Your search keyword '"Glycoconjugate"' showing total 7,667 results

1. Guiding the selectivity of commercial glycosidase preparation towards the production of rutinose.

Author

Baglioni, Micaela, Fries, Alexander, Breccia, Javier D., and Mazzaferro, Laura S.

Subjects

*BIOCHEMICAL substrates, *LIQUID-liquid extraction, *AROMATIC compounds, *ACTIVATED carbon, *GLYCOCONJUGATES, *GLYCOSIDASES

Abstract

Aromase™ H2 is an enzymatic cocktail marketed to intensify the aroma, promote clarity and overall flavor of tea by releasing aromatic compounds and antioxidants that are naturally glycosylated. The hydrolysis of a wide range of glycoconjugates is the key to its action, which can arise from the substrate promiscuity of the main diglycosidase or other enzymes that are in the mixture. The characterization focusing on the activity toward flavonoids at different pH values allowed to increase the cocktail ratio of diglycosidase to α-rhamnosidase activity. In that way, the free disaccharide rutinose was selectively obtained in a laboratory scale reactor with 90 % conversion after 3.5 h reaction at pH 8. Purification was carried out by liquid-liquid extraction, recovering the aglycone hesperetin. Subsequent extraction with activated carbon allowed a recovery of 84 % of the rutinose. This work demonstrates the practical application of a commercial cocktail for the selective hydrolysis of rutinosylated compounds. [Display omitted] • Aromase™ H2 activities were measured using flavonoids and synthetic substrates. • Selectivity of the hydrolysis was increased by modifying the reaction conditions. • Hesperidin was hydrolyzed at the heterosidic bond rendering rutinose. • Rutinose and hesperetin were produced in a laboratory scale reactor and purified. [ABSTRACT FROM AUTHOR]

Published

2024

2. Non‐Natural MUC1 Glycopeptide Homogeneous Cancer Vaccine with Enhanced Immunogenicity and Therapeutic Activity.

Author

Guerreiro, Ana, Compañón, Ismael, Lazaris, Foivos S., Labão‐Almeida, Carlos, Oroz, Paula, Ghirardello, Mattia, Marques, Marta C., Corzana, Francisco, and Bernardes, Gonçalo J. L.

Subjects

*VACCINE immunogenicity, *CARRIER proteins, *CANCER vaccines, *VACCINE effectiveness, *PEPTIDES

Abstract

Glycopeptides derived from the glycoprotein mucin‐1 (MUC1) have shown potential as tumor‐associated antigens for cancer vaccine development. However, their low immunogenicity and non‐selective conjugation to carriers present significant challenges for the clinical efficacy of MUC1‐based vaccines. Here, we introduce a novel vaccine candidate based on a structure‐guided design of an artificial antigen derived from MUC1 glycopeptide. This engineered antigen contains two non‐natural amino acids and has an α‐S‐glycosidic bond, where sulfur replaces the conventional oxygen atom linking the peptide backbone to the sugar N‐acetylgalactosamine. The glycopeptide is then specifically conjugated to the immunogenic protein carrier CRM197 (Cross‐Reactive Material 197), a protein approved for human use. Conjugation involves selective reduction and re‐bridging of a disulfide in CRM197, allowing the attachment of a single copy of MUC1. This strategy results in a chemically defined vaccine while maintaining both the structural integrity and immunogenicity of the protein carrier. The vaccine elicits a robust Th1‐like immune response in mice and generates antibodies capable of recognizing human cancer cells expressing tumor‐associated MUC1. When tested in mouse models of colon adenocarcinoma and pancreatic cancer, the vaccine is effective both as a prophylactic and therapeutic use, significantly delaying tumor growth. In therapeutic applications, improved outcomes were observed when the vaccine was combined with an anti‐programmed cell death protein 1 (anti‐PD‐1) checkpoint inhibitor. Our strategy reduces batch‐to‐batch variability and enhances both immunogenicity and therapeutic potential. This site‐specific approach disputes a prevailing dogma where glycoconjugate vaccines require multivalent display of antigens. [ABSTRACT FROM AUTHOR]

Published

2024

3. Metal adduction in mass spectrometric analyses of carbohydrates and glycoconjugates.

Author

Gass, Darren T., Quintero, Ana V., Hatvany, Jacob B., and Gallagher, Elyssia S.

Subjects

*GLYCOCONJUGATES, *GLYCANS, *CARBOHYDRATES, *ADDUCTION, *ION mobility, *METALS, *IMPACT ionization

Abstract

Glycans, carbohydrates, and glycoconjugates are involved in many crucial biological processes, such as disease development, immune responses, and cell–cell recognition. Glycans and carbohydrates are known for the large number of isomeric features associated with their structures, making analysis challenging compared with other biomolecules. Mass spectrometry has become the primary method of structural characterization for carbohydrates, glycans, and glycoconjugates. Metal adduction is especially important for the mass spectrometric analysis of carbohydrates and glycans. Metal‐ion adduction to carbohydrates and glycoconjugates affects ion formation and the three‐dimensional, gas‐phase structures. Herein, we discuss how metal‐ion adduction impacts ionization, ion mobility, ion activation and dissociation, and hydrogen/deuterium exchange for carbohydrates and glycoconjugates. We also compare the use of different metals for these various techniques and highlight the value in using metals as charge carriers for these analyses. Finally, we provide recommendations for selecting a metal for analysis of carbohydrate adducts and describe areas for continued research. [ABSTRACT FROM AUTHOR]

Published

2024

4. Analysis of immunogenicity and purification methods in conjugated polysaccharide vaccines: a new approach in fighting pathogenic bacteria

Author

Arya Sheikhi, Mina Shirmohammadpour, Nima Mahdei Nasirmahalleh, and Bahman Mirzaei

Subjects

glycoconjugate, vaccine, polysaccharide, conjugate, polysaccharide vaccine, immunogenicity, Immunologic diseases. Allergy, RC581-607

Abstract

Carbohydrates are commonly found in conjunction with lipids or proteins, resulting in the formation of glycoconjugates such as glycoproteins, glycolipids, and proteoglycans. These glycoconjugates are essential in various biological activities, including inflammation, cell-cell recognition, bacterial infections, and immune response. Nonetheless, the isolation of naturally occurring glycoconjugates presents challenges due to their typically heterogeneous nature, resulting in variations between batches in structure and function, impeding a comprehensive understanding of their mechanisms of action. Consequently, there is a strong need for the efficient synthesis of artificial glycoconjugates with precisely described compositions and consistent biological properties. The chemical and enzymatic approaches discussed in this paper present numerous research opportunities to develop customised glycoconjugate vaccines.

Published

2024

5. Synthetic Study of Bio-functional Glycans

Author

Fukase, Koichi, Shimoyama, Atsushi, Manabe, Yoshiyuki, Nakada, Masahisa, editor, Tanino, Keiji, editor, Nagasawa, Kazuo, editor, and Yokoshima, Satoshi, editor

Published

2024

6. 2D and 3D anticancer properties of C2-functionalised glucosamine-Pt (IV) prodrugs based on cisplatin scaffold.

Author

Moynihan, Eoin, Galiana-Cameo, Maria, Sandri, Monica, Ruffini, Andrea, Panseri, Silvia, Velasco-Torrijos, Trinidad, Montesi, Monica, Montagner, Diego, Joohari, Shiva, and Imperio, Daniela

Subjects

*ANTINEOPLASTIC agents, *GLUCOSAMINE, *CISPLATIN, *GLYCOCONJUGATES, *HYDROGEN bonding

Abstract

A series of C2-functionalied Pt (IV) glycoconjugates based on glucosamine have been synthesised, characterised and tested as anticancer agents on a series of different 2D and 3D cancer cell lines. The carbohydrate will act as a targeted delivery system to improve the selectivity, exploiting the Warburg Effect and the GLUTs receptors that are overexpressed in most of the cancer cells. The hydroxyl at C2 of the carbohydrates does not participate in hydrogen bonding with the GLUTs receptors, making C2 an attractive position for drug conjugation as seen in literature. In this study, we use the amino functionality at the C2 position in glucosamine and Copper-catalysed Azide-Alkyne Cycloaddition "click" (CuAAC) reaction to connect the prodrug Pt (IV) scaffold to the carbohydrate. We have investigated complexes with different linker lengths, as well as acetyl protected and free derivatives. To the best of our knowledge, this study represents the first series of Pt (IV) glucosamine-conjugates functionalised at C2. [ABSTRACT FROM AUTHOR]

Published

2024

7. Enhanced Sampling Molecular Dynamics Simulations Reveal Transport Mechanism of Glycoconjugate Drugs through GLUT1.

Author

Liu, Zhuo, Cao, Xueting, Ma, Zhenyu, Xu, Limei, Wang, Lushan, Li, Jian, Xiao, Min, and Jiang, Xukai

Subjects

*MOLECULAR dynamics, *GIBBS' energy diagram, *GLUCOSE transporters, *ANTINEOPLASTIC agents, *GLYCOCONJUGATES

Abstract

Glucose transporters GLUT1 belong to the major facilitator superfamily and are essential to human glucose uptake. The overexpression of GLUT1 in tumor cells designates it as a pivotal target for glycoconjugate anticancer drugs. However, the interaction mechanism of glycoconjugate drugs with GLUT1 remains largely unknown. Here, we employed all-atom molecular dynamics simulations, coupled to steered and umbrella sampling techniques, to examine the thermodynamics governing the transport of glucose and two glycoconjugate drugs (i.e., 6-D-glucose-conjugated methane sulfonate and 6-D-glucose chlorambucil) by GLUT1. We characterized the specific interactions between GLUT1 and substrates at different transport stages, including substrate recognition, transport, and releasing, and identified the key residues involved in these procedures. Importantly, our results described, for the first time, the free energy profiles of GLUT1-transporting glycoconjugate drugs, and demonstrated that H160 and W388 served as important gates to regulate their transport via GLUT1. These findings provide novel atomic-scale insights for understanding the transport mechanism of GLUT1, facilitating the discovery and rational design of GLUT1-targeted anticancer drugs. [ABSTRACT FROM AUTHOR]

