Your search keyword '"FUCOSIDASES"' showing total 144 results

1. Fucosylated Human Milk Oligosaccharide Foraging within the Species Bifidobacterium pseudocatenulatum Is Driven by Glycosyl Hydrolase Content and Specificity

Author

Shani, Guy, Hoeflinger, Jennifer L, Heiss, Britta E, Masarweh, Chad F, Larke, Jules A, Jensen, Nick M, Wickramasinghe, Saumya, Davis, Jasmine C, Goonatilleke, Elisha, El-Hawiet, Amr, Nguyen, Linh, Klassen, John S, Slupsky, Carolyn M, Lebrilla, Carlito B, and Mills, David A

Subjects

Microbiology, Biochemistry and Cell Biology, Biological Sciences, Pediatric, Nutrition, Bifidobacterium pseudocatenulatum, Female, Humans, Hydrolases, Infant, Milk, Human, Oligosaccharides, alpha-L-Fucosidase, fucosylated HMO, alpha-fucosidase, substrate-binding protein, strain specificity, Bifidobacterium, fucosidases, glycan metabolism, milk oligosaccharides, α-fucosidase, Medical microbiology

Abstract

Human milk enriches members of the genus Bifidobacterium in the infant gut. One species, Bifidobacterium pseudocatenulatum, is found in the gastrointestinal tracts of adults and breastfed infants. In this study, B. pseudocatenulatum strains were isolated and characterized to identify genetic adaptations to the breastfed infant gut. During growth on pooled human milk oligosaccharides (HMOs), we observed two distinct groups of B. pseudocatenulatum, isolates that readily consumed HMOs and those that did not, a difference driven by variable catabolism of fucosylated HMOs. A conserved gene cluster for fucosylated HMO utilization was identified in several sequenced B. pseudocatenulatum strains. One isolate, B. pseudocatenulatum MP80, which uniquely possessed GH95 and GH29 α-fucosidases, consumed the majority of fucosylated HMOs tested. Furthermore, B. pseudocatenulatum SC585, which possesses only a single GH95 α-fucosidase, lacked the ability to consume the complete repertoire of linkages within the fucosylated HMO pool. Analysis of the purified GH29 and GH95 fucosidase activities directly on HMOs revealed complementing enzyme specificities with the GH95 enzyme preferring 1-2 fucosyl linkages and the GH29 enzyme favoring 1-3 and 1-4 linkages. The HMO-binding specificities of the family 1 solute-binding protein component linked to the fucosylated HMO gene cluster in both SC585 and MP80 are similar, suggesting differential transport of fucosylated HMO is not a driving factor in each strain's distinct HMO consumption pattern. Taken together, these data indicate the presence or absence of specific α-fucosidases directs the strain-specific fucosylated HMO utilization pattern among bifidobacteria and likely influences competitive behavior for HMO foraging in situ. IMPORTANCE Often isolated from the human gut, microbes from the bacterial family Bifidobacteriaceae commonly possess genes enabling carbohydrate utilization. Isolates from breastfed infants often grow on and possess genes for the catabolism of human milk oligosaccharides (HMOs), glycans found in human breast milk. However, catabolism of structurally diverse HMOs differs between bifidobacterial strains. This study identifies key gene differences between Bifidobacterium pseudocatenulatum isolates that may impact whether a microbe successfully colonizes an infant gut. In this case, the presence of complementary α-fucosidases may provide an advantage to microbes seeking residence in the infant gut. Such knowledge furthers our understanding of how diet drives bacterial colonization of the infant gut.

Published

2022

2. The dual role of fucosidases: tool or target.

Author

Jiménez-Pérez, Carlos, Guzmán-Rodríguez, Francisco, Cruz-Guerrero, Alma E., and Alatorre-Santamaría, Sergio

Subjects

*OLIGOSACCHARIDES, *STEREOSELECTIVE reactions, *BREAST milk, *VIRUS diseases, *INTERMOLECULAR interactions

Abstract

Regular intake of fucosylated oligosaccharides has been associated with several benefits for human health, particularly for new-borns. Since these biologically active molecules can be found naturally in human milk, research efforts have been focused on the alternative synthetic routes leading to their production. In particular, utilization of fucosidases to perform stereoselective transglycosylation reactions has been widely investigated. Other reasons that bring these enzymes to the spotlight are their role in viral infections and cancer proliferation. Since their involvement in the pathogenesis of these diseases have been widely described, fucosidases have become a target in newly developed therapies. Finally, activity disorders of biologically important fucosidases can lead to health problems such as fucosidosis. What is common for both mechanisms is the interaction between the enzyme and substrates in and around the active site. Therefore, this review will analyse different substrate structures that have been tested in terms of their interaction with fucosidases active sites, either in synthesis or inhibition reactions. The published results will be compared from this perspective. [ABSTRACT FROM AUTHOR]

Published

2023

3. Multiple Diagnostic Indicators in the Development of Chronic Hepatitis B, Liver Cirrhosis, and Liver Cancer.

Author

Chao Yang, Huijuan Geng, Shanshan Zhu, Xiaomeng Zheng, Tiemin Li, and Lin Duan

Subjects

*HEPATITIS B, *CIRRHOSIS of the liver, *LIVER cancer, *FUCOSIDASES, *CARBOHYDRATES

Abstract

Context • Hepatitis B can develop into cirrhosis, and most liver cancers evolve on the basis of chronic hepatitis and cirrhosis. Many patients are already at an advanced stage when diagnosed. In recent years, clinicians have advocated detection of liver cancer using multiple markers in combination to improve the sensitivity and specificity of testing. Objective • The study aimed to evaluate the clinical value of using four tumor indicators—urea, alpha L-fucosidase (AFU), carbohydrate antigen 153 (CA153), carbohydrate antigen 125 (CA125), and alpha fetoprotein (AFP) and comparing the use of combined indicators to use of a single indicator for the diagnosis of liver cancer. Design • The research team performed a prospective study. Setting • The study took place at Clinical Laboratory, Baoding People’s Hospital, Baoding City, Hebei Province, China. Participants • Participants were 98 patients with chronic hepatitis B, who became the CHB group; 102 patients with liver cirrhosis, who became the cirrhosis group, and 100 patients with liver cancer, who became the liver cancer group. They all had been admitted to the hospital between March 2019 and March 2021. Outcome Measures • The research team measured the urea, AFU, CA153, CA125, and AFP levels of the three groups, constructed an ROC curve, and analyzed the diagnostic values of the indicators singly and in combination for liver cancer. Results • For the levels of urea, AFU, CA153, CA125, and AFP, the CHB group’s levels were significantly lower than those of the cirrhosis and liver cancer groups (both P < .001), and the cirrhosis group’s levels were significantly lower than those of the liver cancer group (P < .001). In the CHB group, the compensatory group’s levels were significantly lower than those of the decompensated group (P < .05). In the cirrhosis group, no significant differences existed between the levels of the grade A and grade B groups (P < .001), between those of the grade A and grade C groups (P < .001), or between those of the grade B and grade C groups (P < .001). In the cirrhosis group, the levels of the no ascites group were significantly lower than those of the ascites group (P < .05). In the liver cancer group, the levels of the stage I-II group were significantly lower than those of the stage III and stage IV groups (both P < .05), and those of the stage III group were significantly lower than those of the stage IV group (P < .05). The levels of the <5cm group were significantly lower than those of the ≥5cm group (P < .001). The value of using a combination of indicators for diagnosis was significantly higher than that of a single indicator (P < .001). Conclusions • Urea, AFU, CA153, CA125, and AFP all have diagnostic value in the evaluation of chronic hepatitis B-cirrhosis and liver cancer, with the highest efficacy, sensitivity and specificity from a combined test and diagnosis. [ABSTRACT FROM AUTHOR]

Published

2023

4. Data collection from crystals grown in microfluidic droplets.

Author

Babnigg, Gyorgy, Sherrell, Darren, Kim, Youngchang, Johnson, Jessica L., Nocek, Boguslaw, Tan, Kemin, Axford, Danny, Li, Hui, Bigelow, Lance, Welk, Lukas, Endres, Michael, Owen, Robin L., and Joachimiak, Andrzej

Subjects

*ACQUISITION of data, *MICROFLUIDIC devices, *CRYSTALS, *CRYSTALLOIDS (Botany), *DROPLETS, *CRYSTALLOGRAPHY, *HYDROLASES

Abstract

Protein crystals grown in microfluidic droplets have been shown to be an effective and robust platform for storage, transport and serial crystallography data collection with a minimal impact on diffraction quality. Single macromolecular microcrystals grown in nanolitre‐sized droplets allow the very efficient use of protein samples and can produce large quantities of high‐quality samples for data collection. However, there are challenges not only in growing crystals in microfluidic droplets, but also in delivering the droplets into X‐ray beams, including the physical arrangement, beamline and timing constraints and ease of use. Here, the crystallization of two human gut microbial hydrolases in microfluidic droplets is described: a sample‐transport and data‐collection approach that is inexpensive, is convenient, requires small amounts of protein and is forgiving. It is shown that crystals can be grown in 50–500 pl droplets when the crystallization conditions are compatible with the droplet environment. Local and remote data‐collection methods are described and it is shown that crystals grown in microfluidics droplets and housed as an emulsion in an Eppendorf tube can be shipped from the US to the UK using a FedEx envelope, and data can be collected successfully. Details of how crystals were delivered to the X‐ray beam by depositing an emulsion of droplets onto a silicon fixed‐target serial device are provided. After three months of storage at 4°C, the crystals endured and diffracted well, showing only a slight decrease in diffracting power, demonstrating a suitable way to grow crystals, and to store and collect the droplets with crystals for data collection. This sample‐delivery and data‐collection strategy allows crystal droplets to be shipped and set aside until beamtime is available. [ABSTRACT FROM AUTHOR]

Published

2022

5. Maternal diet alters human milk oligosaccharide composition with implications for the milk metagenome.

Author

Seferovic, Maxim D., Mohammad, Mahmoud, Pace, Ryan M., Engevik, Melinda, Versalovic, James, Bode, Lars, Haymond, Morey, and Aagaard, Kjersti M.

