hexoses long and had deoxysugars at reducing ends. We concluded that the major protein components of the E. invadens cyst wall all contain chitin-binding domains (chitinases, Jessie lectins, and Jacob lectins) and that the Jacob lectins are differentially modified by site-specific Cys proteases and O-phosphodiester-linked glycans.


Asunto(s)
Quitina/metabolismo , Entamoeba/metabolismo , Lectinas/metabolismo , Procesamiento Proteico-Postraduccional , Secuencia de Aminoácidos , Animales , Quitinasas/química , Quitinasas/metabolismo , Secuencia Conservada , Cisteína Endopeptidasas/metabolismo , Entamoeba/genética , Genoma de Protozoos , Lectinas/química , Lectinas/genética , Espectrometría de Masas , Datos de Secuencia Molecular , Polisacáridos/metabolismo , Proteínas Protozoarias/química , Proteínas Protozoarias/genética , Proteínas Protozoarias/metabolismo , ARN Mensajero/genética , ARN Mensajero/metabolismo , ARN Protozoario/genética , ARN Protozoario/metabolismo
5.
Anal Biochem ; 336(2): 202-12, 2005 Jan 15.
Artículo en Inglés | MEDLINE | ID: mdl-15620885

RESUMEN

Purified endoglucanases have been used to determine the composition of Schizosaccharomyces pombe cell wall. This structure has been traditionally studied after isolating its components (mannoproteins, alpha1,3-glucan, beta1,3-glucan, and a branched beta-glucan) with hot alkali. Instead, we sequentially removed the polysaccharides by digesting with endo-beta1,3-glucanase and with a novel endo-alpha1,3-glucanase (mutanase). After this gentle isolation we observed that a branched beta1,3-beta1,6-glucan is much more abundant than previously described. By scaling-up the new protocol we prepared large amounts of the highly branched glucan and determined its structural features. We have named this highly branched beta-glucan diglucan, reflecting its two types of beta linkages. We have also identified an insoluble endoglucanase-resistant type of 1,3-linked glucan present in S. pombe cell walls. We redefined the wall composition of S. pombe vegetative cells by this new method. Finally, to demonstrate its application, we determined the cell wall composition of known mutant strains.


Asunto(s)
Pared Celular/química , Endo-1,3(4)-beta-Glucanasa/metabolismo , Glucanos/química , Glucanos/metabolismo , Schizosaccharomyces/citología , Secuencia de Carbohidratos , Pared Celular/metabolismo , Diálisis , Espectroscopía de Resonancia Magnética
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