Published

2024

8. Glycoconjugate-Specific Developmental Changes in the Horse Vomeronasal Organ.

Author

Chun, Jiyoon, Kang, Taeyoung, Seo, Jong-Pil, Jeong, Hyohoon, Kim, Minhan, Kim, Byung Sun, Ahn, Meejung, Kim, Jeongtae, and Shin, Taekyun

Subjects

*VOMERONASAL organ, *FOALS, *OLFACTORY receptors, *SENSORY receptors, *GALACTOSE, *LECTINS, *HORSES, *CELL receptors, *GLYCOCONJUGATES

Abstract

The vomeronasal organ (VNO) is a tubular pheromone-sensing organ in which the lumen is covered with sensory and non-sensory epithelia. This study used immunohistochemistry and lectin histochemistry techniques to evaluate developmental changes, specifically of the glycoconjugate profile, in the horse VNO epithelium. Immunostaining analysis revealed PGP9.5 expression in some vomeronasal non-sensory epithelium (VNSE) cells and in the vomeronasal receptor cells of the vomeronasal sensory epithelium (VSE) in fetuses, young foals, and adult horses. Olfactory marker protein expression was exclusively localized in receptor cells of the VSE in fetuses, young foals, and adult horses and absent in VNSE. To identify the glycoconjugate type, lectin histochemistry was performed using 21 lectins. Semi-quantitative analysis revealed that the intensities of glycoconjugates labeled with WGA, DSL, LEL, and RCA120 were significantly higher in adult horse VSE than those in foal VSE, whereas the intensities of glycoconjugates labeled with LCA and PSA were significantly lower in adult horse VSE. The intensities of glycoconjugates labeled with s-WGA, WGA, BSL-II, DSL, LEL, STL, ConA, LCA, PSA, DBA, SBA, SJA, RCA120, jacalin, and ECL were significantly higher in adult horse VNSE than those in foal VNSE, whereas the intensity of glycoconjugates labeled with UEA-I was lower in adult horse VNSE. Histochemical analysis of each lectin revealed that various glycoconjugates in the VSE were present in the receptor, supporting, and basal cells of foals and adult horses. A similar pattern of lectin histochemistry was also observed in the VNSE of foals and adult horses. In conclusion, these results suggest that there is an increase in the level of N-acetylglucosamine (labeled by WGA, DSL, LEL) and galactose (labeled by RCA120) in horse VSE during postnatal development, implying that they may influence the function of VNO in adult horses. [ABSTRACT FROM AUTHOR]

Published

2024

9. Synthesis and Quantitative Analysis of Glycans Conjugated to Gold Nanoparticles.

Author

Liao, Kuo‐Shiang, Kung, Chih‐Chuan, Cheng, Li‐Chun, Chung, Cinya, and Wong, Chi‐Huey

Subjects

*GOLD nanoparticles, *QUANTITATIVE research, *INFRARED spectroscopy, *LIQUID chromatography, *FLOW cytometry, *GLYCANS, *SIALIC acids

Abstract

Nanoparticles, especially gold nanoparticles (GNPs) have emerged as promising tools for biomedical applications due to their unique properties and ability to be functionalized. However, quantitative analysis of biomolecules conjugated to nanoparticles remains a challenge. Here we report a method to conjugate a synthetic hybrid‐type N‐glycan to GNPs and quantitatively analyze the glycan content. The glycan was first conjugated to N‐hydroxysuccinimide (NHS)‐ester activated GNPs and confirmed qualitatively by Fourier‐transform infrared spectroscopy and flow cytometry. The glycan conjugated‐GNPs were then treated with neuraminidase to release terminal sialic acid from the glycan, which was labeled with 1,2‐diamino‐4,5‐methylenedioxybenzene and quantitatively analyzed by Ultraperformance Liquid Chromatography (UPLC). The amount of the sialic acid released was equivalent to the glycan content on GNPs. This method enabled a precise quantification of glycans conjugated to gold nanoparticles and should facilitate its biomedical applications, including studies of multivalent receptor‐glycan interaction, cell targeting and sorting, and immunization. Overall, this work provides an effective approach to synthesize and characterize nanoparticles conjugates. [ABSTRACT FROM AUTHOR]

Published

2024

10. Evaluation of a FlpA Glycoconjugate Vaccine with Ten N -Heptasaccharide Glycan Moieties to reduce Campylobacter jejuni Colonisation in Chickens.

Author

Corona-Torres, Ricardo, Vohra, Prerna, Chintoan-Uta, Cosmin, Bremner, Abi, Terra, Vanessa S., Mauri, Marta, Cuccui, Jon, Vervelde, Lonneke, Wren, Brendan W., and Stevens, Mark P.

Subjects

CAMPYLOBACTER jejuni, BACTERIAL colonies, MOIETIES (Chemistry), POULTRY as food, CHICKENS, H7N9 Influenza

Abstract

Campylobacter is a major cause of acute gastroenteritis in humans, and infections can be followed by inflammatory neuropathies and other sequelae. Handling or consumption of poultry meat is the primary risk factor for human campylobacteriosis, and C. jejuni remains highly prevalent in retail chicken in many countries. Control of Campylobacter in the avian reservoir is expected to limit the incidence of human disease. Toward this aim, we evaluated a glycoconjugate vaccine comprising the fibronectin-binding adhesin FlpA conjugated to up to ten moieties of the conserved N-linked heptasaccharide glycan of C. jejuni or with FlpA alone. The glycan dose significantly exceeded previous trials using FlpA with two N-glycan moieties. Vaccinated birds were challenged with C. jejuni orally or by exposure to seeder-birds colonised by C. jejuni to mimic natural transmission. No protection against caecal colonisation was observed with FlpA or the FlpA glycoconjugate vaccine. FlpA-specific antibody responses were significantly induced in vaccinated birds at the point of challenge relative to mock-vaccinated birds. A slight but significant antibody response to the N-glycan was detected after vaccination with FlpA-10×GT and challenge. As other laboratories have reported protection against Campylobacter with FlpA and glycoconjugate vaccines in chickens, our data indicate that vaccine-mediated immunity may be sensitive to host- or study-specific variables. [ABSTRACT FROM AUTHOR]

Published

2024

11. Burkholderia pseudomallei Complex Subunit and Glycoconjugate Vaccines and Their Potential to Elicit Cross-Protection to Burkholderia cepacia Complex.

Author

Badten, Alexander J. and Torres, Alfredo G.

Subjects

BURKHOLDERIA cepacia, BURKHOLDERIA pseudomallei, AMINO acid sequence, GRAM-negative bacteria, VACCINES

Abstract

Burkholderia are a group of Gram-negative bacteria that can cause a variety of diseases in at-risk populations. B. pseudomallei and B. mallei, the etiological agents of melioidosis and glanders, respectively, are the two clinically relevant members of the B. pseudomallei complex (Bpc). The development of vaccines against Bpc species has been accelerated in recent years, resulting in numerous promising subunits and glycoconjugate vaccines incorporating a variety of antigens. However, a second group of pathogenic Burkholderia species exists known as the Burkholderia cepacia complex (Bcc), a group of opportunistic bacteria which tend to affect individuals with weakened immunity or cystic fibrosis. To date, there have been few attempts to develop vaccines to Bcc species. Therefore, the primary goal of this review is to provide a broad overview of the various subunit antigens that have been tested in Bpc species, their protective efficacy, study limitations, and known or suspected mechanisms of protection. Then, we assess the reviewed Bpc antigens for their amino acid sequence conservation to homologous proteins found in Bcc species. We propose that protective Bpc antigens with a high degree of Bpc-to-Bcc sequence conservation could serve as components of a pan-Burkholderia vaccine capable of protecting against both disease-causing groups. [ABSTRACT FROM AUTHOR]

Published

2024

12. Ganglioside GM3-based anticancer vaccines: Reviewing the mechanism and current strategies

Author

Jiaxu Zhang, Marco Terreni, Fang Liu, Matthieu Sollogoub, and Yongmin Zhang

Subjects

GM3, TACA, Anticancer Vaccine, Glycoconjugate, Glycoimmunology, Therapeutics. Pharmacology, RM1-950

Abstract

Ganglioside GM3 is one of the most common membrane-bound glycosphingolipids. The over-expression of GM3 on tumor cells makes it defined as a tumor-associated carbohydrate antigen (TACA). The specific expression property in cancers, especially in melanoma, make it become an important target to develop anticancer vaccines or immunotherapies. However, in the manner akin to most TACAs, GM3 is an autoantigen facing with problems of low immunogenicity and easily inducing immunotolerance, which means itself only cannot elicit a powerful enough immune response to prevent or treat cancer. With a comparative understanding of the mechanisms that how immune system responses to the carbohydrate vaccines, this review summarizes the studies on the recent efforts to development GM3-based anticancer vaccines.