Subjects

*BREAST milk, *OLIGOSACCHARIDES, *LACTOSE, *MACROMOLECULES, *FUCOSIDASES

Abstract

Human milk is the optimal nutrition source for infants, and oligosaccharides represent the third most abundant component in milk after lactose and fat. Human milk oligosaccharides (HMO) are favorable macromolecules which are, interestingly, indigestible by the infant but serve as substrates for bacteria. Hypothesizing that the maternal diet itself might influence HMO composition, we sought to directly determine the effect maternal diet on HMO and the milk bacteria. Employing a human cross-over study design, we demonstrate that distinct maternal dietary carbohydrate and energy sources preferentially alter milk concentrations of HMO, including fucosylated species. We find significant associations between the concentration of HMO-bound fucose and the abundance of fucosidase (a bacterial gene that digests fucose moieties) harbored by milk bacteria. These studies reveal a successive mechanism by which the maternal diet during lactation alters milk HMO composition, which in turn shapes the functional milk microbiome prior to infant ingestion. [ABSTRACT FROM AUTHOR]

Published

2020

6. Architecture Insight of Bifidobacterial α-L-Fucosidases

Author

José Antonio Curiel, Ángela Peirotén, José María Landete, Ana Ruiz de la Bastida, Susana Langa, and Juan Luis Arqués

Subjects

bifidobacteria, fucosidases, glycosyl hydrolases, conserved domains, human milk, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Fucosylated carbohydrates and glycoproteins from human breast milk are essential for the development of the gut microbiota in early life because they are selectively metabolized by bifidobacteria. In this regard, α-L-fucosidases play a key role in this successful bifidobacterial colonization allowing the utilization of these substrates. Although a considerable number of α-L-fucosidases from bifidobacteria have been identified by computational analysis, only a few of them have been characterized. Hitherto, α-L-fucosidases are classified into three families: GH29, GH95, and GH151, based on their catalytic structure. However, bifidobacterial α-L-fucosidases belonging to a particular family show significant differences in their sequence. Because this fact could underlie distinct phylogenetic evolution, here extensive similarity searches and comparative analyses of the bifidobacterial α-L-fucosidases identified were carried out with the assistance of previous physicochemical studies available. This work reveals four and two paralogue bifidobacterial fucosidase groups within GH29 and GH95 families, respectively. Moreover, Bifidobacterium longum subsp. infantis species exhibited the greatest number of phylogenetic lineages in their fucosidases clustered in every family: GH29, GH95, and GH151. Since α-L-fucosidases phylogenetically descended from other glycosyl hydrolase families, we hypothesized that they could exhibit additional glycosidase activities other than fucosidase, raising the possibility of their application to transfucosylate substrates other than lactose in order to synthesis novel prebiotics.

Published

2021

7. Development of a UHPLC-MS method for inhibitor screening against α-L-1,3-fucosidase.

Author

Liu, Tangrong, Liu, Ruonan, Zhu, Li, Zou, Xuan, Guan, Huashi, and Xu, Zhe

Subjects

*FUCOSIDASES, *CYSTIC fibrosis treatment, *SACCHARIDES, *ALDITOLS

Abstract

α-L-Fucosidase (AFU) is a promising therapeutic target for the treatment of inflammation, cancer, cystic fibrosis, and fucosidosis. Some of the existing analytical methods for the assessment of AFU activity are lacking in sensitivity and selectivity, since most of them are based on spectrofluorimetric methods. More recently, mass spectrometry (MS) has evolved as a key technology for enzyme assays and inhibitor screening as it enables accurate monitoring of the conversion of substrate to product in enzymatic reactions. In this study, UHPLC-MS has been utilized to develop a simple, sensitive, and accurate assay for enzyme kinetics and inhibition studies of AFU3, a member of the AFU family. A reported method for analyzing saccharide involving a porous graphitic carbon column, combined with reduction by NaBH4/CH3OH, was used to improve sensitivity. The conversion of saccharide into alditol could reach nearly 100% in the NaBH4 reduction reaction. In addition, the bioanalytical quantitative screening method was validated according to US-FDA guidance, including selectivity, linearity, precision, accuracy, stability, and matrix effect. The developed method displayed a good accuracy, high sensitivity (LOD = 0.05 mg L−1), and good reproducibility (RSD < 15%). The assay accurately measured an IC50 value of 0.40 μM for the known AFU inhibitor, deoxyfuconojirimycin, which was consistent with results reported in the literature. Further validation of the assay was achieved through the determination of a high Z′-factor value of 0.89. The assay was applied to screen a marine-derived chemical library against AFU3, which revealed two marine-oriented pyrimidine alkaloids as potential AFU3 inhibitors. Graphical abstract [ABSTRACT FROM AUTHOR]

Published

2019

8. Employment of fucosidases for the synthesis of fucosylated oligosaccharides with biological potential.

Author

Guzmán‐Rodríguez, Francisco, Alatorre‐Santamaría, Sergio, Gómez‐Ruiz, Lorena, Rodríguez‐Serrano, Gabriela, Cruz‐Guerrero, Alma, and García‐Garibay, Mariano

Subjects

*FUCOSIDASES, *OLIGOSACCHARIDE synthesis, *ENZYMATIC analysis, *FUCOSE, *TISSUE analysis, *BLOOD testing

Abstract

Fucosylated oligosaccharides play important physiological roles in humans, including in the immune response, transduction of signals, early embryogenesis and development, growth regulation, apoptosis, pathogen adhesion, and so on. Efforts have been made to synthesize fucosylated oligosaccharides, as it is difficult to purify them from their natural sources, such as human milk, epithelial tissue, blood, and so on. Within the strategies for its in vitro synthesis, it is remarkable the employment of fucosidases, enzymes that normally cleave the fucosyl residue from the non‐reducing end of fucosylated compounds, as these enzymes are also capable of synthesizing them by means of a transfucosylation reaction. This review summarizes the progress in the use of fucosidases for the synthesis of compounds that have potential for industrial and commercial applications. [ABSTRACT FROM AUTHOR]

Published

2019

9. N-Alkyl-1,5-dideoxy-1,5-imino-l-fucitols as fucosidase inhibitors: Synthesis, molecular modelling and activity against cancer cell lines.

Author

Zhou, Jian, Negi, Arvind, Mirallai, Styliana I., Warta, Rolf, Herold-Mende, Christel, Carty, Michael P., Ye, Xin-Shan, and Murphy, Paul V.

Subjects

*FUCOSIDASES, *CELL lines, *CANCER cell growth, *MOLECULAR models, *IMINOSUGARS

Abstract

Graphical abstract Highlights • Synthesis of N -alkylated 1-deoxyfuconojirimycins as α-fucosidase inhibitors. • N -Decyl-1-deoxyfuconojirimycin was toxic towards various cancer cells. • Development of homology models for fucosidases from bovine and human origin. Abstract 1,5-Dideoxy-1,5-imino- l -fucitol (1-deoxyfuconojirimycin, DFJ) is an iminosugar that inhibits fucosidases. Herein, N -alkyl DFJs have been synthesised and tested against the α-fucosidases of T. maritima (bacterial origin) and B. taurus (bovine origin). The N -alkyl derivatives were inactive against the bacterial fucosidase, while inhibiting the bovine enzyme. Docking of inhibitors to homology models, generated for the bovine and human fucosidases, was carried out. N -Decyl-DFJ was toxic to cancer cell lines and was more potent than the other N -alkyl DFJs studied. [ABSTRACT FROM AUTHOR]

Published

2019

10. Long-term changes of salivary exoglycosidases and their applicability as chronic alcohol-drinking and dependence markers.

Author

Waszkiewicz, Napoleon, Kratz, Ewa Maria, Chojnowska, Sylwia, Zalewska, Anna, Zwierz, Krzysztof, Szulc, Agata, Szajda, Sławomir Dariusz, Nestsiarovich, Anastasiya, Kapitau, Andrei, Kępka, Alina, Ostrowska, Lucyna, and Ferens-Sieczkowska, Mirosława

Subjects

*ALCOHOL drinking, *DEGLYCOSYLATION, *CIGARETTE smokers, *FUCOSIDASES, *BETA-galactosidase, *GLUCURONIDASE, *MANNOSIDASES

Abstract

Objectives: Investigation of long-term dynamic changes of salivary activity/output of exoglycosidases, deglycosylation processes and their applicability as alcohol markers. Methods: Exoglycosidase (α-fucosidase (FUC), β-galactosidase (GAL), β-glucuronidase (GLU), β-hexosaminidase (HEX, HEX A and HEX B isoenzymes) and α-mannosidase (MAN)) activities were measured in the saliva of healthy social drinking controls (C), alcohol-dependent non-smokers (ANS) and alcohol-dependent smokers (AS) at the 1st, 15th, 30th and 50th day of abstinence after chronic alcohol drinking. Results: The activity of exoglycosidases was 2-3-fold (MAN), 2-6 fold (FUC), 8-25-fold (HEX A) and 19-40-fold (GLU) higher in the ANS and AS groups than in controls, and had good/excellent sensitivity, specificity and accuracy. The higher outputs of exoglycosidases were in the AS and ANS groups than in controls at the 1st day (GLU, HEX A) and at the 50th day (GLU, FUC, MAN) of abstinence. We found numerous correlations between alcohol-drinking days with GLU and HEX A, alcohol amounts with HEX A and duration of alcohol dependence with FUC and MAN activity/output. Conclusions: Salivary exoglycosidases/deglycosylation processes were still very high up to 50 days after the end of alcohol consumption. We found markers of chronic alcohol consumption (HEX A), alcohol dependence (FUC and MAN) and chronic alcohol consumption and dependence (GLU). [ABSTRACT FROM AUTHOR]

Published

2019

11. Active site complementation and hexameric arrangement in the GH family 29; a structure–function study of α-l-fucosidase isoenzyme 1 from Paenibacillus thiaminolyticus.

Author

Kovaľová, Terézia, Kovaľ, Tomáš, Benešová, Eva, Vodičková, Patricie, Spiwok, Vojtěch, Lipovová, Petra, and Dohnálek, Jan

Subjects

*PAENIBACILLUS, *ISOENZYMES, *FUCOSIDASES, *GLYCOSIDASES, *GENETIC mutation, *MOLECULAR structure

Abstract

α- l -Fucosidase isoenzyme 1 from bacterium Paenibacillus thiaminolyticus is a member of the glycoside hydrolase family GH29 capable of cleaving l -fucose from nonreducing termini of oligosaccharides and glycoconjugates. Here we present the first crystal structure of this protein revealing a novel quaternary state within this family. The protein is in a unique hexameric assembly revealing the first observed case of active site complementation by a residue from an adjacent monomer in this family. Mutation of the complementing tryptophan residue caused changes in the catalytic properties including a shift of the pH optimum, a change of affinity to an artificial chromogenic substrate and a decreased reaction rate for a natural substrate. The wild-type enzyme was active on most of the tested naturally occurring oligosaccharides and capable of transglycosylation on a variety of acceptor molecules, including saccharides, alcohols or chromogenic substrates. Mutation of the complementing residue changed neither substrate specificity nor the preference for the type of transglycosylation acceptor molecule; however, the yields of the reactions were lower in both cases. Maltose molecules bound to the enzyme in the crystal structure identified surface carbohydrate-binding sites, possibly participating in binding of larger oligosaccharides. [ABSTRACT FROM AUTHOR]

Published

2019

12. Carbon dots and gold nanoparticles based immunoassay for detection of alpha-L-fucosidase.

Author

Mintz, Keenan, Waidely, Eric, Zhou, Yiqun, Peng, Zhili, Al-Youbi, Abdulrahman O., Bashammakh, Abdulaziz S., El-Shahawi, Mohammad S., and Leblanc, Roger M.

