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1.
Glycobiology ; 30(12): 970-980, 2020 12 09.
Article in English | MEDLINE | ID: mdl-32248235

ABSTRACT

Like sialylation, fucose usually locates at the nonreducing ends of various glycans on glycoproteins and constitutes important glycan epitopes. Detecting the substrate glycans of fucosyltransferases is important for understanding how these glycan epitopes are regulated in response to different growth conditions and external stimuli. Here we report the detection of these glycans on glycoproteins as well as in their free forms via enzymatic incorporation of fluorophore-conjugated fucose using FUT2, FUT6, FUT7, FUT8 and FUT9. Specifically, we describe the detection of the substrate glycans of these enzymes on fetal bovine fetuin, recombinant H1N1 viral neuraminidase and therapeutic antibodies. The detected glycans include complex and high-mannose N-glycans. By establishing a series of precursors for the synthesis of Lewis X and sialyl Lewis X structures, we not only provide convenient electrophoresis methods for studying glycosylation but also demonstrate the substrate specificities and some kinetic features of these enzymes. Our results support the notion that fucosyltransferases are key targets for regulating the synthesis of Lewis X and sialyl Lewis X structures.


Subject(s)
Fluorescent Dyes/chemistry , Fucose/chemistry , Fucosyltransferases/chemistry , Polysaccharides/analysis , Animals , Cattle , Electrophoresis , Fetuins/chemistry , Fetuins/metabolism , Fluorescent Dyes/metabolism , Fucose/metabolism , Fucosyltransferases/metabolism , Polysaccharides/metabolism , Substrate Specificity
2.
Glycobiology ; 30(7): 454-462, 2020 07 20.
Article in English | MEDLINE | ID: mdl-31897478

ABSTRACT

Cells are covered with glycans. The expression and distribution of specific glycans on the surface of a cell are important for various cellular functions. Imaging these glycans is essential to aid elucidation of their biological roles. Here, utilizing methods of direct fluorescent glycan imaging, in which fluorescent sialic acids are directly incorporated into substrate glycans via recombinant sialyltranferases, we report the differential distribution of N- and O-glycans and variable expression of sialyl-T antigen on HeLa cells. While the expression of N-glycans tends to be more peripheral at positions where cell-cell interaction occurs, O-glycan expression is more granular but relatively evenly distributed on positive cells. While N-glycans are expressed on all cells, sialyl-T antigen expression exhibits a wide spectrum of variation with some cells being strongly positive and some cells being almost completely negative. The differential distribution of N- and O-glycans on cell surface reflects their distinctive roles in cell biology.


Subject(s)
Antigens, Viral, Tumor/biosynthesis , Optical Imaging , Polysaccharides/biosynthesis , Sialic Acids/biosynthesis , Antigens, Viral, Tumor/chemistry , HeLa Cells , Humans , Polysaccharides/chemistry , Sialic Acids/chemistry , Sialyltransferases/metabolism
3.
Glycobiology ; 29(11): 750-754, 2019 10 21.
Article in English | MEDLINE | ID: mdl-31361010

ABSTRACT

Glycosylation is a common modification found on numerous proteins and lipids. However, direct detection of glycans on these intact biomolecules has been challenge. Here, utilizing enzymatic incorporation of fluorophore-conjugated sialic acids, dubbed as direct fluorescent glycan labeling, we report the labeling and detection of N- and O-glycans on glycoproteins. The method allows detection of specific glycans without the laborious gel blotting and chemiluminescence reactions used in Western blotting. The method can also be used with a variety of fluorescent dyes.


Subject(s)
Fluorescence , Polysaccharides/analysis , Sialyltransferases/chemistry , Animals , Cattle , Clostridium perfringens/enzymology , Fluorescent Dyes/chemistry , Glycosylation , Humans , Polysaccharides/metabolism , Recombinant Proteins/chemistry , Recombinant Proteins/metabolism , Sialic Acids/chemistry , Sialic Acids/metabolism , Sialyltransferases/metabolism
4.
Glycobiology ; 28(2): 69-79, 2018 02 01.
Article in English | MEDLINE | ID: mdl-29186441