Published

2024

13. Effect of glycosylation on the affinity of the MTB protein Ag85B for specific antibodies: towards the design of a dual-acting vaccine against tuberculosis

Author

Roberta Bernardini, Sara Tengattini, Zhihao Li, Luciano Piubelli, Teodora Bavaro, Anamaria Bianca Modolea, Maurizio Mattei, Paola Conti, Stefano Marini, Yongmin Zhang, Loredano Pollegioni, Caterina Temporini, and Marco Terreni

Subjects

Lipoarabinomannan, Tuberculosis, Mycobacterium, Glycoconjugate, Antibodies, Vaccine, Biology (General), QH301-705.5

Abstract

Abstract Background To create a dual-acting vaccine that can fight against tuberculosis, we combined antigenic arabino-mannan analogues with the Ag85B protein. To start the process, we studied the impact of modifying different parts of the Ag85B protein on its ability to be recognized by antibodies. Results Through our research, we discovered that three modified versions of the protein, rAg85B-K30R, rAg85B-K282R, and rAg85B-K30R/K282R, retained their antibody reactivity in healthy individuals and those with tuberculosis. To further test the specificity of the sugar AraMan for AraMan antibodies, we used Human Serum Albumin glycosylated with AraMan-IME and Ara3Man-IME. Our findings showed that this specific sugar was fully and specifically modified. Bio-panning experiments revealed that patients with active tuberculosis exhibited a higher antibody response to Ara3Man, a sugar found in lipoarabinomannan (LAM), which is a major component of the mycobacterial cell wall. Bio-panning with anti-LAM plates could eliminate this increased response, suggesting that the enhanced Ara3Man response was primarily driven by antibodies targeting LAM. These findings highlight the importance of Ara3Man as an immunodominant epitope in LAM and support its role in eliciting protective immunity against tuberculosis. Further studies evaluated the effects of glycosylation on the antibody affinity of recombinant Ag85B and its variants. The results indicated that rAg85B-K30R/K282R, when conjugated with Ara3Man-IME, demonstrated enhanced antibody recognition compared to unconjugated or non-glycosylated versions. Conclusions Coupling Ara3Man to rAg85B-K30R/K282R could lead to the development of effective dual-acting vaccines against tuberculosis, stimulating protective antibodies against both AraMan and Ag85B, two key tuberculosis antigens.

Published

2024

14. Effect of glycosylation on the affinity of the MTB protein Ag85B for specific antibodies: towards the design of a dual-acting vaccine against tuberculosis.

Author

Bernardini, Roberta, Tengattini, Sara, Li, Zhihao, Piubelli, Luciano, Bavaro, Teodora, Modolea, Anamaria Bianca, Mattei, Maurizio, Conti, Paola, Marini, Stefano, Zhang, Yongmin, Pollegioni, Loredano, Temporini, Caterina, and Terreni, Marco

Subjects

*TUBERCULOSIS vaccines, *GLYCOSYLATION, *ANTIBODY formation, *IMMUNOGLOBULINS, *CELL anatomy, *SERUM albumin

Abstract

Background: To create a dual-acting vaccine that can fight against tuberculosis, we combined antigenic arabino-mannan analogues with the Ag85B protein. To start the process, we studied the impact of modifying different parts of the Ag85B protein on its ability to be recognized by antibodies. Results: Through our research, we discovered that three modified versions of the protein, rAg85B-K30R, rAg85B-K282R, and rAg85B-K30R/K282R, retained their antibody reactivity in healthy individuals and those with tuberculosis. To further test the specificity of the sugar AraMan for AraMan antibodies, we used Human Serum Albumin glycosylated with AraMan-IME and Ara3Man-IME. Our findings showed that this specific sugar was fully and specifically modified. Bio-panning experiments revealed that patients with active tuberculosis exhibited a higher antibody response to Ara3Man, a sugar found in lipoarabinomannan (LAM), which is a major component of the mycobacterial cell wall. Bio-panning with anti-LAM plates could eliminate this increased response, suggesting that the enhanced Ara3Man response was primarily driven by antibodies targeting LAM. These findings highlight the importance of Ara3Man as an immunodominant epitope in LAM and support its role in eliciting protective immunity against tuberculosis. Further studies evaluated the effects of glycosylation on the antibody affinity of recombinant Ag85B and its variants. The results indicated that rAg85B-K30R/K282R, when conjugated with Ara3Man-IME, demonstrated enhanced antibody recognition compared to unconjugated or non-glycosylated versions. Conclusions: Coupling Ara3Man to rAg85B-K30R/K282R could lead to the development of effective dual-acting vaccines against tuberculosis, stimulating protective antibodies against both AraMan and Ag85B, two key tuberculosis antigens. [ABSTRACT FROM AUTHOR]

Published

2024

15. Unveiling the cell wall-targeting mechanisms and multifaceted virulence modulation by a eugenol glycoconjugate against Aspergillus fumigatus: insights from in vitro and in ovo studies.

Author

Gupta, Lovely, Verma, Shalini, Goswami, Lakshmi, Kamboj, Himanshu, Sen, Pooja, Bhattacharya, Asish K, and Vijayaraghavan, Pooja

Abstract

Aim The primary objective of this study was to elucidate the putative cell wall-associated targets of compound 6i , a glycoconjugate of eugenol, in Aspergillus fumigatus , while also evaluating its toxicity and assessing histopathologic alterations in the liver, heart, and kidney of compound 6i -treated embryos using an in ovo model. Method To achieve this aim, compound 6i was synthesized, and a series of biochemical assays were performed to determine its impact on the fungal cell wall. Additionally, quantitative real time-PCR and liquid chromatography–mass spectrometry/mass spectrometry analyses were conducted to investigate changes in gene and protein expression profiles associated with melanin biosynthesis, conidiation, siderophore production, transcriptional regulation of β -glucan biosynthesis, and calcineurin activity in A. fumigatus. Results The experimental findings revealed that compound 6i exhibited notable antifungal activity against A. fumigatus by perturbing cell wall integrity, hindering ergosterol, glucan, and chitin biosynthesis, and inhibiting catalase production. Moreover, relative gene expression and proteomic analyses demonstrated that compound 6i exerted both downregulatory and upregulatory effects on several crucial genes and proteins involved in the aforementioned fungal processes. Furthermore, increased expression of oxidative stress-related proteins was observed in the presence of compound 6i. Notably, the glycoconjugate of eugenol did not elicit cytotoxicity in the liver, heart, and kidney of chick embryos. Conclusion The current investigation elucidated the multifaceted mechanisms by which compound 6i exerts its antifungal effects against A. fumigatus , primarily through targeting cell wall components and signaling pathways. These findings underscore the potential of the eugenol glycoconjugate as a promising antifungal candidate, warranting further exploration and development for combating A. fumigatus infections. [ABSTRACT FROM AUTHOR]

Published

2024

16. Specificity determinants revealed by the structure of glycosyltransferase Campylobacter concisusPglA.

Author

Vuksanovic, Nemanja, Clasman, Jozlyn R., Imperiali, Barbara, and Allen, Karen N.

Abstract

In selected Campylobacter species, the biosynthesis of N‐linked glycoconjugates via the pgl pathway is essential for pathogenicity and survival. However, most of the membrane‐associated GT‐B fold glycosyltransferases responsible for diversifying glycans in this pathway have not been structurally characterized which hinders the understanding of the structural factors that govern substrate specificity and prediction of resulting glycan composition. Herein, we report the 1.8 Å resolution structure of Campylobacter concisus PglA, the glycosyltransferase responsible for the transfer of N‐acetylgalatosamine (GalNAc) from uridine 5′‐diphospho‐N‐acetylgalactosamine (UDP‐GalNAc) to undecaprenyl‐diphospho‐N,N′‐diacetylbacillosamine (UndPP‐diNAcBac) in complex with the sugar donor GalNAc. This study identifies distinguishing characteristics that set PglA apart within the GT4 enzyme family. Computational docking of the structure in the membrane in comparison to homologs points to differences in interactions with the membrane‐embedded acceptor and the structural analysis of the complex together with bioinformatics and site‐directed mutagenesis identifies donor sugar binding motifs. Notably, E113, conserved solely among PglA enzymes, forms a hydrogen bond with the GalNAc C6″‐OH. Mutagenesis of E113 reveals activity consistent with this role in substrate binding, rather than stabilization of the oxocarbenium ion transition state, a function sometimes ascribed to the corresponding residue in GT4 homologs. The bioinformatic analyses reveal a substrate‐specificity motif, showing that Pro281 in a substrate binding loop of PglA directs configurational preference for GalNAc over GlcNAc. This proline is replaced by a conformationally flexible glycine, even in distant homologs, which favor substrates with the same stereochemistry at C4, such as glucose. The signature loop is conserved across all Campylobacter PglA enzymes, emphasizing its importance in substrate specificity. [ABSTRACT FROM AUTHOR]

Published

2024

17. Testing a Recombinant Form of Tetanus Toxoid as a Carrier Protein for Glycoconjugate Vaccines.

Author

Oldrini, Davide, Di Benedetto, Roberta, Carducci, Martina, De Simone, Daniele, Massai, Luisa, Alfini, Renzo, Galli, Barbara, Brunelli, Brunella, Przedpelski, Amanda, Barbieri, Joseph T., Rossi, Omar, Giannelli, Carlo, Rappuoli, Rino, Berti, Francesco, and Micoli, Francesca

Subjects

CARRIER proteins, TETANUS vaccines, MENINGOCOCCAL infections, ESCHERICHIA coli, BACTERIAL toxins, SALMONELLA typhi

Abstract

Glycoconjugate vaccines play a major role in the prevention of infectious diseases worldwide, with significant impact on global health, enabling the polysaccharides to induce immunogenicity in infants and immunological memory. Tetanus toxoid (TT), a chemically detoxified bacterial toxin, is among the few carrier proteins used in licensed glycoconjugate vaccines. The recombinant full-length 8MTT was engineered in E. coli with eight individual amino acid mutations to inactivate three toxin functions. Previous studies in mice showed that 8MTT elicits a strong IgG response, confers protection, and can be used as a carrier protein. Here, we compared 8MTT to traditional carrier proteins TT and cross-reactive material 197 (CRM197), using different polysaccharides as models: Group A Streptococcus cell-wall carbohydrate (GAC), Salmonella Typhi Vi, and Neisseria meningitidis serogroups A, C, W, and Y. The persistency of the antibodies induced, the ability of the glycoconjugates to elicit booster response after re-injection at a later time point, the eventual carrier-induced epitopic suppression, and immune interference in multicomponent formulations were also evaluated. Overall, immunogenicity responses obtained with 8MTT glycoconjugates were compared to those obtained with corresponding TT and, in some cases, were higher than those induced by CRM197 glycoconjugates. Our results support the use of 8MTT as a good alternative carrier protein for glycoconjugate vaccines, with advantages in terms of manufacturability compared to TT. [ABSTRACT FROM AUTHOR]