Subjects

*CARBON, *GOLD nanoparticles, *IMMUNOASSAY, *FUCOSIDASES, *LIVER cancer

Abstract

Abstract Hepatocellular carcinoma (HCC) is among the leading causes of mortality in the world. The detection of HCC in its early stage is the key for early treatment and thus the improvement of the chances of survival. Among the various methods of HCC screening, assays based on the detection of biomarker that is specific to HCC such as alpha- l -fucosidase (AFU) have been regarded as the most prominent methods. In this regards, a new assay for the detection of AFU to screen HCC was developed. This assay was based on the energy transfer between carbon dots (C-dots) and gold nanoparticles (AuNPs), the concentration of AFU could be monitored by the degree of C-dots fluorescence quenching due to the energy transfer. With this assay, a limit of detection of 3.4 nM (well below the diagnostic cutoff point of 80 nM), and a broad linear range of detection from 11.3 to 200 nM were achieved. We also demonstrate the determination of the concentration of AFU in human blood serum. Graphical abstract Image 1 Highlights • Energy transfer between carbon dots and AuNPs was used to design assay for the detection of alpha- l -fucosidase. • A sandwich assay was designed by combining polyclonal antibody coated AuNPs with monoclonal antibody attached to carbon dots. • A limit of detection of 3.4 nM and linear range from 11.3 to 200 nM were achieved. [ABSTRACT FROM AUTHOR]

Published

2018

13. Identity and role of the non-conserved acid/base catalytic residue in the GH29 fucosidase from the spider Nephilingis cruentata.

Author

Perrella, Natalia N, Withers, Stephen G, and Lopes, Adriana R

Subjects

*FUCOSIDASES, *GLYCOSIDASES, *FUCOSE, *SPIDERS, *AMINO acid sequence

Abstract

α- l -Fucosidases are widely occurring enzymes that remove fucose residues from N - and O-fucosylated glycoproteins. Comparison of amino acid sequences of fucosidases reveals that although the nucleophile is conserved among all α- l -fucosidases, the position of the acid/base residue is quite variable. Although several site-directed mutation studies have previously been performed on bacterial fucosidases, the only eukaryotic fucosidase so studied was the human fucosidase. Recent alignments indicate that human and Arthropoda α- l -fucosidases share at least 50% identity and the acid/base residue seems to be conserved among them suggesting a common acid/base residue in Metazoa. Here we describe the cloning and expression in Pichia pastoris of a very active α- l -fucosidase from the spider Nephilingis cruentata (NcFuc) with a K mvalue for pNPFuc of 0.4 mM. NcFuc hydrolyzed fucoidan, 2´fucosyllactose and also lacto- N -difucohexaose II. Mutants modified at the conserved residues D214N, E209A, E59A were expressed and characterized. The 500-fold lower k catof D214N than the wild type was consistent with a role in catalysis, as was the 8000-fold lower k catvalue of E59A. This was supported by the 57-fold increase in the k catof E59A upon addition of azide. A complex pH/rate profile was seen for the wild-type and mutant forms of NcFuc, similar to those measured previously for the Sulfolobus fucosidase. The non-conservative catalytic structure and distinct active site organization reinforce the necessity of structural studies of new fucosidases. [ABSTRACT FROM AUTHOR]

Published

2018

14. Frontiers in Protein Structure Research.

Author

Simon, Istvan, Magyar, Csaba, and Simon, Istvan

Subjects

Biotechnology, Technology: general issues, B.1.1.7, B.1.617.2, C1q, CASP, CO2 concentrating mechanism, COVID-19, E484Q, FK506-binding protein, FKBP12, FKBP51, GalNAc, GlcNAc, Keap1, Li-Fraumeni syndrome, N501Y mutation, NMR, Neu5Ac, Nrf2, OTOL1, ProSPr, Shannon information entropy, T478K and L452R mutation, UBA5, UFC1, UFM1, alphafold, amino acid composition, analytical ultracentrifugation, bidirectional long-short term memory, bifidobacteria, calcium binding proteins, circular dichroism, co-translational protein folding, coarse-grained modeling, complex structure, configurational entropy, conserved domains, contact, convolutional neural network, cysteine reactivity, dataset, deep learning, deep sequencing, diffusion-ordered NMR spectroscopy, distance, electrospray ionization mass spectrometry, energy-dependent protein folding, entropy, erythrocyte membrane, erythrocytes, force fields, free energy, free energy landscape, fucose, fucosidases, galactose, genetic variation, germline TP53 missense variants, glucose, glucuronate, glutathione, glutathionylation, glycosyl hydrolases, hereditary breast cancer, high hydrostatic pressure, homotetramer, human milk, hydrogen/deuterium exchange, iduronate, inter-subunit interaction, intrinsically disordered, intrinsically disordered proteins, manganese, mannose, mass spectrometry, metalloprotein, molecular chaperones, multiscale modeling, mutual synergetic folding, n/a, nitrosylation, nuclear magnetic resonance spectroscopy, otoconia, otolin-1, oxidative folding, oxidative stress, phosphorylation, photosynthesis, physical model of protein folding, prediction, protein, protein conformation, protein dynamics, protein folding, protein-ligand interactions, protein-protein binding, protein-protein complex, protein-protein interactions, quantitative prediction model, residue packing, retardants, retrainable, ribosomal exit tunnel, saturation mutagenesis, site-directed mutagenesis, small-angle X-ray scattering, solvent accessibility of peptide bonds, solvent-accessible surface area, spike protein, tetrabromobisphenol A, tetrabromobisphenol S, tetrahydropyran, thermal shift assay, thermodynamic stability, transient complex, transmembrane proteins, xylose, α-helical bundle

Abstract

Summary: In this Special Issue, we aim to represent the vibrant state of protein structure studies at the end of 2021. Recent decades have brought significant changes to the protein structure research field. Thanks to the genome projects and advances in structure determination methods, the number of solved protein structures has increased significantly. Protein structure research is experiencing a new renaissance, and in 2020 the number of deposited structures in the PDB database reached a new record. An assortment of many new frontiers are presented in this collection. A single Special Issue cannot give a comprehensive overview of a large field such as proteins science, but we aim to give a broad overview of current research.

15. Endo-fucoidan hydrolases from glycoside hydrolase family 107 (GH107) display structural and mechanistic similarities to α-L-fucosidases from GH29.

Author

Vickers, Chelsea, Feng Liu, Abe, Kento, Salama-Alber, Orly, Jenkins, Meredith, Springate, Christopher M. K., Burke, John E., Withers, Stephen G., and Boraston, Alisdair B.

Subjects

*GLYCOSIDASES, *HYDROLASES, *FUCOSIDASES, *FUCANS, *ANTIBACTERIAL agents, *ANTICOAGULANTS

Abstract

Fucoidans are chemically complex and highly heterogeneous sulfated marine fucans from brown macro algae. Possessing a variety of physicochemical and biological activities, fucoidans are used as gelling and thickening agents in the food industry and have anticoagulant, antiviral, antitumor, antibacterial, and immune activities. Although fucoidan-depolymerizing enzymes have been identified, the molecular basis of their activity on these chemically complex polysaccharides remains largely uninvestigated. In this study, we focused on three glycoside hydrolase family 107 (GH107) enzymes: MfFcnA and two newly identified members, P5AFcnA and P19DFcnA, from a bacterial species of the genus Psychromonas. Using carbohydrate-PAGE, we show that P5AFcnA and P19DFcnA are active on fucoidans that differ from those depolymerized by MfFcnA, revealing differential substrate specificity within the GH107 family. Using a combination of X-ray crystallography and NMR analyses, we further show that GH107 family enzymes share features of their structures and catalytic mechanisms with GH29 α-L-fucosidases. However, we found that GH107 enzymes have the distinction of utilizing a histidine side chain as the proposed acid/base catalyst in its retaining mechanism. Further interpretation of the structural data indicated that the active-site architectures within this family are highly variable, likely reflecting the specificity of GH107 enzymes for different fucoidan substructures. Together, these findings begin to illuminate the molecular details underpinning the biological processing of fucoidans. [ABSTRACT FROM AUTHOR]

Published

2018

16. Improvement of the transfucosylation activity of α-L-fucosidase from Thermotoga maritima for the synthesis of fucosylated oligosaccharides in the presence of calcium and sodium.

Author

Guzmán-Rodríguez, Francisco, Alatorre-Santamaría, Sergio, Gómez-Ruiz, Lorena, Rodríguez-Serrano, Gabriela, García-Garibay, Mariano, and Cruz-Guerrero, Alma

Subjects

*FUCOSIDASES, *THERMOTOGA maritima, *FUCOSYLATION, *OLIGOSACCHARIDES, *HYDROLASES

Abstract

The influence of CaCl2 and NaCl in the hydrolytic activity and the influence of CaCl2 in the synthesis of fucosylated oligosaccharides using α-L-fucosidase from Thermotoga maritima were evaluated. The hydrolytic activity of α-L-fucosidase from Thermotoga maritima displayed a maximum increase of 67% in the presence of 0.8 M NaCl with water activity (aw) of 0.9672 and of 138% in the presence of 1.1 M CaCl2 (aw 0.9581). In addition, the hydrolytic activity was higher when using CaCl2 compared to NaCl at aw of 0.8956, 0.9581 and 0.9672. On the other hand, the effect of CaCl2 in the synthesis of fucosylated oligosaccharides using 4-nitrophenyl-fucose as donor substrate and lactose as acceptor was studied. In these reactions, the presence of 1.1 M CaCl2 favored the rate of transfucosylation, and improved the yield of synthesis duplicating and triplicating it with lactose concentrations of 58 and 146 mM, respectively. CaCl2 did not significatively affect hydrolysis rate in these reactions. The combination of the activating effect of CaCl2, the decrement in aw and lactose concentration had a synergistic effect favoring the synthesis of fucosylated oligosaccharides. [ABSTRACT FROM AUTHOR]

Published

2018

17. Optimization of the method for α-l-fucosidase, β-d-galactosidase and β-d-glucuronidase determination in serum from hemolyzed blood.