ABSTRACT

Heparan sulfate (HS) is a polysaccharide fundamentally important for biologically activities. T/Tn antigens are universal carbohydrate cancer markers. Here, we report the specific imaging of these carbohydrates using a mesenchymal stem cell line and human umbilical vein endothelial cells (HUVEC). The staining specificities were demonstrated by comparing imaging of different glycans and validated by either removal of target glycans, which results in loss of signal, or installation of target glycans, which results in gain of signal. As controls, representative key glycans including O-GlcNAc, lactosaminyl glycans and hyaluronan were also imaged. HS staining revealed novel architectural features of the extracellular matrix (ECM) of HUVEC cells. Results from T/Tn antigen staining suggest that O-GalNAcylation is a rate-limiting step for O-glycan synthesis. Overall, these highly specific approaches for HS and T/Tn antigen imaging should greatly facilitate the detection and functional characterization of these biologically important glycans.


Subject(s)
Glycosyltransferases/metabolism , Heparitin Sulfate/metabolism , Animals , Antigens/metabolism , Cell Line , Click Chemistry , Extracellular Matrix/metabolism , Heparitin Sulfate/chemistry , Human Umbilical Vein Endothelial Cells/metabolism , Humans , Hyaluronic Acid/metabolism , Mesenchymal Stem Cells/metabolism , Mice , Protein Processing, Post-Translational
5.
Development ; 139(4): 793-804, 2012 Feb.
Article in English | MEDLINE | ID: mdl-22274699

ABSTRACT

The Homeobox (Hox) and Paired box (Pax) gene families are key determinants of animal body plans and organ structure. In particular, they function within regulatory networks that control organogenesis. How these conserved genes elicit differences in organ form and function in response to evolutionary pressures is incompletely understood. We molecularly and functionally characterized one member of an evolutionarily dynamic gene family, plac8 onzin related protein 1 (ponzr1), in the zebrafish. ponzr1 mRNA is expressed early in the developing kidney and pharyngeal arches. Using ponzr1-targeting morpholinos, we show that ponzr1 is required for formation of the glomerulus. Loss of ponzr1 results in a nonfunctional glomerulus but retention of a functional pronephros, an arrangement similar to the aglomerular kidneys found in a subset of marine fish. ponzr1 is integrated into the pax2a pathway, with ponzr1 expression requiring pax2a gene function, and proper pax2a expression requiring normal ponzr1 expression. In addition to pronephric function, ponzr1 is required for pharyngeal arch formation. We functionally demonstrate that ponzr1 can act as a transcription factor or co-factor, providing the first molecular mode of action for this newly described gene family. Together, this work provides experimental evidence of an additional mechanism that incorporates evolutionarily dynamic, lineage-specific gene families into conserved regulatory gene networks to create functional organ diversity.


Subject(s)
Branchial Region/embryology , Pronephros/embryology , Transcription Factors/genetics , Zebrafish Proteins/genetics , Zebrafish/anatomy & histology , Zebrafish/embryology , Zebrafish/genetics , Animals , Animals, Genetically Modified , Biological Evolution , Biomarkers/metabolism , Branchial Region/metabolism , Embryo, Nonmammalian/anatomy & histology , Embryo, Nonmammalian/physiology , Gene Expression Regulation, Developmental , Gene Knockdown Techniques , Kidney/anatomy & histology , Morphogenesis/physiology , PAX2 Transcription Factor/genetics , PAX2 Transcription Factor/metabolism , Phenotype , Pronephros/metabolism , Transcription Factors/metabolism , Zebrafish Proteins/metabolism
6.
Dev Dyn ; 239(1): 327-37, 2010 Jan.
Article in English | MEDLINE | ID: mdl-19918918

ABSTRACT

Robinow syndrome is a skeletal dysplasia with both autosomal dominant and autosomal recessive inheritance patterns. It is characterized by short stature, limb shortening, genital hypoplasia, and craniofacial abnormalities. The etiology of dominant Robinow syndrome is unknown; however, the phenotypically more severe autosomal recessive form of Robinow syndrome has been associated with mutations in the orphan tyrosine kinase receptor, ROR2, which has recently been identified as a putative WNT5A receptor. Here, we show that two different missense mutations in WNT5A, which result in amino acid substitutions of highly conserved cysteines, are associated with autosomal dominant Robinow syndrome. One mutation has been found in all living affected members of the original family described by Meinhard Robinow and another in a second unrelated patient. These missense mutations result in decreased WNT5A activity in functional assays of zebrafish and Xenopus development. This work suggests that a WNT5A/ROR2 signal transduction pathway is important in human craniofacial and skeletal development and that proper formation and growth of these structures is sensitive to variations in WNT5A function.