Published

2023

18. 2D and 3D anticancer properties of C2-functionalised glucosamine-Pt (IV) prodrugs based on cisplatin scaffold

Author

Eoin Moynihan, Maria Galiana-Cameo, Monica Sandri, Andrea Ruffini, Silvia Panseri, Trinidad Velasco-Torrijos, Monica Montesi, and Diego Montagner

Subjects

target therapy, cisplatin, glycoconjugate, glucosamine, anticancer properties, Chemistry, QD1-999

Abstract

A series of C2-functionalied Pt (IV) glycoconjugates based on glucosamine have been synthesised, characterised and tested as anticancer agents on a series of different 2D and 3D cancer cell lines. The carbohydrate will act as a targeted delivery system to improve the selectivity, exploiting the Warburg Effect and the GLUTs receptors that are overexpressed in most of the cancer cells. The hydroxyl at C2 of the carbohydrates does not participate in hydrogen bonding with the GLUTs receptors, making C2 an attractive position for drug conjugation as seen in literature. In this study, we use the amino functionality at the C2 position in glucosamine and Copper-catalysed Azide-Alkyne Cycloaddition “click” (CuAAC) reaction to connect the prodrug Pt (IV) scaffold to the carbohydrate. We have investigated complexes with different linker lengths, as well as acetyl protected and free derivatives. To the best of our knowledge, this study represents the first series of Pt (IV) glucosamine-conjugates functionalised at C2.

Published

2024

19. Functional Impairment of the Nervous System with Glycolipid Deficiencies

Author

Itokazu, Yutaka, Fuchigami, Takahiro, Yu, Robert K., Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

20. Glycans and Carbohydrate-Binding/Transforming Proteins in Axon Physiology

Author

Abad-Rodríguez, José, Brocca, María Elvira, Higuero, Alonso Miguel, Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

21. Investigation of mucus cell change in gills of van fish (Alburnus tarichi, Güldenstädt, 1814) treated with fluvalinate.

Author

Alkan, Zehra, Kaval Oğuz, Elif, and Regaib Oğuz, Ahmet

Subjects

*GILLS, *MUCUS, *WATERSHEDS, *GLYCOCONJUGATES, *ENDEMIC fishes, *FISH anatomy

Abstract

The Van fish is an endemic carp species living in Lake Van, one of the largest soda lakes in the world. Fluvalinate is a pesticide used extensively in the Lake Van basin. In the present study, the effects of sublethally applied fluvalinate on mucous cells in Van fish gill tissue after 48, 72, and 96 h were determined histochemically. Histopathological lesions were observed in the gills of the fish exposed to fluvalinate in a time-dependent manner. The concentrations of neutral glycoconjugates, acidic glycoconjugates, sulfated acidic glycoconjugates, and strongly acidic glycoconjugates in the mucous cells increased in the gills of the Van fish during the exposure period. At the same time, the area and number of mucous cells increased during fluvalinate exposure. As a result, fluvalinate caused an increase in mucous secretion and content in Van fish gills. [ABSTRACT FROM AUTHOR]

Published

2023

22. Evaluation of a FlpA Glycoconjugate Vaccine with Ten N-Heptasaccharide Glycan Moieties to reduce Campylobacter jejuni Colonisation in Chickens

Author

Ricardo Corona-Torres, Prerna Vohra, Cosmin Chintoan-Uta, Abi Bremner, Vanessa S. Terra, Marta Mauri, Jon Cuccui, Lonneke Vervelde, Brendan W. Wren, and Mark P. Stevens

Subjects

Campylobacter, poultry, vaccine, FlpA, heptasaccharide, glycoconjugate, Medicine

Abstract

Campylobacter is a major cause of acute gastroenteritis in humans, and infections can be followed by inflammatory neuropathies and other sequelae. Handling or consumption of poultry meat is the primary risk factor for human campylobacteriosis, and C. jejuni remains highly prevalent in retail chicken in many countries. Control of Campylobacter in the avian reservoir is expected to limit the incidence of human disease. Toward this aim, we evaluated a glycoconjugate vaccine comprising the fibronectin-binding adhesin FlpA conjugated to up to ten moieties of the conserved N-linked heptasaccharide glycan of C. jejuni or with FlpA alone. The glycan dose significantly exceeded previous trials using FlpA with two N-glycan moieties. Vaccinated birds were challenged with C. jejuni orally or by exposure to seeder-birds colonised by C. jejuni to mimic natural transmission. No protection against caecal colonisation was observed with FlpA or the FlpA glycoconjugate vaccine. FlpA-specific antibody responses were significantly induced in vaccinated birds at the point of challenge relative to mock-vaccinated birds. A slight but significant antibody response to the N-glycan was detected after vaccination with FlpA-10×GT and challenge. As other laboratories have reported protection against Campylobacter with FlpA and glycoconjugate vaccines in chickens, our data indicate that vaccine-mediated immunity may be sensitive to host- or study-specific variables.

Published

2024

23. Comparison of Shigella GMMA and glycoconjugate four-component formulations in animals

Author

Roberta Di Benedetto, Francesca Mancini, Valentina Caradonna, Maria Grazia Aruta, Carlo Giannelli, Omar Rossi, and Francesca Micoli

Subjects

GMMA, glycoconjugate, Shigella, multicomponent, vaccine, O-antigen, Biology (General), QH301-705.5

Abstract

Shigellosis is leading bacterial cause of diarrhea with high prevalence in children younger than 5 years in low- and middle-income countries, and increasing number of reports of Shigella cases associated to anti-microbial resistance. No vaccines against Shigella are still licensed, but different candidates based on the O-antigen portion of lipopolysaccharides are in clinic. Generalized Modules for Membrane Antigens (GMMA) have been proposed as an alternative delivery system for the O-antigen, and a 4-component vaccine candidate (altSonflex1-2-3), containing GMMA from S. sonnei and S. flexneri 1b, 2a and 3a is being tested in a phase 1/2 clinical trial, with the aim to elicit broad protection against the most prevalent Shigella serotypes. Here, the 4-component GMMA vaccine candidate has been compared to a more traditional glycoconjugate formulation for the ability to induce functional antibodies in mice and rabbits. In mice, in the absence of Alhydrogel, GMMA induce higher IgG antibodies than glycoconjugates and stronger bactericidal titers against all Shigella serotypes. In the presence of Alhydrogel, GMMA induce O-antigen specific IgG levels similar to traditional glycoconjugates, but with a broader range of IgG subclasses, resulting in stronger bactericidal activity. In rabbits, GMMA elicit higher functional antibodies than glycoconjugates against S. sonnei, and similar responses to S. flexneri 1b, 2a and 3a, independently from the presence of Alhydrogel. Different O-antigen based vaccines against Shigella are now in clinical stage and it will be of particular interest to understand how the preclinical findings in the different animal models translate in humans.

Published

2023

24. Evaluation of N-glycan-decorated live attenuated Escherichia coli and outer membrane vesicles as vaccines against Campylobacter jejuni colonisation in chickens.

Author

Vohra, Prerna, Bremner, Abi, Nicholls, Bethany, Chintoan-Uta, Cosmin, Corona-Torres, Ricardo, and Stevens, Mark P.

Subjects

*CAMPYLOBACTER jejuni, *BACTERIAL colonies, *EXTRACELLULAR vesicles, *ESCHERICHIA coli, *CHICKENS, *VACCINES

Abstract

Campylobacter jejuni is a leading global cause of bacterial gastroenteritis in humans, and poultry are a major reservoir. Glycoconjugate vaccines containing the conserved C. jejuni N -glycan have previously been reported to be effective at reducing caecal colonisation of chickens by C. jejuni. These include recombinant subunit vaccines, live E. coli strains expressing the N -glycan on the surface as well as outer membrane vesicles (OMVs) derived from these E. coli strains. In this study, we evaluated the efficacy of live E. coli expressing the C. jejuni N -glycan from a plasmid and glycosylated OMVs (G-OMVs) derived from them against colonisation by different C. jejuni strains. Despite the C. jejuni N -glycan being expressed on the surface of the live strain and the OMVs, no reduction in caecal colonisation by C. jejuni was observed and N -glycan-specific responses were not detected. [ABSTRACT FROM AUTHOR]

Published

2023

25. Sialylation of cell surface glycoconjugates modulates cytosolic galectin-mediated responses upon organelle damage: Minireview.