Author

Chojnowska, Sylwia, Ptaszyńska-Sarosiek, Iwona, Kępka, Alina, Szajda, Sławomir Dariusz, Waszkiewicz, Napoleon, and Zwierz, Krzysztof

Subjects

*FUCOSIDASES, *GALACTOSIDASES, *BLOOD serum analysis, *PROTEIN analysis, *PRECIPITATION (Chemistry)

Abstract

Abstract Purpose Adaptation of the colorimetric method for the determination of β- d -galactosidase, β- d -glucuronidase and α- l -fucosidase activities in serums from hemolyzed blood, the material currently being discarded. Materials and Methods The materials included serums from hemolyzed and non-hemolyzed blood, obtained from 26 healthy volunteers. The adaptation of the method involved precipitation of the proteins with trichloroacetic acid after incubating serums with substrates, but before determining the products of enzymatic reactions. Results In serums from hemolyzed and non-hemolyzed blood of the same persons, we found high correlations among the results obtained using hemolyzed blood (with adapted) and non-hemolyzed blood (with non-adapted) methods. Conclusion We are able to determine the β- d -galactosidase, β- d -glucuronidase and α- l -fucosidase activities in serums from hemolyzed blood (with adapted) and non-hemolyzed blood (with non-adapted) methods, with the same accuracy and precision. [ABSTRACT FROM AUTHOR]

Published

2018

18. Urinary exoglycosidases, reference values in healthy children.

Author

Zalewska-Szajda, Beata, Taranta-Janusz, Katarzyna, Chojnowska, Sylwia, Waszkiewicz, Napoleon, Zwierz, Krzysztof, and Wasilewska, Anna

Subjects

*URINALYSIS, *GLYCOSIDASES, *CHILDREN'S health, *MANNOSIDASES, *FUCOSIDASES

Abstract

Abstract Purpose The purpose of the study was to determine the effect of age on lysosomal exoglycosidase activities: α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase in healthy children and adolescents. Material and methods Urine samples were collected from 203 healthy children and adolescents (girls = 99, boys = 104), aged six months to 17.9 years. The activities of α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase were determined by colorimetric method and expressed in pKat/μg of creatine (pKat/μg Cr.). Results Urinary α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase activities (pKat/μg Cr.) were the highest in children below 3 years of age in comparison to the remaining age groups. There was a statistically significant negative correlation between urinary α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase (pKat/μg Cr.) and age (r = −0.36; r = −0.36; r = −0.35; r = −0.35; at p < 0.0001, respectively). In addition, we constructed the reference values for urinary activity of α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase (pKat/μg Cr.) in percentiles according to age in 3-year intervals. Conclusions Our study is the first to show reference values for urinary α-fucosidase, β-galactosidase, β-glucuronidase and α-mannosidase in children and adolescents. [ABSTRACT FROM AUTHOR]

Published

2018

19. 健康成年人血清α-L-岩藻糖苷酶参考区间的建立及适用性评价.

Author

刘纯岳, 林帝金, 方俊粤, 梁洁满, 劳伟思, and 林向华

Subjects

FUCOSIDASES, DATA analysis, LIVER cancer patients, SERUM, ALPHA fetoproteins

Abstract

Copyright of Journal of Modern Laboratory Medicine is the property of Journal of Modern Laboratory Medicine Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

20. A novel homozygous frameshift mutation in the FUCA1 gene causes both severe and mild fucosidosis.

Author

Saleh-Gohari, Nasrollah, Saeidi, Kolsoum, and Zeighaminejad, Roya

Subjects

LYSOSOMAL storage diseases, GENETIC mutation, FUCOSIDASES, GENETIC code, RARE diseases

Published

2018

21. Loop engineering of an α-1,3/4-l-fucosidase for improved synthesis of human milk oligosaccharides.

Author

Zeuner, Birgitte, Vuillemin, Marlene, Holck, Jesper, Muschiol, Jan, and Meyer, Anne S.

Subjects

*FUCOSIDASES, *BREAST milk, *OLIGOSACCHARIDE synthesis, *BIFIDOBACTERIUM bifidum, *FUCOSYLATION

Abstract

The α-1,3/4- l -fucosidases (EC 3.2.1.111; GH29) Bb AfcB from Bifidobacterium bifidum and Cp Afc2 from Clostridium perfringens can catalyse formation of the human milk oligosaccharide (HMO) lacto- N -fucopentaose II (LNFP II) through regioselective transfucosylation of lacto- N- tetraose (LNT) with 3-fucosyllactose (3FL) as donor substrate. The current work exploits structural differences between the two enzymes with the aim of engineering Bb AfcB into a more efficient transfucosidase and approaches an understanding of structure-function relations of hydrolytic activity vs. transfucosylation activity in GH29. Replacement of a 23 amino acids long α-helical loop close to the active site of Bb AfcB with the corresponding 17-aminoacid α-helical loop of Cp Afc2 resulted in almost complete abolishment of the hydrolytic activity on 3FL (6000 times lower hydrolytic activity than WT Bb AfcB), while the transfucosylation activity was lowered only one order of magnitude. In turn, the loop engineering resulted in an α-1,3/4- l -fucosidase with transfucosylation activity reaching molar yields of LNFP II of 39 ± 2% on 3FL and negligible product hydrolysis. This was almost 3 times higher than the yield obtained with WT Bb AfcB (14 ± 0.3%) and comparable to that obtained with Cp Afc2 (50 ± 8%). The obtained transfucosylation activity may expand the options for HMO production: mixtures of 3FL and LNT could be enriched with LNFP II, while mixtures of 3FL and lacto- N -neotetraose (LNnT) could be enriched with LNFP III. [ABSTRACT FROM AUTHOR]

Published

2018

22. Synthesis and glycosidase inhibition potency of all-trans substituted 1-C-perfluoroalkyl iminosugars.

Author

Massicot, Fabien, Plantier-Royon, Richard, Vasse, Jean-Luc, and Behr, Jean-Bernard

Subjects

*GLYCOSIDASE inhibitors, *IMINOSUGARS, *ALKYL group, *SUBSTITUENTS (Chemistry), *FUCOSIDASES

Abstract

Synthetic analogues of the naturally occurring iminosugar homoDMDP, which feature a perfluoroalkyl group at the pseudo-anomeric position, have been synthesized from the corresponding sugar-derived cyclic aldonitrone. The new fluorinated iminosugars as well as homoDMDP and its 6-deoxy counterpart were evaluated for their inhibitory activity against a panel of glycosidases. While the replacement of the (1′,2′)-dihydroxyethyl substituent of homoDMDP with –C 4 F 9 proved detrimental for enzyme binding, introduction of a –C 3 F 7 moiety tuned the inhibitory activity spectrum selectively towards α-fucosidase and α-glucosidase from yeast. [ABSTRACT FROM AUTHOR]

Published

2018

23. Molecular characterization of second tomato α1,3/4-fucosidase (α-Fuc'ase Sl-2), a member of glycosyl hydrolase family 29 active toward the core α1,3-fucosyl residue in plant N-glycans.

Author

Rahman, Md. Ziaur, Yuta Tsujimori, Megumi Maeda, Hossain, Md. Anowar, Takeshi Ishimizu, and Yoshinobu Kimura

Subjects

*FUCOSIDASES, *GLYCOSYLASES, *HYDROLASES, *BACULOVIRUSES, *CATALYTIC activity

Abstract

In a previous study, we molecular-characterized a tomato (Solanum lycopersicum) α1, 3/4-fucosidase (α-Fuc'ase Sl-1) encoded in a tomato gene (Solyc03g006980), indicating that α-Fuc'ase Sl-1 is involved in the turnover of Lea epitope-containing N-glycans. In this study, we have characterized another tomato gene (Solyc11g069010) encoding α1, 3/4-fucosidase (α-Fuc'ase Sl-2), which is also active toward the complex type N-glycans containing Lea epitope(s). The baculovirus-insect cell expression system was used to express that α-Fuc'ase Sl-2 with anti-FLAG tag, and the expression product (rFuc'ase Sl-2), was found as a 65 kDa protein using SDS-PAGE and has an optimum pH of around 5.0. Similarly to rFuc'ase Sl-1, rFuc'ase Sl-2 hydrolyzed the non-reducing terminal α1, 3-fucose residue on LNFP III and α1, 4-fucose residues of Lea epitopes on plant complex type N-glycans, but not the core α1, 3-fucose residue on Manβ1-4GlcNAcβ1-4(Fucα1-3)GlcNAc or Fucα1-3GlcNAc. However, we found that both α-Fuc'ases Sl-1 and Sl-2 were specifically active toward α1, 3-fucose residue on GlcNAcb1-4(Fucα1-3)GlcNAc, indicating that the nonsubstituted b-GlcNAc linked to the proximal GlcNAc residue of the core tri-saccharide moiety of plant specific N-glycans must be a pre-requisite for α-Fuc'ase activity. A 3D modelled structure of the catalytic sites of α-Fuc'ase Sl-2 suggested that Asp192 and Glu236 may be important for binding to the α1, 3/4 fucose residue. [ABSTRACT FROM AUTHOR]

Published

2018

24. Sensorimotor and Neurocognitive Dysfunctions Parallel Early Telencephalic Neuropathology in Fucosidosis Mice.

Author

Stroobants, Stijn, Wolf, Heike, Callaerts-Vegh, Zsuzsanna, Dierks, Thomas, Lübke, Torben, and D’Hooge, Rudi

Subjects

FUCOSIDASES, GLYCOPROTEINS, IMMUNOCHEMISTRY, LABORATORY mice, LYSOSOMAL storage diseases, GLYCOGEN storage disease type II

Abstract

Fucosidosis is a lysosomal storage disorder (LSD) caused by lysosomal a-L-fucosidase deficiency. Insufficient a-L-fucosidase activity triggers accumulation of undegraded, fucosylated glycoproteins and glycolipids in various tissues. The human phenotype is heterogeneous, but progressive motor and cognitive impairments represent the most characteristic symptoms. Recently, Fuca1-deficient mice were generated by gene targeting techniques, constituting a novel animal model for human fucosidosis. These mice display widespread LSD pathology, accumulation of secondary storage material and neuroinflammation throughout the brain, as well as progressive loss of Purkinje cells. Fuca1-deficient mice and control littermates were subjected to a battery of tests detailing different aspects of motor, emotional and cognitive function. At an early stage of disease, we observed reduced exploratory activity, sensorimotor disintegration as well as impaired spatial learning and fear memory. These early markers of neurological deterioration were related to the respective stage of neuropathology using molecular genetic and immunochemical procedures. Increased expression of the lysosomal marker Lamp1 and neuroinflammation markers was observed throughout the brain, but appeared more prominent in cerebral areas in comparison to cerebellum of Fuca1-deficient mice. This is consistent with impaired behaviors putatively related to early disruptions of motor and cognitive circuits particularly involving cerebral cortex, basal ganglia, and hippocampus. Thus, Fuca1-deficient mice represent a practical and promising fucosidosis model, which can be utilized for pathogenetic and therapeutic studies. [ABSTRACT FROM AUTHOR]

Published

2018

25. Substrate specificity and transfucosylation activity of GH29 α-l-fucosidases for enzymatic production of human milk oligosaccharides.

Author

Zeuner, Birgitte, Muschiol, Jan, Holck, Jesper, Lezyk, Mateusz, Gedde, Mattias Raae, Jers, Carsten, Mikkelsen, Jørn Dalgaard, and Meyer, Anne S.