Subject(s)
Abnormalities, Multiple/genetics , Bone Diseases, Developmental/genetics , Embryonic Development/genetics , Mutation, Missense/genetics , Proto-Oncogene Proteins/genetics , Signal Transduction/genetics , Wnt Proteins/genetics , Amino Acid Sequence , Animals , Chromosome Mapping , Crosses, Genetic , DNA Primers/genetics , Genes, Dominant/genetics , Humans , In Situ Hybridization , Mice , Molecular Sequence Data , Proto-Oncogene Proteins/metabolism , Receptor Tyrosine Kinase-like Orphan Receptors/genetics , Receptor Tyrosine Kinase-like Orphan Receptors/metabolism , Syndrome , Wnt Proteins/metabolism , Wnt-5a Protein , Xenopus , Zebrafish
7.
Pediatr Res ; 61(4): 386-91, 2007 Apr.
Article in English | MEDLINE | ID: mdl-17515859

ABSTRACT

Lack of septation of the cardiac outflow tract (OFT) results in persistent truncus arteriosus (PTA), a form of congenital heart disease. The outflow myocardium expands through addition of cells originating from the pharyngeal mesoderm referred to as secondary/anterior heart field, whereas cardiac neural crest (CNC) cell-derived mesenchyme condenses to form an aortopulmonary septum. We show for the first time that a mutation in Wnt5a in mice leads to PTA. We provide evidence that Wnt5a is expressed in the pharyngeal mesoderm adjacent to CNC cells in both mouse and chicken embryos and in the myocardial cell layer of the conotruncus at the time when CNC cells begin to form the aortopulmonary septum in mice. Although expression domains of secondary heart field markers are not altered in Wnt5a mutant embryos, the expression of CNC cell marker PlexinA2 is significantly reduced. Stimulation of CNC cells with Wnt5a protein elicits Ca2+ transients, suggesting that CNC cells are capable of responding to Wnt5a. We propose a novel model in which Wnt5a produced in the OFT by cells originating from the pharyngeal mesoderm signals to adjacent CNC cells during formation of the aortopulmonary septum through a noncanonical pathway via localized intracellular increases in Ca2+.


Subject(s)
Heart/embryology , Truncus Arteriosus, Persistent/genetics , Wnt Proteins/physiology , Animals , Calcium Signaling/physiology , Mice , Mice, Knockout , Neural Crest/cytology , Neural Crest/physiology , Wnt Proteins/deficiency , Wnt Proteins/genetics , Wnt-5a Protein
8.
Arch Oral Biol ; 51(5): 433-8, 2006 May.
Article in English | MEDLINE | ID: mdl-16289463

ABSTRACT

OBJECTIVE: Mouse Twisted gastrulation gene (Twsg1) expression is found throughout embryonic development, including substantial levels in the first branchial arch that gives rise to the submandibular salivary gland (SMG). We addressed the proposition that normal Twsg1 expression is critical to normal SMG ontogenesis. DESIGN: Utilizing C57BL/6 embryos that were Twsg1-/- homozygotes, as well as wild type and heterozygote littermates, we investigated SMG development from gestational day 13 to newborn. RESULTS: Twsg1 protein is immunodetected in epithelia throughout SMG development. Twsg1-/- embryos display widely variable craniofacial phenotypes that range from normal to severe holoprosencephaly/agnathia with no mandibular arch or stomodeum. The SMG phenotypes are correlated with the external craniofacial phenotype, ranging from normal to agenesis/aplasia. CONCLUSIONS: It is evident that normal Twsg1 expression is critical for normal mouse SMG ontogenesis. Twsg1 loss of function is ultimately epistatic to the epigenome under normal physiologic conditions, but not always so. The reduced penetrance and variable expressivity seen in the SMGs of Twsg1-/- embryos is a challenging enigma.