Author

Weng, I-Chun, Chen, Hung-Lin, Lin, Wei-Han, and Liu, Fu-Tong

Abstract

Sialylation is an important terminal modification of glycoconjugates that mediate diverse functions in physiology and disease. In this review we focus on how altered cell surface sialylation status is sensed by cytosolic galectins when the integrity of intracellular vesicles or organelles is compromised to expose luminal glycans to the cytosolic milieu, and how this impacts galectin-mediated cellular responses. In addition, we discuss the roles of mammalian sialidases on the cell surface, in the organelle lumen and cytosol, and raise the possibility that intracellular glycan processing may be critical in controlling various galectin-mediated responses when cells encounter stress. [ABSTRACT FROM AUTHOR]

Published

2023

26. Glycoconjugate for Tissue Engineering

Author

Wihadmadyatami, Hevi, Kusindarta, Dwi Liliek, Oliveira, Joaquim Miguel, editor, Radhouani, Hajer, editor, and Reis, Rui L., editor

Published

2022

27. Carbohydrate-based drugs launched during 2000−2021

Author

Xin Cao, Xiaojing Du, Heng Jiao, Quanlin An, Ruoxue Chen, Pengfei Fang, Jing Wang, and Biao Yu

Subjects

Carbohydrate-based drug, Glycodrug, Glycoconjugate, Antibiotics, Antivirus drug, Anticancer drug, Therapeutics. Pharmacology, RM1-950

Abstract

Carbohydrates are fundamental molecules involved in nearly all aspects of lives, such as being involved in formating the genetic and energy materials, supporting the structure of organisms, constituting invasion and host defense systems, and forming antibiotics secondary metabolites. The naturally occurring carbohydrates and their derivatives have been extensively studied as therapeutic agents for the treatment of various diseases. During 2000 to 2021, totally 54 carbohydrate-based drugs which contain carbohydrate moities as the major structural units have been approved as drugs or diagnostic agents. Here we provide a comprehensive review on the chemical structures, activities, and clinical trial results of these carbohydrate-based drugs, which are categorized by their indications into antiviral drugs, antibacterial/antiparasitic drugs, anticancer drugs, antidiabetics drugs, cardiovascular drugs, nervous system drugs, and other agents.

Published

2022

28. A Bioactive Synthetic Outer‐Core Oligosaccharide Derived from a Klebsiella pneumonia Lipopolysaccharide for Bacteria Recognition.

Author

Chen, Dushen, Srivastava, Akhilesh K., Dubrochowska, Justyna, Liu, Lin, Li, Tiehai, Hoffmann, Joseph P., Kolls, Jay K., and Boons, Geert‐Jan

Subjects

*KLEBSIELLA pneumoniae, *CARBAPENEM-resistant bacteria, *GLYCOCONJUGATES, *LIPOPOLYSACCHARIDES, *CARRIER proteins, *COMMUNITY-acquired infections

Abstract

There is an urgent need for new treatment options for carbapenem‐resistant Klebsiella pneumoniae (K. pneumoniae), which is a common cause of life‐threatening hospital‐ and community‐acquired infections. Prophylactic or therapeutic vaccination may offer an approach to control these infections, however, none has yet been approved for human use. Here, we report the chemical synthesis of an outer core tetra‐ and pentasaccharide derived from the lipopolysaccharide of K. pneumoniae. The oligosaccharides were equipped with an aminopentyl linker, which facilitated conjugation to the carrier proteins CRM197 and BSA. Mice immunized with the glycoconjugate vaccine candidates elicited antibodies that recognized isolated LPS as well as various strains of K. pneumoniae. The successful preparation of the oligosaccharides relied on the selection of monosaccharide building blocks equipped with orthogonal hydroxyl and amino protecting groups. It allowed the differentiation of three types of amines of the target compounds and the installation of a crowded 4,5‐branched Kdo moiety. [ABSTRACT FROM AUTHOR]

Published

2023

29. Isolation and identification of progenitors, glycoconjugates of β‐damascenone precursors, in sweet potato (Ipomoea batatas).

Author

Kaneshima, Tai, Nojima, Satoshi, Mori, Shoko, Myoda, Takao, Nakahara, Koichi, and Matsuo, Yoshihide

Subjects

*SWEET potatoes, *GLYCOCONJUGATES, *MANUFACTURING processes, *AGLYCONES

Abstract

β‐Damascenone, which has a characteristic sweet and fruity aroma, is a key flavour of various food and drinks, including sweet potato shochu, a Japanese traditional spirit. The compound in the spirits is known to be hydrolytically generated and liberated from progenitors in sweet potato during the manufacturing processes. However, thus far, the progenitors have not been well investigated. In this study, we isolated and identified 11 glycosidic progenitor compounds 1–11 using various chromatographic and spectroscopic techniques combined with a hydrolysis assay. These progenitors consist of two types of aglycones [3,5,9‐trihydroxymegastigma‐6,7‐diene (A1) and 3,9‐dihydroxymegastigma‐4,6,7‐triene (A2)] and four types of glycones [β‐d‐glucopyranoside (G1), (2‐O‐β‐apiofuranosyl)‐β‐d‐glucopyranoside (G2), (6‐O‐β‐xylopyranosyl)‐β‐d‐glucopyranoside (G3) and (2‐O‐β‐d‐apiofuranosyl,6‐O‐β‐d‐xylopyranosyl)‐β‐d‐glucopyranoside (G4)]. Aglycones A1 and A2 are known as direct precursors of β‐damascenone, and compounds 1–3, which have A1 as an aglycone, have been previously reported from other plant materials. On the other hand, compounds 4–11 are newly characterized as glycosidic progenitors of β‐damascenone. [ABSTRACT FROM AUTHOR]

Published

2023

30. Glycoconjugates of Mucochloric Acid—Synthesis and Biological Activity.

Author

Żurawska, Katarzyna, Burdalska, Daria, Skonieczna, Magdalena, Byczek-Wyrostek, Anna, Dawicka, Anahit, Kasprzycka, Anna, and Walczak, Krzysztof

Subjects

*BIOSYNTHESIS, *GLYCOCONJUGATES, *BIOACTIVE compounds, *SILYL group, *PHARMACEUTICAL chemistry, *DRUG design

Abstract

The pharmacological effects of the presence of a sugar moiety, 1,2,3-triazole ring and silyl groups in the structure of biologically active compounds have been extensively studied in drug design and medicinal chemistry. These components can be useful tools to tailoring the bioavailability of target molecules. Herein we present the study on the impact of the sugar substituent structure and triisopropylsilyl group presence on the anticancer activity of mucochloric acid (MCA) derivatives containing the furan-2(5H)-one or 2H-pyrrol-2-one core. The obtained results clearly indicated that tested compounds caused a significant decrease in cell viability of HCT116 and MCF-7 cell lines. MCF-7 cells indicate serious resistance toward investigated compounds in comparison with HCT116 cell line, it suggests that estrogen-dependent breast cancer cells are significantly less sensitive to the tested derivatives. Depending on the structure of the sugar, the type and site of connection with the furanone or 2H-pyrrol-2-one derivative and the presence of the silyl group, the selectivity of the compound towards cancer cells can be controlled. The obtained results may have an impact on the design of new furanone-based anticancer compounds. [ABSTRACT FROM AUTHOR]

Published

2023

31. Polyvalent Glycan Functionalized Quantum Nanorods as Mechanistic Probes for Shape-Selective Multivalent Lectin-Glycan Recognition.

Author

Hooper, James, Budhadev, Darshita, Fernandez Ainaga, Dario Luis, Hondow, Nicole, Zhou, Dejian, and Guo, Yuan

Abstract

Multivalent lectin-glycan interactions (MLGIs) are widespread in biology and hold the key to many therapeutic applications. However, the underlying structural and biophysical mechanisms for many MLGIs remain poorly understood, limiting our ability to design glycoconjugates to potently target specific MLGIs for therapeutic intervention. Glycosylated nanoparticles have emerged as a powerful biophysical probe for MLGIs, although how nanoparticle shape affects the MLGI molecular mechanisms remains largely unexplored. Herein, we have prepared fluorescent quantum nanorods (QRs), densely coated with α-1,2-manno-biose ligands (QR-DiMan), as multifunctional probes to investigate how scaffold geometry affects the MLGIs of a pair of closely related, tetrameric viral receptors, DC-SIGN and DC-SIGNR. We have previously shown that a DiMan-capped spherical quantum dot (QD-DiMan) gives weak cross-linking interactions with DC-SIGNR but strong simultaneous binding with DC-SIGN. Against the elongated QR-DiMan, DC-SIGN retains similarly strong simultaneous binding of all four binding sites with a single QR-DiMan (apparent Kd ≈ 0.5 nM, ∼1.8 million-fold stronger than the corresponding monovalent binding), while DC-SIGNR gives both weak cross-linking and strong individual binding interactions, resulting in a larger binding affinity enhancement than that with QD-DiMan. S/TEM analysis of QR-DiMan-lectin assemblies reveals that DC-SIGNR's different binding modes arise from the different nanosurface curvatures of the QR scaffold. The glycan display at the spherical ends presents too high a steric barrier for DC-SIGNR to bind with all four binding sites; thus, it cross-links between two QR-DiMan to maximize binding multivalency, whereas the more planar character of the cylindrical center allows the glycans to bridge all binding sites in DC-SIGNR. This work thus establishes glycosylated QRs as a powerful biophysical probe for MLGIs not only to provide quantitative binding affinities and binding modes but also to demonstrate the specificity of multivalent lectins in discriminating different glycan displays in solution, dictated by the scaffold curvature. [ABSTRACT FROM AUTHOR]

Published

2023

32. Synthesis of a B-Antigen Hexasaccharide, a B-Lewis b Heptasaccharide and Glycoconjugates Thereof to Investigate Binding Properties of Helicobacter pylori.