Subjects

*OLIGOSACCHARIDES, *COMPOSITION of breast milk, *BIOCHEMICAL substrates, *FUCOSIDASES, *GLYCOSIDASES

Abstract

Human milk oligosaccharides (HMOs) constitute a unique family of bioactive lactose-based molecules present in human breast milk. HMOs are of major importance for infant health and development but also virtually absent from bovine milk used for infant formula. Among the HMOs, the fucosylated species are the most abundant. Transfucosylation catalysed by retaining α- l -fucosidases is a new route for manufacturing biomimetic HMOs. Seven α- l -fucosidases from glycosyl hydrolase family 29 were expressed, characterized in terms of substrate specificity and thermal stability, and shown to be able to catalyse transfucosylation. The α- l -1,3/4-fucosidase CpAfc2 from Clostridium perfringens efficiently catalysed the formation of the more complex human milk oligosaccharide structure lacto- N- fucopentaose II (LNFP II) using 3-fucosyllactose as fucosyl donor and lacto- N -tetraose as acceptor with a 39% yield. α- l -Fucosidases FgFCO1 from Fusarium graminearum and Mfuc5 from a soil metagenome were able to catalyse transfucosylation of lactose using citrus xyloglucan as fucosyl donor. FgFCO1 catalysed formation of 2′-fucosyllactose, whereas Mfuc5 catalysis mainly produced an unidentified, non-HMO fucosyllactose, reaching molar yields based on the donor substrate of 14% and 18%, respectively. [ABSTRACT FROM AUTHOR]

Published

2018

26. Identification and characterization of a core fucosidase from the bacterium Elizabethkingia meningoseptica.

Author

Tiansheng Li, Mengjie Li, Linlin Hou, Yameng Guo, Lei Wang, Guiqin Sun, and Li Chen

Subjects

*ELIZABETHKINGIA, *FUCOSIDASES, *OLIGOSACCHARIDES, *GLYCOPROTEINS, *BIOCHEMICAL substrates

Abstract

All reported α-L-fucosidases catalyze the removal of nonreducing terminal L-fucoses from oligosaccharides or their conjugates, while having no capacity to hydrolyze core fucoses in glycoproteins directly. Here, we identified an α-fucosidase from the bacterium Elizabethkingia meningoseptica with catalytic activity against core α-1,3-fucosylated substrates, and we named it core fucosidase I (cFase I). Using site-specific mutational analysis, we found that three acidic residues (Asp-242, Glu-302, and Glu-315) in the predicted active pocket are critical for cFase I activity, with Asp-242 and Glu-315 acting as a pair of classic nucleophile and acid/base residues and Glu-302 acting in an as yet undefined role. These findings suggest a catalytic mechanism for cFase I that is different from known α-fucosidase catalytic models. In summary, cFase I exhibits glycosidase activity that removes core α-1,3-fucoses from substrates, suggesting cFase I as a new tool for glycobiology, especially for studies of proteins with core fucosylation. [ABSTRACT FROM AUTHOR]

Published

2018

27. Degradation pathway of plant complex-type N-glycans: identification and characterization of a key α1,3-fucosidase from glycoside hydrolase family 29.

Author

Shun Kato, Megumi Hayashi, Mai Kitagawa, Hiroyuki Kajiura, Megumi Maeda, Yoshinobu Kimura, Kiyohiko Igarashi, Masahiro Kasahara, and Takeshi Ishimizu

Subjects

*BIODEGRADATION, *FUCOSIDASES, *GLYCOSIDASES, *EPITOPES, *PLANT growth

Abstract

Plant complex-type N-glycans are characterized by the presence of α1,3-linked fucose towards the proximal N-acetylglucosamine residue and β1,2-linked xylose towards the β- mannose residue. These glycans are ultimately degraded by the activity of several glycoside hydrolases. However, the degradation pathway of plant complex-type N-glycans has not been entirely elucidated because the gene encoding α1,3-fucosidase, a glycoside hydrolase acting on plant complex-type N-glycans, has not yet been identified, and its substrate specificity remains to be determined. In the present study, we found that AtFUC1 (an Arabidopsis GH29 α-fucosidase) is an α1,3-fucosidase acting on plant complex-type N-glycans. This fucosidase has been known to act on α1,4-fucoside linkage in the Lewis A epitope of plant complex-type N-glycans. We found that this glycoside hydrolase specifically acted on GlcNAcβ1-4(Fucα1-3)GlcNAc, a degradation product of plant complex-type N-glycans, by sequential actions of vacuolar α-mannosidase, β1,2-xylosidase, and endo-β-mannosidase. The AtFUC1-deficient mutant showed no distinct phenotypic plant growth features; however, it accumulated GlcNAcβ1-4 (Fucα1-3)GlcNAc, a substrate of AtFUC1. These results showed that AtFUC1 is an α1,3- fucosidase acting on plant complex-type N-glycans and elucidated the degradation pathway of plant complex-type N-glycans. [ABSTRACT FROM AUTHOR]

Published

2018

28. Recalcitrant chronic rhinosinusitis in the setting of fucosidosis, a rare lysosomal storage disorder.

Author

Peng, Tiffany, Modi, Vikash K., and Pearlman, Aaron N.

Subjects

*LYSOSOMAL storage diseases, *SINUSITIS, *CHRONIC wounds & injuries, *FUCOSIDASES, *PARANASAL sinuses

Abstract

Fucosidosis is an autosomal recessive lysosomal storage disorder caused by the deficiency of alpha-L-fucosidase. We present the case of an affected female in the second decade of life with chronic rhinosinusitis (CRS) including recalcitrant polypoid inflammation, which has not been previously reported in the literature. With the advancement of life-prolonging measures, children with lysosomal storage disorders may suffer increasingly from CRS due to the lymphohistiocytic and macrophage infiltrate of the paranasal sinus mucosa that resembles severe polypoid inflammation. [ABSTRACT FROM AUTHOR]

Published

2017

29. Epididymal α-l-fucosidase and its possible role in remodelling the surface of bull spermatozoa.

Author

Aguilera, Andrea Carolina, Boschin, Veronica, Robina, Inmaculada, Elías-Rodríguez, Pilar, and Sosa, Miguel Angel

Subjects

*CATTLE spermatozoa, *EPIDIDYMIS, *FUCOSIDASES, *BULLS, *CATTLE fertility

Abstract

The mammalian epididymis provides an appropriate environment for sperm maturation. During the epididymal transit, spermatozoa undergo biochemical and morphological changes that lead to the acquisition of the fertilizing capacity. In this study we analysed the fucosylation status of membrane glycoproteins in the spermatozoa obtained from different regions of the bull epididymis. High amounts of fucose were detected on caput spermatozoa (R.F.I. = 1010 ± 20.35), mostly located in the post-acrosome zone. A significant decrease in the fucose levels was detected toward the cauda (R.F.I. = 540.5 ± 49.93) (P < 0.05). This decrease was in line with the increased activity of α- l -fucosidase in the cauda fluid. In sperm from the cauda, the defucosylation occurred in some proteins, whereas others showed higher fucosylation rates. A significant decrease of fucose in the gametes was observed upon incubation of crude cauda fluid with caput spermatozoa (from R.F.I. = 1.45 ± 0.08 to 1.06 ± 0.03) (P < 0.05) indicating that the α- l -fucosidase present in the epididymal fluid is active on spermatozoa. Moreover, this effect was blocked with specific enzyme inhibitors. These results provide direct evidence that the α- l -fucosidase from epididymal fluid participates in the fucose removal from spermatozoa, as a step of sperm maturation in the bull epididymis. [ABSTRACT FROM AUTHOR]

Published

2017

30. Alpha-l-Fucosidase Immunoassay for Early Detection of Hepatocellular Carcinoma.

Author

Waidely, Eric, Al-Youbi, Abdulrahman O., Bashammakh, Abdulaziz S., and El-Shahawi, Mohammad S.

Subjects

*FUCOSIDASES, *GLYCOSIDASES, *LIVER cancer, *IMMUNOASSAY, *IMMUNOGLOBULINS

Abstract

Detection of alpha-l-fucosidase has been shown to have relevance in diagnosing hepatocellular carcinoma. Few assays have been developed to measure this enzyme, with most relying on colorimetric techniques involving the enzyme's kinetics. While these assays are facile and quick, the sensitivity is not always sufficient for early tumor detection. To improve upon previous assays for alpha-l-fucosidase, a fluorescence based immunoassay was produced implementing an alpha-l-fucosidase specific antibody (FUCA2). The immobilization of the alpha-l-fucosidase-specific antibody onto a quartz slide was investigated with several bioconjugation approaches and an immunoassay for detection of alpha-l-fucosidase was produced. The immunoassay was utilized to produce calibration curves for quantifying alpha-l-fucosidase concentrations in both PBS and human blood serum. A detection limit of 10 nM was found using human blood serum, which is well below the diagnostic cutoff point of 80 nM. [ABSTRACT FROM AUTHOR]

Published

2017

31. Molecular cloning, characterization and in silico analysis of a thermostable β-glucosidase enzyme from Putranjiva roxburghii with a significant activity for cellobiose.

Author

Kar, Bibekananda, Verma, Preeti, Patel, Girijesh Kumar, and Sharma, Ashwani Kumar

Subjects

*MOLECULAR cloning, *GLYCOSIDASES, *CELLOBIOSE, *FUCOSIDASES, *BETA-galactosidase, *MYROSINASES, *AFFINITY chromatography

Abstract

The native Putranjiva roxburghii family 1 glycoside hydrolase enzyme showed β-D-fucosidase activity in addition to β-D-glucosidase and β-D-galactosidase activities reported in our previous study. A single step concanvalin A affinity chromatography for native PRGH1 improved the yield and reduced the purification time. The PRGH1 gene was cloned and overexpressed in E. coli . The full length gene contained an ORF of 1617 bp encoding a polypeptide of 538 amino acids. The amino acid sequence of PRGH1 showed maximum similarities to β-glucosidases and myrosinases. Both native and recombinant protein showed maximum hydrolytic activity for p NP-Fuc followed by p NP-Glc and p NP-Gal. Significant enzyme activity was also observed for cellobiose, however it decreased with increase in chain-length for glycan substrates. The enzyme showed significant resistant to D-glucose concentration up to 500 mM. Mutational studies confirmed the predicted catalytic acid/base Glu173 and nucleophile Glu389 as key residues for its activity. Moreover, Glu446 and Asn172 played essential role in substrate binding by interacting with the −1 subsite of substrates. Bioinformatic analysis suggested the possible reasons for the broad substrate specificity and other properties of the enzyme. PRGH1 had high sequence similarity towards S-glucosidase and may be involved in defence. The broad specificity, catalytic efficiency and thermostability make PRGH1 potentially an important industrial enzyme. [ABSTRACT FROM AUTHOR]

Published

2017

32. Molecular characterization of tomato α1,3/4-fucosidase, a member of glycosyl hydrolase family 29 involved in the degradation of plant complex type N-glycans.

Author

Rahman, Md. Ziaur, Maeda, Megumi, Itano, Satsuki, Hossain, Md. Anowar, Takeshi Ishimizu, and Yoshinobu Kimura

Subjects

*MOLECULAR structure, *FUCOSIDASES, *GLYCANS, *GLYCOPROTEINS, *TOMATOES

Abstract

In this study, we identified α gene in tomαto thαt encodes αn αcidic α-fucosidαse (LOC101254568 or Solyc03g006980, α-Fuc'αse S1-1), which mαy βe involved in the turnover of plαnt complex-type N-glycαns. Recomβinαnt α-Fuc'αse S1-1 (rFuc'αse S1-1) wαs expressed using α βαculovirus_insect cell expression system. rFuc'αse Sl-1 is 55 kDα in size αnd hαs αn optimum pH αround 4.5. It suβstαntiαlly hydrolyzed the non-reducing terminαl α1,3-fucose residue on LNFP III αnd α1,4-fucose residues of Leα epitopes on plαnt complex-type N-glycαns, βut not the α1,2-fucose residue on LNFP I or the α1,3-fucose residue on pyridylαminαted Fucα1-3GlcNAc. Furthermore, we found thαt this tomαto α-Fuc'αse S1-1 wαs inαctive towαrd the core pentα-oligosαcchαride unit [Mαnβ1-4(Xylβ1-2)GlcNAcβ1-4(Fucα1-3)GlcNAc-PA] of plαnt complex-type N-glycαns. Moleculαr 3D modelling of α-Fuc'αse Sl-1 αnd structure/sequence interpretαtion βαsed on compαrison with α homologous α-fucosidαse from Bifidoβαcterium longum suβsp. infαntis (Blon_2336) indicαted thαt residues Asp193 αnd Glu237 might βe importαnt for suβstrαte βinding. [ABSTRACT FROM AUTHOR]

Published

2017

33. Characterization of a new α-l-fucosidase isolated from Fusarium proliferatum LE1 that is regioselective to α-(1 → 4)-l-fucosidic linkage in the hydrolysis of α-l-fucobiosides.