Subject(s)
Gene Expression Regulation, Developmental , Proteins/genetics , Salivary Glands/abnormalities , Salivary Glands/embryology , Animals , Breeding , Female , Homozygote , Mice , Mice, Inbred C57BL , Mice, Knockout , Phenotype , Pregnancy , Proteins/analysis , Proteins/physiology
9.
Int Rev Cytol ; 243: 287-335, 2005.
Article in English | MEDLINE | ID: mdl-15797462

ABSTRACT

The valves of the heart develop in the embryo from precursor structures called endocardial cushions. After cardiac looping, endocardial cushion swellings form and become populated by valve precursor cells formed by an epithelial-mesenchymal transition (EMT). Endocardial cushions subsequently undergo directed growth and remodeling to form the valvular structures and the membranous septa of the mature heart. The developmental processes that mediate cushion formation include many prototypic cellular actions including adhesion, signaling, migration, secretion, replication, differentiation, and apoptosis. Cushion morphogenesis is unique in that these cellular possesses occur in a functioning organ where the cushions act as valves even while developing into definitive valvular structures. Cardiovascular defects are the most common congenital defects, and one of the most common causes of death during infancy. Thus, there is significant interest in understanding the mechanisms that underlie this complex developmental process. In this regard, substantial progress has been made by incorporating an understanding of cardiac morphology and cell biology with the rapidly expanding repertoire of molecular mechanisms gained through human genetics and research using animal models. This article reviews cardiac morphogenesis as it relates to heart valve formation and highlights selected growth factors, intracellular signaling mediators, and extracellular matrix components involved in the creation and remodeling of endocardial cushions into mature cardiac structures.


Subject(s)
Endocardium/embryology , Heart Valves/embryology , Heart/embryology , Emigration and Immigration , Endocardial Cushion Defects/embryology , Endocardial Cushion Defects/pathology , Endocardium/pathology , Gene Expression Regulation, Developmental/genetics , Gene Expression Regulation, Developmental/physiology , Humans , In Vitro Techniques , Morphogenesis/genetics , Morphogenesis/physiology , Signal Transduction
10.
Dev Biol ; 278(1): 35-48, 2005 Feb 01.
Article in English | MEDLINE | ID: mdl-15649459

ABSTRACT

Normal development of the cardiac atrioventricular (AV) endocardial cushions is essential for proper ventricular septation and morphogenesis of the mature mitral and tricuspid valves. In this study, we demonstrate spatially restricted expression of both Wnt-9a (formerly Wnt-14) and the secreted Wnt antagonist Frzb in AV endocardial cushions of the developing chicken heart. Wnt-9a expression is detected only in AV canal endocardial cells, while Frzb expression is detected in both endocardial and transformed mesenchymal cells of the developing AV cardiac cushions. We present evidence that Wnt-9a promotes cell proliferation in the AV canal and overexpression of Wnt-9a in ovo results in enlarged endocardial cushions and AV inlet obstruction. Wnt-9a stimulates beta-catenin-responsive transcription in AV canal cells, duplicates the embryonic axis upon ventral injections in Xenopus embryos and appears to regulate cell proliferation by activating a Wnt/beta-catenin signaling pathway. Additional functional studies reveal that Frzb inhibits Wnt-9a-mediated cell proliferation in cardiac cushions. Together, these data argue that Wnt-9a and Frzb regulate mesenchymal cell proliferation leading to proper AV canal cushion outgrowth and remodeling in the developing avian heart.


Subject(s)
Atrioventricular Node/embryology , Cytoskeletal Proteins/physiology , Intercellular Signaling Peptides and Proteins/physiology , Proteins/physiology , Trans-Activators/physiology , Amino Acid Sequence , Animals , Apoptosis , Atrioventricular Node/cytology , Atrioventricular Node/physiology , Base Sequence , Cell Proliferation , Chick Embryo , DNA/genetics , Frizzled Receptors , Gene Expression Regulation, Developmental , In Situ Hybridization , Intercellular Signaling Peptides and Proteins/genetics , Molecular Sequence Data , Proteins/genetics , Sequence Homology, Amino Acid , Signal Transduction , Wnt Proteins , beta Catenin
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