Author

Reihill, Mark, Fournière, Viviane, Cheallaigh, Aisling Ní, Edlund, Johan Olofsson, Miller, Gavin John, Borén, Thomas, Lahmann, Martina, and Oscarson, Stefan

Subjects

*GLYCOCONJUGATES, *BLOOD group antigens, *HELICOBACTER pylori, *STOMACH ulcers, *STOMACH cancer, *SERUM albumin

Abstract

Infecting the stomach of almost 50 % of people, Helicobacter pylori is a causative agent of gastritis, peptic ulcers and stomach cancers. Interactions between bacterial membrane-bound lectin, Blood group Antigen Binding Adhesin (BabA), and human blood group antigens are key in the initiation of infection. Herein, the synthesis of a B-antigen hexasaccharide (B6) and a B-Lewis b heptasaccharide (BLeb7) and Bovine Serum Albumin glycoconjugates thereof is reported to assess the binding properties and preferences of BabA from different strains. From a previously reported trisaccharide acceptor a versatile key Lacto-N-tetraose tetrasaccharide intermediate was synthesized, which allowed us to explore various routes to the final targets, either via initial introduction of fucosyl residues followed by introduction of the B-determinant or vice versa. The first approach proved unsuccessful, whereas the second afforded the target structures in good yields. Protein conjugation using isothiocyanate methodology allowed us to reach high glycan loadings (up to 23 per protein) to mimic multivalent displays encountered in Nature. Protein glycoconjugate inhibition binding studies were performed with H. pylori strains displaying high or low affinity for Lewis b hexasaccharide structures showing that the binding to the high affinity strain was reduced due to the presence of the B-determinant in the Bleb7-conjugates and further reduced by the absence of the Lewis fucose residue in the B6-conjugate. [ABSTRACT FROM AUTHOR]

Published

2023

33. Site‐Selective Unnatural Amino Acid Incorporation at Single or Multiple Positions to Control Sugar‐Protein Connectivity in Glycoconjugate Vaccine Candidates.

Author

Violo, Typhaine, Lambert, Annie, Pillot, Aline, Fanuel, Mathieu, Mac‐Béar, Jessica, Broussard, Cédric, Grandjean, Cyrille, and Camberlein, Emilie

Subjects

*AMINO acids, *STREPTOCOCCUS pneumoniae, *POLYSACCHARIDES, *GLYCOCONJUGATES, *ANTIBODY formation, *IMMUNE response, *GENETIC code

Abstract

In cellulo site‐specific unnatural amino acid incorporation based on amber stop codon reassignment is a powerful tool to modify proteins at defined positions. This technique is herein applied to the selective functionalization of the Pneumococcal surface adhesin A protein at three distinct positions. Nϵ‐propargyloxycarbonyl‐l‐lysine residues were incorporated and their alkyne groups reacted using click‐chemistry with a synthetic azido‐functionalized tetrasaccharide representative of one repeat unit of the Streptococcus pneumoniae serotype 14 capsular polysaccharide. Anti‐PsaA antibody response induced in mice by the trivalent glycoconjugate was determined in comparison with corresponding monovalent and randomly functionalized conjugates. Our results suggest that controlled was superior to random conjugation for preserving antigenicity. In definitive, the reported strategy offers a unique opportunity to study the impact of carbohydrate antigen‐carrier protein connectivity on immunogenicity. [ABSTRACT FROM AUTHOR]

Published

2023

34. Saponins of Selected Triterpenoids as Potential Therapeutic Agents: A Review.

Author

Bildziukevich, Uladzimir, Wimmerová, Martina, and Wimmer, Zdeněk

Subjects

*TRITERPENOIDS, *SAPONINS, *METABOLITES, *PLANT products, *PLANT metabolites, *BIRTHPARENTS

Abstract

Saponins represent important natural derivatives of plant triterpenoids that are secondary plant metabolites. Saponins, also named glycoconjugates, are available both as natural and synthetic products. This review is focused on saponins of the oleanane, ursane, and lupane types of triterpenoids that include several plant triterpenoids displaying various important pharmacological effects. Additional convenient structural modifications of naturally-occurring plant products often result in enhancing the pharmacological effects of the parent natural structures. This is an important objective for all semisynthetic modifications of the reviewed plant products, and it is included in this review paper as well. The period covered by this review (2019–2022) is relatively short, mainly due to the existence of previously published review papers in recent years. [ABSTRACT FROM AUTHOR]

Published

2023

35. Exploring the variables influencing the immune response of traditional and innovative glycoconjugate vaccines

Author

Francesca Micoli, Giuseppe Stefanetti, and Calman A. MacLennan

Subjects

glycoconjugate, carbohydrate, vaccines, immune response, conjugation variables, Biology (General), QH301-705.5

Abstract

Vaccines are cost-effective tools for reducing morbidity and mortality caused by infectious diseases. The rapid evolution of pneumococcal conjugate vaccines, the introduction of tetravalent meningococcal conjugate vaccines, mass vaccination campaigns in Africa with a meningococcal A conjugate vaccine, and the recent licensure and introduction of glycoconjugates against S. Typhi underlie the continued importance of research on glycoconjugate vaccines. More innovative ways to produce carbohydrate-based vaccines have been developed over the years, including bioconjugation, Outer Membrane Vesicles (OMV) and the Multiple antigen-presenting system (MAPS). Several variables in the design of these vaccines can affect the induced immune responses. We review immunogenicity studies comparing conjugate vaccines that differ in design variables, such as saccharide chain length and conjugation chemistry, as well as carrier protein and saccharide to protein ratio. We evaluate how a better understanding of the effects of these different parameters is key to designing improved glycoconjugate vaccines.

Published

2023

36. The extracellular sialidase NEU3 primes neutrophils.

Author

Kirolos, Sara A., Pilling, Darrell, and Gomer, Richard H.

Subjects

NEURAMINIDASE, NEUTROPHILS, SIALIC acids, GLYCOCONJUGATES, F-actin

Abstract

Some extracellular glycoconjugates have sialic acid as the terminal sugar, and sialidases are enzymes that remove this sugar. Mammals have 4 sialidases and can be elevated in inflammation and fibrosis. In this report, we show that incubation of human neutrophils with the extracellular human sialidase NEU3, but not NEU1, NEU2 or NEU4, induces human male and female neutrophils to change from a round to a more amoeboid morphology, causes the primed human neutrophil markers CD11b, CD18, and CD66a to localize to the cell cortex, and decreases the localization of the unprimed human neutrophil markers CD43 and CD62‐L at the cell cortex. NEU3, but not the other 3 sialidases, also causes human male and female neutrophils to increase their F‐actin content. Human neutrophils treated with NEU3 show a decrease in cortical levels of Sambucus nigra lectin staining and an increase in cortical levels of peanut agglutinin staining, indicating a NEU3‐induced desialylation. The inhibition of NEU3 by the NEU3 inhibitor 2‐acetylpyridine attenuated the NEU3 effect on neutrophil morphology, indicating that the effect of NEU3 is dependent on its enzymatic activity. Together, these results indicate that NEU3 can prime human male and female neutrophils, and that NEU3 is a potential regulator of inflammation. [ABSTRACT FROM AUTHOR]

Published

2022

37. Comprehensive characterization of bacterial glycoconjugate vaccines by liquid chromatography - mass spectrometry.

Author

Di Marco, Fiammetta, Hipgrave Ederveen, Agnes L., van Schaick, Guusje, Moran, Alan B., Domínguez-Vega, Elena, Nicolardi, Simone, Blöchl, Constantin, Koeleman, Carolien A., Danuser, Renzo, Al Kaabi, Ali, Dotz, Viktoria, Grijpstra, Jan, Beurret, Michel, Anish, Chakkumkal, and Wuhrer, Manfred

Subjects

*BACTERIAL vaccines, *MASS spectrometry, *LIQUID chromatography, *GLYCOPROTEIN analysis, *LIQUID chromatography-mass spectrometry, *MULTIDRUG resistance, *GLYCOCONJUGATES, *TIME-of-flight mass spectrometry

Abstract

Bacterial pathogens can cause a broad range of infections with detrimental effects on health. Vaccine development is essential as multi-drug resistance in bacterial infections is a rising concern. Recombinantly produced proteins carrying O-antigen glycosylation are promising glycoconjugate vaccine candidates to prevent bacterial infections. However, methods for their comprehensive structural characterization are lacking. Here, we present a bottom-up approach for their site-specific characterization, detecting N -glycopeptides by nano reversed-phase liquid chromatography-mass spectrometry (RP-LC-MS). Glycopeptide analyses revealed information on partial site-occupancy and site-specific glycosylation heterogeneity and helped corroborate the polysaccharide structures and their modifications. Bottom-up analysis was complemented by intact glycoprotein analysis using nano RP-LC-MS allowing the fast visualization of the polysaccharide distribution in the intact glycoconjugate. At the glycopeptide level, the model glycoconjugates analyzed showed different repeat unit (RU) distributions that spanned from 1 to 21 RUs attached to each of the different glycosylation sites. Interestingly, the intact glycoprotein analysis displayed a RU distribution ranging from 1 to 28 RUs, showing the predominant species when the different glycopeptide distributions are combined in the intact glycoconjugate. The complete workflow based on LC-MS measurements allows detailed and comprehensive analysis of the glycosylation state of glycoconjugate vaccines. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

38. Development and application of glyco-analytical tools for biotechnology

Author

Riese, Michel, Flitsch, Sabine, and Barran, Perdita

Subjects

660.6, Parkinson's disease, glucosylsphingosine, alpha-2,6-pseudosialidase, galactose oxidase, CAZymes, glycoconjugate, glycan, carbohydrate, biotechnology

Abstract

Carbohydrates are the most diverse family of biomolecules in nature. From a panel of mono-saccharides organisms build a vast variety of glycans and glycoconjugates with essential biological functions in energy metabolism, cellular communication and structural integrity to name a few. The wide array of architectures found in glycans is orchestrated by carbohydrate active enzymes which control glycosidic bonds between mono-saccharides and perform additional carbohydrate modifications. In order to assess biological functions, structural information is essential as is the ability to modify carbohydrates to use as biological probes. This thesis addresses analytical tools to gain insights into carbohydrates and the enzymes involved in the glycan metabolism. An easy NMR assay is presented to monitor enzymatic oligo-saccharide oxidation with minimal sample preparation, while the regio-selective oxidation products are valuable targets as well as precursors for industrial biotechnology applications. The adaptation of a glyco array platform for rapid screening for glycoside hydrolase activities of fungal enzymes towards mixed oligo-saccharide libraries advances the analytical possibilities and provides a tool for the identification of novel enzymatic activities. While state-of-the-art N-glycan analysis solves the problem of isobaric linkage isomers through the application of ion mobility, traditional methods heavily rely on exo-glycoside hydrolases. The discovery and proven applicability of an α2,6-'pseudosialidase' completes the analytical toolbox for N-acetylneuraminic acid terminated N-glycans. The identification of glucosylsphingosine as an endogenous modulator of DAT-mediated dopamine transport is an exciting discovery and may reveal a new dimension to the etiology of Parkinson's disease. The methods presented in this thesis provide glycoscientists with tools to further analyse glycans, CAZymes and their impact on biotechnology.