Author

Shvetsova, Svetlana V., Shabalin, Konstantin A., Bobrov, Kirill S., Ivanen, Dina R., Ustyuzhanina, Nadezhda E., Krylov, Vadim B., Nifantiev, Nikolay E., Naryzhny, Stanislav N., Zgoda, Victor G., Eneyskaya, Elena V., and Kulminskaya, Anna A.

Subjects

*FUSARIUM proliferatum, *FUCOSIDASES, *HYDROLYSIS, *LINKAGE (Genetics), *REGIOSELECTIVITY (Chemistry), *BIOCHEMICAL substrates, *CHROMATOGRAPHIC analysis

Abstract

Here, we report the biochemical characterization of a novel α- l -fucosidase with broad substrate specificity (FpFucA) isolated from the mycelial fungus Fusarium proliferatum LE1. Highly purified α- l -fucosidase was obtained from several chromatographic steps after growth in the presence of l -fucose. The purified α- l -fucosidase appeared to be a monomeric protein of 67 ± 1 kDa that was able to hydrolyze the synthetic substrate p -nitrophenyl α- l -fucopyranoside ( p NPFuc), with K m = 1.1 ± 0.1 mM and k cat = 39.8 ± 1.8 s −1 . l -fucose, 1-deoxyfuconojirimycin and tris(hydroxymethyl)aminomethane inhibited p NPFuc hydrolysis, with inhibition constants of 0.2 ± 0.05 mM, 7.1 ± 0.05 nM, and 12.2 ± 0.1 mM, respectively. We assumed that the enzyme belongs to subfamily A of the GH29 family (CAZy database) based on its ability to hydrolyze practically all fucose-containing oligosaccharides used in the study and the phylogenetic analysis. We found that this enzyme was a unique α- l -fucosidase that preferentially hydrolyzes the α-(1 → 4)- L -fucosidic linkage present in α- L -fucobiosides with different types of linkages. As a retaining glycosidase, FpFucA is capable of catalyzing the transglycosylation reaction with alcohols (methanol, ethanol, and 1-propanol) and p NP-containing monosaccharides as acceptors. These features make the enzyme an important tool that can be used in the various modifications of valuable fucose-containing compounds. [ABSTRACT FROM AUTHOR]

Published

2017

34. Purification, expression and characterization of a novel α-l-fucosidase from a marine bacteria Wenyingzhuangia fucanilytica.

Author

Dong, Shujun, Chang, Yaoguang, Shen, Jingjing, Xue, Changhu, and Chen, Feng

Subjects

*FUCOSIDASES, *PROTEIN fractionation, *MARINE bacteria, *PROTEIN expression, *PROTEOMICS

Abstract

α- l -Fucosyl residues are frequently found in oligosaccharides, polysaccharides and glycoconjugates which play fundamental roles in various biological processes. α- l -Fucosidases, glycoside hydrolases for catalyzing the removal of α- l -fucose, can serve as desirable tools in the study and the modification of fucose-containing biomolecules. In this study, an α- l -fucosidase named as Alf1_Wf was purified from a marine bacterium Wenyingzhuangia fucanilytica by using a combination of chromatographic procedures. The sequence of Alf1_Wf was identified via proteomics analysis against the predicted proteome of the bacterium. Recombinant Alf1_Wf with 6×His tag was expressed in E. coli and showed α- l -fucosidase activity. Sequence annotation revealed that Alf1_Wf contained a combination of GH29 catalytic domain and CBM35 accessory domain. Alf1_Wf was confirmed as a member of GH29-A subfamily based on the phylogenetic analysis. Furthermore, biochemical properties and kinetic characteristics of the enzyme were also determined. Substrate specificity determination showed that Alf1_Wf was capable in hydrolyzing α1,4-fucosidic linkage and synthetic substrate pNP-fucose. Besides, Alf1_Wf could act on partially degraded fucoidan. This study successfully purified, identified, cloned, expressed and characterized a novel α- l -fucosidase, and meanwhile revealed a new multidomain structure of glycoside hydrolase. The knowledge gained from this study should facilitate the further research and application of α- l -fucosidases. [ABSTRACT FROM AUTHOR]

Published

2017

35. Study of the Alpha-l-Fucosidase Langmuir Monolayer at the Air-Water Interface.

Author

Waidely, Eric, Al-Youbi, Abdulrahman O., Bashammakh, Abdulaziz S., El-Shahawi, Mohammad S., and Leblanc, Roger M.

Subjects

*FUCOSIDASES, *LANGMUIR probes, *AIR-water interfaces, *LIVER cancer, *SURFACE chemistry

Abstract

Alpha-l-fucosidase is a known biomarker for hepatocellular carcinoma that has shown great potential in diagnostics. Most of the focus for this enzyme has been on the free form found in serum; however, little is known of the properties of the minor portion of membrane-bound alpha-l-fucosidase. To better understand the properties of membrane-bound alpha-l-fucosidase, this enzyme was surveyed at the air-water interface. Alpha-l-fucosidase is able to form a stable Langmuir monolayer, which was confirmed through surface-pressure and surface-potential area isotherms, as well as infrared reflection-absorption spectroscopy (IRRAS). Furthermore, an interaction between the alpha-l-fucosidase Langmuir monolayer and a specific antibody for this enzyme, FUCA2, was observed. [ABSTRACT FROM AUTHOR]

Published

2016

36. Fucosylated Human Milk Oligosaccharide Foraging within the Species Bifidobacterium pseudocatenulatum Is Driven by Glycosyl Hydrolase Content and Specificity

Author

Chad F. Masarweh, Amr El-Hawiet, John S. Klassen, Carlito B. Lebrilla, David A. Mills, Carolyn M. Slupsky, Linh Nguyen, Nick M Jensen, Britta E. Heiss, Jennifer L Hoeflinger, Jasmine C.C. Davis, Jules A. Larke, Guy Shani, Elisha Goonatilleke, Saumya Wickramasinghe, and Dudley, Edward G

Subjects

Glycan, Hydrolases, Bifidobacterium pseudocatenulatum, substrate-binding protein, Oligosaccharides, Microbiology, Applied Microbiology and Biotechnology, fucosylated HMO, Hydrolase, Gene cluster, Humans, Fucosidase, Gene, health care economics and organizations, Nutrition, Pediatric, chemistry.chemical_classification, alpha-L-Fucosidase, fucosidases, Ecology, biology, Milk, Human, Catabolism, strain specificity, Infant, α-fucosidase, glycan metabolism, Oligosaccharide, alpha-fucosidase, Milk, chemistry, biology.protein, Food Microbiology, milk oligosaccharides, Female, Bifidobacterium, Human, Food Science, Biotechnology

Abstract

Human milk enriches members of the genus Bifidobacterium in the infant gut. One species, Bifidobacterium pseudocatenulatum, is found in the gastrointestinal tracts of adults and breastfed infants. In this study, B. pseudocatenulatum strains were isolated and characterized to identify genetic adaptations to the breastfed infant gut. During growth on pooled human milk oligosaccharides (HMOs), we observed two distinct groups of B. pseudocatenulatum, isolates that readily consumed HMOs and those that did not, a difference driven by variable catabolism of fucosylated HMOs. A conserved gene cluster for fucosylated HMO utilization was identified in several sequenced B. pseudocatenulatum strains. One isolate, B. pseudocatenulatum MP80, which uniquely possessed GH95 and GH29 α-fucosidases, consumed the majority of fucosylated HMOs tested. Furthermore, B. pseudocatenulatum SC585, which possesses only a single GH95 α-fucosidase, lacked the ability to consume the complete repertoire of linkages within the fucosylated HMO pool. Analysis of the purified GH29 and GH95 fucosidase activities directly on HMOs revealed complementing enzyme specificities with the GH95 enzyme preferring 1-2 fucosyl linkages and the GH29 enzyme favoring 1-3 and 1-4 linkages. The HMO-binding specificities of the family 1 solute-binding protein component linked to the fucosylated HMO gene cluster in both SC585 and MP80 are similar, suggesting differential transport of fucosylated HMO is not a driving factor in each strain's distinct HMO consumption pattern. Taken together, these data indicate the presence or absence of specific α-fucosidases directs the strain-specific fucosylated HMO utilization pattern among bifidobacteria and likely influences competitive behavior for HMO foraging in situ. IMPORTANCE Often isolated from the human gut, microbes from the bacterial family Bifidobacteriaceae commonly possess genes enabling carbohydrate utilization. Isolates from breastfed infants often grow on and possess genes for the catabolism of human milk oligosaccharides (HMOs), glycans found in human breast milk. However, catabolism of structurally diverse HMOs differs between bifidobacterial strains. This study identifies key gene differences between Bifidobacterium pseudocatenulatum isolates that may impact whether a microbe successfully colonizes an infant gut. In this case, the presence of complementary α-fucosidases may provide an advantage to microbes seeking residence in the infant gut. Such knowledge furthers our understanding of how diet drives bacterial colonization of the infant gut.

Published

2022

37. Structure and function of microbial α-l-fucosidases: a mini review.

Author

Wu H, Owen CD, and Juge N

Subjects

Animals, Fucose chemistry, Substrate Specificity, Mammals metabolism, alpha-L-Fucosidase genetics, alpha-L-Fucosidase chemistry, alpha-L-Fucosidase metabolism, Oligosaccharides chemistry

Abstract

Fucose is a monosaccharide commonly found in mammalian, insect, microbial and plant glycans. The removal of terminal α-l-fucosyl residues from oligosaccharides and glycoconjugates is catalysed by α-l-fucosidases. To date, glycoside hydrolases (GHs) with exo-fucosidase activity on α-l-fucosylated substrates (EC 3.2.1.51, EC 3.2.1.-) have been reported in the GH29, GH95, GH139, GH141 and GH151 families of the Carbohydrate Active Enzymes (CAZy) database. Microbes generally encode several fucosidases in their genomes, often from more than one GH family, reflecting the high diversity of naturally occuring fucosylated structures they encounter. Functionally characterised microbial α-l-fucosidases have been shown to act on a range of substrates with α-1,2, α-1,3, α-1,4 or α-1,6 fucosylated linkages depending on the GH family and microorganism. Fucosidases show a modular organisation with catalytic domains of GH29 and GH151 displaying a (β/α)8-barrel fold while GH95 and GH141 show a (α/α)6 barrel and parallel β-helix fold, respectively. A number of crystal structures have been solved in complex with ligands, providing structural basis for their substrate specificity. Fucosidases can also be used in transglycosylation reactions to synthesise oligosaccharides. This mini review provides an overview of the enzymatic and structural properties of microbial α-l-fucosidases and some insights into their biological function and biotechnological applications., (© 2023 The Author(s).)

Published

2023

38. The fucosidase-pool of Emticicia oligotrophica: Biochemical characterization and transfucosylation potential.

Author

Si Liu, Anna Kulinich, Cai, Zhi P., Ma, Hong Y., Du, Ya M., Lv, Yong M., Liu, Li, and Voglmeir, Josef

Subjects

*FUCOSIDASES, *FUCOSYLATION, *GLYCOSYLATION, *BIOTECHNOLOGY, *HYDROLYSIS

Abstract

Three novel bacterial a-L-fucosidases, which cleave terminal fucosyl residues from glycoconjugates are reported in this work. Originating from the recently discovered bacterium Emticicia oligotrophica, recombinant fucosidase isoforms designated as Eo0918, Eo3066 and Eo3812 were shown to have the highest activity between pH 6.0 and 7.0 and temperature optima between 30 and 45°C. All enzymes catalyzed the hydrolysis of the model substrate pNP-a-L-fucose and revealed significantly different regiospecificities towards fucose-containing oligosaccharides: Eo0918 liberated exclusively a1,6-linked fucose and Eo3812 released only a1,3-fucosyl residues, whereas Eo3066 showed broader substrate promiscuity. The enzymatic activity of Eo0918 and Eo3812 increased upon the addition of Ca2+, Mn2+ and Zn2+ ions, whereas the activity of Eo3066 was significantly decreased in the presence of these metal ions. In addition, Eo0918 also catalyzed the transfer of fucose from pNP-a-L-fucose to the 7-hydroxyl group of 4-methylumbelliferone with up to 15%transglycosylation yield. Facile recombinant expression in E. coli, distinct substrate specificities and the transglycosylation ability of Eo0918 presented herein make these newly discovered fucosidases valuable candidates for bioanalytical and biotechnological applications. [ABSTRACT FROM AUTHOR]

Published

2016

39. Post-Synthetic Defucosylation of AGP by Aspergillus nidulans α-1,2-Fucosidase Expressed in Arabidopsis Apoplast Induces Compensatory Upregulation of α-1,2-Fucosyltransferases.

Author

Pogorelko, Gennady V., Reem, Nathan T., Young, Zachary T., Chambers, Lauran, and Zabotina, Olga A.

Subjects

*ASPERGILLUS nidulans, *FUCOSIDASES, *ARABIDOPSIS, *PLANT cell walls, *FUCOSYLTRANSFERASES, *PLANT growth, *CELL communication, *PLANT-microbe relationships

Abstract

Cell walls are essential components of plant cells which perform a variety of important functions for the different cell types, tissues and organs of a plant. Besides mechanical function providing cell shape, cell walls participate in intercellular communication, defense during plant-microbe interactions, and plant growth. The plant cell wall consists predominantly of polysaccharides with the addition of structural glycoproteins, phenolic esters, minerals, lignin, and associated enzymes. Alterations in the cell wall composition created through either changes in biosynthesis of specific constituents or their post-synthetic modifications in the apoplast compromise cell wall integrity and frequently induce plant compensatory responses as a result of these alterations. Here we report that post-synthetic removal of fucose residues specifically from arabinogalactan proteins in the Arabidopsis plant cell wall induces differential expression of fucosyltransferases and leads to the root and hypocotyl elongation changes. These results demonstrate that the post-synthetic modification of cell wall components presents a valuable approach to investigate the potential signaling pathways induced during plant responses to such modifications that usually occur during plant development and stress responses. [ABSTRACT FROM AUTHOR]

Published

2016

40. Alpha-fucosidosis - Two brothers presenting with dysostosis multiplex.

Author

Shaukat, Rimshah, Raza, Syed Musa, Yuns, Zabedah Md., Omar, Affandi, and Afroze, Bushra

Subjects

*NEURODEGENERATION, *FUCOSIDASES, *DYSOSTOSIS, *EARLY death, *DISEASE progression, *MEDICAL radiology, *DIAGNOSIS

Abstract

α-Fucosidosis is a rare inherited neuro-degenerative disorder causing progressive neurological deterioration leading to early death. Definitive diagnosis requires α-fucosidase enzyme assay or FUCA1 gene testing, which being expensive limits the definitive diagnosis in resource limited countries. We present two siblings with classic symptoms, radiological and MRI brain findings suggestive of α-fucosidosis and a clinical approach to reach to the diagnosis. [ABSTRACT FROM AUTHOR]

Published

2016

41. MRI and MRS findings in fucosidosis; a rare lysosomal storage disease.

Author

Ediz, Suna Sahin, Aralasmak, Ayse, Yilmaz, Temel Fatih, Toprak, Huseyin, Yesil, Gozde, and Alkan, Alpay

Subjects

*LYSOSOMAL storage diseases, *MAGNETIC resonance imaging, *FUCOSIDASES, *BOYS, *ANGIOKERATOMA corporis diffusum, *DNA mutational analysis, *DIAGNOSIS, *DISEASES

Abstract

Fucosidosis is a rare lysosomal storage disorder caused by deficient activity of the enzyme l -fucosidase in all tissues. We presented magnetic resonance imaging [MRI] and MR spectroscopy [MRS] findings of a 4-year-old boy with genetically proven fucosidosis. He had a history and clinical findings of recurrent sinopulmonary infections, hypertonicity on lower extremities, gingival hypertrophy, bilateral ptosis, angiokeratoma corporis diffusum, and dysostosis multiplex. He had no organomegaly and urine glycosaminoglycan analysis were normal. MRI revealed abnormalities within the globus pallidus and periventricular and subcortical white matter. MRS showed a peak at the 3.8–3.9 ppm as a result of accumulating carbohydrate containing macromolecules and another peak at 1.2 which was doublet and inverted on TE 135, suggesting fructose peak. A final diagnosis of fucosidosis was proved by mutational analysis of FUCA1 gene which is responsible for the Fucosidosis phenotype. Two recent reports of MRS of two patients demonstrated that MRS is specific for fucosidosis. In this case, we aim to discuss fucosidosis with MRI and MRS findings accompanied by the literature. [ABSTRACT FROM AUTHOR]

Published

2016

42. Cloning, characterization, and production of three α- l-fucosidases from Clostridium perfringens ATCC 13124.

Author

Fan, Shuquan, Zhang, Huaqin, Chen, Xiaodi, Lu, Lili, Xu, Li, and Xiao, Min

Subjects

FUCOSIDASES, CLOSTRIDIUM perfringens, GLYCANS, MICROORGANISMS, BIODEGRADATION

Abstract

α- l-Fucosidases are key enzymes for the degradation of intestinal glycans by gut microbes. In this work, three putative α- l-fucosidases (Afc1, Afc2, and Afc3) genes from Clostridium perfringens ATCC 13124 were cloned and expressed in Escherichia coli. Afc1 had the α- l-fucosidase domain of glycoside hydrolase (GH) 29 family but showed no enzyme activity toward all the substrates examined. The putative acid/base residue of Afc1, Ser205, was replaced by a glutamic acid which is conserved in GH29-B α- l-fucosidases. However, the mutant Afc1-S205E still failed to show enzyme activity. Afc2 and Afc3 were determined to be 1,3-1,4-α- l-fucosidase of GH29-B subfamily and 1,2-α- l-fucosidase of GH95 family, respectively, and both of them could release fucose from porcine gastric mucin (PGM). When C. perfringens ATCC 13124 grew with the presence of PGM, the transcription of afc1 decreased slightly, while those of afc2 and afc3 increased to 2.2-fold and 1.4-fold, respectively, and the enzyme activities of Afc2 and Afc3 in the culture increased to 2.2-fold and 2.6-fold, respectively. These results suggest that Afc2 and Afc3 are involved in the degradation of intestinal fucosyl glycans by C. perfringens ATCC 13124. [ABSTRACT FROM AUTHOR]

Published

2016

43. A second-generation ferrocene–iminosugar hybrid with improved fucosidase binding properties.

Author

Hottin, Audrey, Scandolera, Amandine, Duca, Laurent, Wright, Daniel W., Davies, Gideon J., and Behr, Jean-Bernard

Subjects

*FERROCENE, *IMINOSUGARS, *FUCOSIDASES, *ECOLOGICAL assessment, *ANTINEOPLASTIC agents, *BOVINE anatomy

Abstract

The synthesis and the biological evaluation of a new ferrocenyl-iminosugar conjugate designed for fucosidase inhibitory and anticancer activity is described. The compound showed strong affinity for fucosidase from bovine kidney ( K i = 23 nM) and from Bacteroides thetaiotaomicron ( K i = 150 nM), displaying a 10-fold tighter binding affinity for these enzymes than the previous analogs. The interaction pattern that improves binding has been evaluated through structural analysis of the inhibitor–enzyme complex. The ferrocenyl-iminosugar exhibits significant anticancer activity on MDA-MB-231 and SK-MEL28 cell lines at 100 μM. [ABSTRACT FROM AUTHOR]

Published

2016

44. Design of an α-L-transfucosidase for the synthesis of fucosylated HMOs.

Author

Saumonneau, Amélie, Champion, Elise, Peltier-Pain, Pauline, Molnar-Gabor, Dora, Hendrick, Johann, Tran, Vinh, Hederos, Markus, Dekany, Gyula, and Tellier, Charles

Subjects

*FUCOSIDASES, *FUCOSYLATION, *OLIGOSACCHARIDE synthesis, *BREASTFEEDING, *GENETIC mutation

Abstract

Human milk oligosaccharides (HMOs) are recognized as benefiting breast-fed infants in multiple ways. As a result, there is growing interest in the synthesis of HMOs mimicking their natural diversity. Most HMOs are fucosylated oligosaccharides. α-L-Fucosidases catalyze the hydrolysis of α-L-fucose from the non-reducing end of a glucan. They fall into the glycoside hydrolase GH29 and GH95 families. The GH29 family fucosidases display a classic retaining mechanism and are good candidates for transfucosidase activity. We recently demonstrated that the α-L-fucosidase from Thermotoga maritima (TmaFuc) from the GH29 family can be evolved into an efficient transfucosidase by directed evolution (Osanjo et al. 2007). In this work, we developed semi-rational approaches to design an α-Ltransfucosidase starting with the α-L-fucosidase from commensal bacteria Bifidobacterium longum subsp. infantis (BiAfcB, Blon_2336). Efficient fucosylation was obtained with enzyme mutants (L321P-BiAfcB and F34I/L321P-BiAfcB) enabling in vitro synthesis of lactodifucotetraose, lacto-N-fucopentaose II, lacto-N-fucopentaose III and lacto-N-difucohexaose I. The enzymes also generated more complex HMOs like fucosylated para-lacto-N-neohexaose (F-p-LNnH) and mono- or difucosylated lacto-N-neohexaose (F-LNnH-I, F-LNnH-II and DF-LNnH). It is worth noting that mutation at these two positions did not result in a strong decrease in the overall activity of the enzyme, which makes these variants interesting candidates for large-scale transfucosylation reactions. For the first time, this work provides an efficient enzymatic method to synthesize the majority of fucosylated HMOs. [ABSTRACT FROM AUTHOR]

Published

2016

45. Novel α-L-Fucosidases from a Soil Metagenome for Production of Fucosylated Human Milk Oligosaccharides.

Author

Lezyk, Mateusz, Jers, Carsten, Kjaerulff, Louise, Gotfredsen, Charlotte H., Mikkelsen, Maria D., and Mikkelsen, Jørn D.