Published

2018

39. Testing a Recombinant Form of Tetanus Toxoid as a Carrier Protein for Glycoconjugate Vaccines

Author

Davide Oldrini, Roberta Di Benedetto, Martina Carducci, Daniele De Simone, Luisa Massai, Renzo Alfini, Barbara Galli, Brunella Brunelli, Amanda Przedpelski, Joseph T. Barbieri, Omar Rossi, Carlo Giannelli, Rino Rappuoli, Francesco Berti, and Francesca Micoli

Subjects

glycoconjugate, tetanus toxoid, carrier protein, Medicine

Abstract

Glycoconjugate vaccines play a major role in the prevention of infectious diseases worldwide, with significant impact on global health, enabling the polysaccharides to induce immunogenicity in infants and immunological memory. Tetanus toxoid (TT), a chemically detoxified bacterial toxin, is among the few carrier proteins used in licensed glycoconjugate vaccines. The recombinant full-length 8MTT was engineered in E. coli with eight individual amino acid mutations to inactivate three toxin functions. Previous studies in mice showed that 8MTT elicits a strong IgG response, confers protection, and can be used as a carrier protein. Here, we compared 8MTT to traditional carrier proteins TT and cross-reactive material 197 (CRM197), using different polysaccharides as models: Group A Streptococcus cell-wall carbohydrate (GAC), Salmonella Typhi Vi, and Neisseria meningitidis serogroups A, C, W, and Y. The persistency of the antibodies induced, the ability of the glycoconjugates to elicit booster response after re-injection at a later time point, the eventual carrier-induced epitopic suppression, and immune interference in multicomponent formulations were also evaluated. Overall, immunogenicity responses obtained with 8MTT glycoconjugates were compared to those obtained with corresponding TT and, in some cases, were higher than those induced by CRM197 glycoconjugates. Our results support the use of 8MTT as a good alternative carrier protein for glycoconjugate vaccines, with advantages in terms of manufacturability compared to TT.

Published

2023

40. In Situ Synthesis of Glycoconjugates on the Cell Surface: Selective Cell Imaging Using Low-Affinity Glycan Ligands

Author

Nomura, Shogo, Taichi, Misako, Tanaka, Katsunori, Fukase, Koichi, editor, and Doi, Takayuki, editor

Published

2021

41. Lectin histochemistry of the olfactory mucosa of Korean native cattle, Bos taurus coreanae.

Author

Sungwoong Jang, Bohye Kim, Jeongmin Lee, Sohi Kang, Joong-Sun Kim, Jong-Choon Kim, Sung-Ho Kim, Taekyun Shin, and Changjong Moon

Subjects

CATTLE, HISTOCHEMISTRY, OLFACTORY receptors, MUCOUS membranes, GLYCOCONJUGATES, STAINS & staining (Microscopy), SENSORY neurons

Abstract

Background: The olfactory mucosa (OM) is crucial for odorant perception in the main olfactory system. The terminal carbohydrates of glycoconjugates influence chemoreception in the olfactory epithelium (OE). Objectives: The histological characteristics and glycoconjugate composition of the OM of Korean native cattle (Hanwoo, Bos taurus coreae) were examined to characterize their morphology and possible functions during postnatal development. Methods: The OM of neonate and adult Korean native cattle was evaluated using histological, immunohistochemical, and lectin histochemical methods. Results: Histologically, the OM in both neonates and adults consists of the olfactory epithelium and the lamina propria. Additionally, using periodic acid Schiff and Alcian blue (pH 2.5), the mucus specificity of the Bowman's gland duct and acini in the lamina propria was determined. Immunohistochemistry demonstrated that mature and immature olfactory sensory neurons of OEs express the olfactory marker protein and growth associated protein-43, respectively. Lectin histochemistry indicated that numerous glycoconjugates, including as N-acetylglucosamine, mannose, galactose, N-acetylgalactosamine, complex type N-glycan, and fucose groups, were expressed at varied levels in the different cell types in the OMs of neonates and adults at varying levels. According to our observations, the cattle possessed a well-developed olfactory system, and the expression patterns of glycoconjugates in neonatal and adult OMs varied considerably. Conclusions: This is the first study to describe the morphological assessment of the OM of Korean native cattle with a focus on lectin histochemistry. The findings suggest that glycoconjugates may play a role in olfactory chemoreception, and that their labeling properties may be closely related to OM development and maturity. [ABSTRACT FROM AUTHOR]

Published

2022

42. Carbohydrate-based drugs launched during 2000−2021.

Author

Cao, Xin, Du, Xiaojing, Jiao, Heng, An, Quanlin, Chen, Ruoxue, Fang, Pengfei, Wang, Jing, and Yu, Biao

Subjects

CARDIOVASCULAR agents, METABOLITES, ANTINEOPLASTIC agents, ANTIVIRAL agents, CHEMICAL structure

Abstract

Carbohydrates are fundamental molecules involved in nearly all aspects of lives, such as being involved in formating the genetic and energy materials, supporting the structure of organisms, constituting invasion and host defense systems, and forming antibiotics secondary metabolites. The naturally occurring carbohydrates and their derivatives have been extensively studied as therapeutic agents for the treatment of various diseases. During 2000 to 2021, totally 54 carbohydrate-based drugs which contain carbohydrate moities as the major structural units have been approved as drugs or diagnostic agents. Here we provide a comprehensive review on the chemical structures, activities, and clinical trial results of these carbohydrate-based drugs, which are categorized by their indications into antiviral drugs, antibacterial/antiparasitic drugs, anticancer drugs, antidiabetics drugs, cardiovascular drugs, nervous system drugs, and other agents. A systemic review of the total 54 carbohydrate-based drugs, which approved during 2000–2021, is comprehensively summarized according to their chemical structures, activities, and clinical trial results. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

43. The Shigella Vaccines Pipeline.

Author

MacLennan, Calman Alexander, Grow, Stephanie, Ma, Lyou-fu, and Steele, Andrew Duncan

Subjects

SHIGELLA, VACCINE development, VACCINES, CARRIER proteins, MIDDLE-income countries

Abstract

Shigella is the leading cause of global diarrheal deaths that currently lacks a licensed vaccine. Shigellosis drives antimicrobial resistance and leads to economic impact through linear growth faltering. Today, there is a robust pipeline of vaccines in clinical development which are broadly divided into parenteral glycoconjugate vaccines, consisting of O-antigen conjugated to carrier proteins, and oral live attenuated vaccines, which incorporate targeted genetic mutations seeking to optimize the balance between reactogenicity, immunogenicity and ultimately protection. Proof of efficacy has previously been shown with both approaches but for various reasons no vaccine has been licensed to date. In this report, we outline the requirements for a Shigella vaccine and describe the current pipeline in the context of the many candidates that have previously failed or been abandoned. The report refers to papers from individual vaccine developers in this special supplement of Vaccines which is focused on Shigella vaccines. Once readouts of safety and immunogenicity from current trials of lead candidate vaccines among the target population of young children in low- and middle-income countries are available, the likely time to licensure of a first Shigella vaccine will become clearer. [ABSTRACT FROM AUTHOR]

Published

2022

44. Production of site-specific antibody conjugates using metabolic glycoengineering and novel Fc glycovariants.

Author

Bernstein ZJ, Gierke TR, Dammen-Brower K, Tzeng SY, Zhu S, Chen SS, Wilson DS, Green JJ, Yarema KJ, and Spangler JB

Abstract

Molecular conjugation to antibodies has emerged as a growing strategy to combine the mechanistic activities of the attached molecule with the specificity of antibodies. A variety of technologies have been applied for molecular conjugation; however, these approaches face several limitations, including disruption of antibody structure, destabilization of the antibody, and/or heterogeneous conjugation patterns. Collectively, these challenges lead to reduced yield, purity, and function of conjugated antibodies. While glycoengineering strategies have largely been applied to study protein glycosylation and manipulate cellular metabolism, these approaches also harbor great potential to enhance the production and performance of protein therapeutics. Here, we devise a novel glycoengineering workflow for the development of site-specific antibody conjugates. This approach combines metabolic glycoengineering using azido-sugar analogs with newly installed N-linked glycosylation sites in the antibody constant domain to achieve specific conjugation to the antibody via the introduced N-glycans. Our technique allows facile and efficient manufacturing of well-defined antibody conjugates without need for complex or destructive chemistries. Moreover, introduction of conjugation sites in the antibody fragment crystallizable (Fc) domain renders this approach widely applicable and target agnostic. Our platform can accommodate up to 3 conjugation sites in tandem, and the extent of conjugation can be tuned through use of different sugar analogs or production in different cell lines. We demonstrated that our platform is compatible with various use-cases, including fluorescent labeling, antibody-drug conjugation, and targeted gene delivery. Overall, this study introduces a versatile and effective yet strikingly simple approach to produce antibody conjugates for research, industrial, and medical applications., Competing Interests: Conflict of interest Z.J.B., K.D.-B., K.J.Y., and J.B.S. are listed as co-inventors on a patent describing the technologies presented herein., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

45. Sugar symphony: glycosylation in cancer metabolism and stemness.

Author

Varadharaj V, Petersen W, Batra SK, and Ponnusamy MP

Abstract

Glycosylation is a complex co-translational and post-translational modification (PTM) in eukaryotes that utilizes glycosyltransferases to generate a vast array of glycoconjugate structures. Recent studies have highlighted the role of glycans in regulating essential molecular, cellular, tissue, organ, and systemic biological processes with significant implications for human diseases, particularly cancer. The metabolic reliance of cancer, spanning tumor initiation, disease progression, and resistance to therapy, necessitates a range of uniquely altered cellular metabolic pathways. In addition, the intricate interplay between cell-intrinsic and -extrinsic mechanisms is exemplified by the communication between cancer cells, cancer stem cells (CSCs), cancer-associated fibroblasts (CAFs), and immune cells within the tumor microenvironment (TME). In this review article, we explore how differential glycosylation in cancer influences the metabolism and stemness features alongside new avenues in glycobiology., Competing Interests: Declaration of interests S.K.B. is one of the co-founders of Sanguine Diagnostics and Therapeutics, Inc. The other authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

46. Absence of the dolichol synthesis gene DHRSX leads to N-glycosylation defects in Lec5 and Lec9 Chinese hamster ovary cells.