Subjects

*FUCOSIDASES, *GLYCOSIDASES, *SOILS, *GENOMES, *BREAST milk

Abstract

This paper describes the discovery of novel α-L-fucosidases and evaluation of their potential to catalyse the transglycosylation reaction leading to production of fucosylated human milk oligosaccharides. Seven novel α-L-fucosidase-encoding genes were identified by functional screening of a soil-derived metagenome library and expressed in E. coli as recombinant 6xHis-tagged proteins. All seven fucosidases belong to glycosyl hydrolase family 29 (GH 29). Six of the seven α-L-fucosidases were substrate-inhibited, moderately thermostable and most hydrolytically active in the pH range 6–7, when tested with para-nitrophenyl-α-L-fucopyranoside (pNP-Fuc) as the substrate. In contrast, one fucosidase (Mfuc6) exhibited a high pH optimum and an unusual sigmoidal kinetics towards pNP-Fuc substrate. When tested for trans-fucosylation activity using pNP-Fuc as donor, most of the enzymes were able to transfer fucose to pNP-Fuc (self-condensation) or to lactose. With the α-L-fucosidase from Thermotoga maritima and the metagenome-derived Mfuc5, different fucosyllactose variants including the principal fucosylated HMO 2’-fucosyllactose were synthesised in yields of up to ~6.4%. Mfuc5 was able to release fucose from xyloglucan and could also use it as a fucosyl-donor for synthesis of fucosyllactose. This is the first study describing the use of glycosyl hydrolases for the synthesis of genuine fucosylated human milk oligosaccharides. [ABSTRACT FROM AUTHOR]

Published

2016

46. Exploring the dynamic role of L-fucose and α-L-fucosidases in the cross talk between gut bacteria and host

Subjects

activity-based probe, fucosidases, human gut microbiota, fucysolated glycans, human-gut microbiota interface

Abstract

As for all cells on earth, both human gut epithelial cells and our gut microbiota are covered by a dense coat of glycans, called the glycocalyx. The unique glycans in this glycocalyx are not encoded in the genome and the biosynthesis of their complex structures is not template-driven. The regular molecular biology tools to study and manipulate the biomolecules DNA and proteins at the molecular level can therefore not be easily applied to elucidate the functional role of glycans and their interacting proteins at this human-gut microbiota interface. The application of techniques from the field of chemical biology however has resulted in a successful strategy for this through the development of smart tailor-made probes – carbohydrate-based bioactive small molecular tools – that target a specific carbohydrate or interacting protein class in a cell or whole organism. In the past decades such glycan-based probes have increasingly been used to unravel glycan-related biological processes. The focus of the research reported in this thesis was on studying fucosylated glycans and their interacting enzymes at the human-gut microbiota interface. Fucosylated glycoproteins are abundant at the gut-microbiota interface and have been implicated in critical biological processes such as immune response, signal transduction, and adhesion of pathogens. Quantification and visualization of fucosidases, the enzymes involved in altering this fucosylation pattern, will help us unravel their biological importance. The research described in this thesis includes the development of two different fucosidase-targeting activity-based probes (ABPs). These new tools can in the future potentially be used in high throughput methods to study the relationship between fucosylation and the maintenance of homeostasis at the human-gut microbiota interface.

Published

2021

47. Exploring the dynamic role of L-fucose and α-L-fucosidases in the cross talk between gut bacteria and host

Author

Yvette Magdalena Cornelia Adriana Luijkx, Boons, G.J.P.H., Wennekes, T., Strijbis, K., and University Utrecht

Subjects

activity-based probe, fucosidases, human gut microbiota, fucysolated glycans, human-gut microbiota interface, chemistry.chemical_compound, chemistry, Host (biology), Gut bacteria, Biology, Fucose, Microbiology

Abstract

As for all cells on earth, both human gut epithelial cells and our gut microbiota are covered by a dense coat of glycans, called the glycocalyx. The unique glycans in this glycocalyx are not encoded in the genome and the biosynthesis of their complex structures is not template-driven. The regular molecular biology tools to study and manipulate the biomolecules DNA and proteins at the molecular level can therefore not be easily applied to elucidate the functional role of glycans and their interacting proteins at this human-gut microbiota interface. The application of techniques from the field of chemical biology however has resulted in a successful strategy for this through the development of smart tailor-made probes – carbohydrate-based bioactive small molecular tools – that target a specific carbohydrate or interacting protein class in a cell or whole organism. In the past decades such glycan-based probes have increasingly been used to unravel glycan-related biological processes. The focus of the research reported in this thesis was on studying fucosylated glycans and their interacting enzymes at the human-gut microbiota interface. Fucosylated glycoproteins are abundant at the gut-microbiota interface and have been implicated in critical biological processes such as immune response, signal transduction, and adhesion of pathogens. Quantification and visualization of fucosidases, the enzymes involved in altering this fucosylation pattern, will help us unravel their biological importance. The research described in this thesis includes the development of two different fucosidase-targeting activity-based probes (ABPs). These new tools can in the future potentially be used in high throughput methods to study the relationship between fucosylation and the maintenance of homeostasis at the human-gut microbiota interface.

Published

2021

48. Development of Activity-Based Probes for Imaging Human α-L-Fucosidases in Cells.

Author

Yu-Ling Hsu, Nandakumar, Manjula, Hsin-Yi Lai, Tzyy-Chao Chou, Chi-Yuan Chu, Chun-Hung Lin, and Lee-Chiang Lo

Subjects

*EPIMERIZATION, *FUCOSIDASES, *CHEMICAL synthesis, *FLUOROPHORES, *MOLECULAR probes

Abstract

We have established a concise synthetic route relying on a key base-promoted epimerization step to synthesize two series of activity-based probes carrying a BODIPY fluorophore for α-L-fucosidase. The resulting probes were evaluated for labeling performance. The one utilizing an o-fluoromethylphenol derivative as the latent trapping unit was successfully applied for the first time to visualize and locate lysosomal α-l-fucosidase activity in human cells. [ABSTRACT FROM AUTHOR]

Published

2015

49. Drosophila sperm surface alpha-l-fucosidase interacts with the egg coats through its core fucose residues.

Author

Intra, Jari, Concetta, Veltri, Daniela, De Caro, Perotti, Maria Elisa, and Pasini, Maria Enrica

Subjects

*DROSOPHILA melanogaster, *FUCOSIDASES, *SPERMATOZOA, *FERTILIZATION (Biology), *MEMBRANE proteins, *IMMUNOFLUORESCENCE

Abstract

Sperm–oocyte interaction during fertilization is multiphasic, with multicomponent events, taking place between egg's glycoproteins and sperm surface receptors. Protein–carbohydrate complementarities in gamete recognition have observed in cases throughout the whole evolutionary scale. Sperm-associated α- l -fucosidases have been identified in various organisms. Their wide distribution and known properties reflect the hypothesis that fucose and α- l -fucosidases have fundamental function(s) during gamete interactions. An α- l -fucosidase has been detected as transmembrane protein on the surface of spermatozoa of eleven species across the genus Drosophila . Immunofluorescence labeling showed that the protein is localized in the sperm plasma membrane over the acrosome and the tail, in Drosophila melanogaster . In the present study, efforts were made to analyze with solid phase assays the oligosaccharide recognition ability of fruit fly sperm α- l -fucosidase with defined carbohydrate chains that can functionally mimic egg glycoconjugates. Our results showed that α- l -fucosidase bound to fucose residue and in particular it prefers N -glycans carrying core α1,6-linked fucose and core α1,3-linked fucose in N -glycans carrying only a terminal mannose residue. The ability of sperm α- l -fucosidase to bind to the micropylar chorion and to the vitelline envelope was examined in in vitro assays in presence of α- l -fucosidase, either alone or in combination with molecules containing fucose residues. No binding was detected when α- l -fucosidase was pre-incubated with fucoidan, a polymer of α- l -fucose and the monosaccharide fucose. Furthermore, egg labeling with anti-horseradish peroxidase, that recognized only core α1,3-linked fucose, correlates with α- l -fucosidase micropylar binding. Collectively, these data support the hypothesis of the potential role of this glycosidase in sperm–egg interactions in Drosophila . [ABSTRACT FROM AUTHOR]

Published

2015

50. Alpha-L-Fucosidase Isoenzyme iso2 from Paenibacillus thiaminolyticus.

Author

Benešová, Eva, Lipovová, Petra, Krejzová, Jana, Kovaľová, Terezia, Buchtová, Patricie, Spiwok, Vojtěch, and Králová, Blanka

Subjects

*FUCOSIDASES, *IMMUNE response, *FERTILIZATION (Biology), *ENZYMES, *PHARMACEUTICAL industry

Abstract

Background: α-L-Fucosidases are enzymes involved in metabolism of α-L-fucosylated molecules, compounds with a fundamental role in different life essential processes including immune response, fertilization and development, but also in some serious pathological events. According to the CAZy database, these enzymes belong to families 29 and 95. Some of them are also reported to be able to catalyze transglycosylation reactions, during which α-L-fucosylated molecules, representing compounds of interest especially for pharmaceutical industry, are formed. Methods: Activity-based screening of a genomic library was used to isolate the gene encoding a novel α-L-fucosidase. The enzyme was expressed in E.coli and affinity chromatography was used for purification of His-tagged α-L- fucosidase. Standard activity assay was used for enzyme characterization. Thin layer chromatography and mass spectrometry were used for transglycosylation reactions evaluation. Results: Using a genomic library of Paenibacillus thiaminolyticus,constructedin E.coli DH5α cells, nucleotide sequence of anew α-L-fucosidase isoenzyme was determined and submitted to the EMBL database (HE654122). However, no similarity with enzymes from CAZy database families 29 and 95 was detected. This enzyme was produced in form of histidine- tagged protein in E.coli BL21 (DE3) cells and purified by metaloaffinity chromatography. Hydrolytic and transglycosylation abilities of α-L-fucosidaseiso2weretestedusingdifferentacceptormolecules. Conclusions: In this study, new enzyme α-L-fucosidase iso2 originating from Paenibacillus thiaminolyticus was described and prepared in recombinant form and its hydrolytic and transglycosylation properties were characterized. As a very low amino acid sequence similarity with known α-L-fucosidases was found, following study could be import- ant for different biochemical disciplines involving molecular modelling. [ABSTRACT FROM AUTHOR]

Published

2015