Author

Kentache T, Althoff CR, Caligiore F, Souche E, Schulz C, Graff J, Pieters E, Stanley P, Contessa JN, Van Schaftingen E, Matthijs G, Foulquier F, Bommer GT, and Wilson MP

Abstract

Glycosylation-deficient Chinese hamster ovary cell lines have been instrumental in the discovery of N-glycosylation machinery. Yet, the molecular causes of the glycosylation defects in the Lec5 and Lec9 mutants have been elusive, even though for both cell lines a defect in dolichol formation from polyprenol was previously established. We recently found that dolichol synthesis from polyprenol occurs in three steps consisting of the conversion of polyprenol to polyprenal by DHRSX, the reduction of polyprenal to dolichal by SRD5A3, and the reduction of dolichal to dolichol, again by DHRSX. This led us to investigate defective dolichol synthesis in Lec5 and Lec9 cells. Both cell lines showed increased levels of polyprenol and its derivatives, concomitant with decreased levels of dolichol and derivatives, but no change in polyprenal levels, suggesting DHRSX deficiency. Accordingly, N-glycan synthesis and changes in polyisoprenoid levels were corrected by complementation with human DHRSX but not with SRD5A3. Furthermore, the typical polyprenol dehydrogenase and dolichal reductase activities of DHRSX were absent in membrane preparations derived from Lec5 and Lec9 cells, while the reduction of polyprenal to dolichal, catalyzed by SRD5A3, was unaffected. Long-read whole genome sequencing of Lec5 and Lec9 cells did not reveal mutations in the ORF of SRD5A3, but the genomic region containing DHRSX was absent. Lastly, we established the sequence of Chinese hamster DHRSX and validated that this protein has similar kinetic properties to the human enzyme. Our work therefore identifies the basis of the dolichol synthesis defect in Chinese hamster ovary Lec5 and Lec9 cells., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

47. Distribution of Glycoconjugates in the Gills of Oscar Fish (Astronotus ocellatus)

Author

Mustafa Öztop, Kenan Çınar, and Emel Demirbağ

Subjects

lectin, oscar fish, glycoconjugate, astronotus ocellatus, Science (General), Q1-390

Abstract

Glycoconjugates involved in many functions are produced by many cell types. This study aimed to investigate the glycoconjugate expression in the Oscar fish (Astronotus ocellatus) gills using five horseradish peroxidase-conjugated lectins. This study revealed that gill epithelial cells react with Canavalia ensiformis agglutinin (Con A) and Arachis hypogaea agglutinin (PNA). Strong reaction to Con A was seen in the epithelial cells of the gill primary lamellae. Epithelial cells of primary and secondary lamellae and eosinophilic granular cells had varying intensity of PNA binding. Ulex europaeus agglutinin-I(UEA-I) positive eosinophilic granular cells were observed in the connective tissue of primary lamellae. Epithelial cells of the gill primary filament had Con A reaction in varying intensities. Superficial epithelial cells reacted with PNA in various degrees. Epithelial cells of the secondary lamellae had Con A and PNA positive reaction. These results indicate that glycoconjugate distribution may show interspecific variations, suggesting that the high heterogeneity of naturally occurring glycoconjugates in the epithelial cells of Oscar fish gills might be attributed to the various functional roles of glycoconjugates.

Published

2021

48. Immune Response to Conjugates of Fragments of the Type K9 Capsular Polysaccharide of Acinetobacter baumannii with Carrier Proteins

Author

Natalia Rudenko, Anna Karatovskaya, Anna Zamyatina, Anna Shepelyakovskaya, Svetlana Semushina, Fedor Brovko, Anna Shpirt, Vladimir Torgov, Natalia Kolotyrkina, Alexandr Zinin, Anastasiya Kasimova, Andrei Perepelov, Mikhail Shneider, and Yuriy Knirel

Subjects

Acinetobacter baumannii, capsular polysaccharide, interleukins, glycoconjugate, opsonisation assay, Microbiology, QR1-502

Abstract

ABSTRACT The clonal bacterial species Acinetobacter baumannii is an emerging multidrug-resistant pathogen which causes high-lethality infections. Cells of A. baumannii are surrounded by the type-specific capsular polysaccharide (CPS), which provides resistance to the protective mechanisms of the host and is considered a target for immunization. The conjugates of three inert carrier proteins and A. baumannii type K9 CPS fragments, which contained various numbers of oligosaccharide repeats (K-units), were synthesized by periodate oxidation and squaric acid chemistry. The conjugates were applied to immunize mice, and chemical synthesis by squaric acid was shown to significantly improve the immunogenic properties of glycoconjugate. In BALB/c mice, IgG antibodies were predominant among type K9 CPS reactive antibodies, and their total content was several times higher than that of IgM. Immune sera were characterized by their opsonization ability during practically the entire lives of the experimental mice. The sera were cross-reactive, but the highest specificity was observed against the antigen (type K9 CPS) used for immunization. The immunization of BALB/c and ICR-1 mice with a glycoconjugate without adjuvants led to varying degrees of stimulation of IL-10, IL-17A, and TNF-α production, but not IL-4 production in the ICR-1 mice. This is in contrast to the BALB/c mice, in which γ-IFN production was also activated. The protective effectiveness of the glycoconjugates obtained by squaric acid chemistry was demonstrated by experiments that involved challenging immunized and nonimmunized animals with a lethal dose of A. baumannii K9. IMPORTANCE Immunization by glycoconjugates with A. baumannii type K9 CPS fragments induced a high level of antibodies (predominantly IgG) in sera, which reacted specifically with the CPS of A. baumannii type K9, as well as a long immunological memory. The sera of immunized animals efficiently opsonized A. baumannii type K9. Immunization resulted in the balanced production of pro/anti-inflammatory lymphokines and protective antibodies to ensure the survival of the mice infected with A. baumannii. The level of specific antibodies was sufficient to provide protective immunity against the challenge by A. baumannii, making this approach applicable in the development of vaccine preparations.

Published

2022

49. Sulfur and Azobenzenes, a Profitable Liaison: Straightforward Synthesis of Photoswitchable Thioglycosides with Tunable Properties.

Author

Berry, Jonathan, Lindhorst, Thisbe K., and Despras, Guillaume

Subjects

*PROTEIN-carbohydrate interactions, *AZOBENZENE derivatives, *VISIBLE spectra, *SULFUR, *AZOBENZENE, *DIARYLETHENE

Abstract

Azobenzene photoswitches are valuable tools for controlling properties of molecular systems with light. We have been investigating azobenzene glycoconjugates to probe carbohydrate‐protein interactions and to design glycoazobenzene macrocycles with chiroptical and physicochemical properties modulated by light irradiation. To date, direct conjugation of glycosides to azobenzenes was performed by reactions providing target compounds in limited yields. We therefore sought a more effective and reliable coupling method. In this paper, we report on a straightforward thioarylation of azobenzene derivatives with glycosyl thiols as well as other thiols, thereby increasing the scope of azobenzene conjugation. Even challenging unsymmetrical conjugates can be achieved in good yields via sequential or one‐pot procedures. Importantly, red‐shifted azoswitches, which are addressed with visible light, were easily functionalized. Additionally, by oxidation of the sulfide bridge to the respective sulfones, both the photochromic and the thermal relaxation properties of the core azobenzene can be tuned. Utilizing this option, we realized orthogonal three‐state photoswitching in mixtures containing two distinct azobenzene thioglycosides. [ABSTRACT FROM AUTHOR]

Published

2022

50. Morphometric study of the vestibuloauditory organ of the African clawed frog, Xenopus laevis.

Author

Homma, Takeshi, Sohel, Md. Shahriar Hasan, Onouchi, Sawa, and Saito, Shouichiro

Subjects

*XENOPUS, *XENOPUS laevis, *FROGS, *TOMATOES, *AUDIO frequency, *WATER depth

Abstract

Independent auditory end‐organs appear first in amphibians in vertebrate phylogeny. In amphibians, sound detection is carried out by the amphibian papilla, basilar papilla and macula saccule. Amphibians inhabit distinct habitats and exhibit specific behaviours and sound frequency responses, so the amphibian vestibuloauditory system is an excellent model for considering the relationships between behaviour and physiological/anatomical vestibuloauditory properties. The African clawed frog, Xenopus laevis, lives in shallow water throughout its life and is thought to use sound in a higher frequency range compared with terrestrial anurans. In this study, the size of each vestibuloauditory end‐organ and the distribution of ganglion cells in the vestibuloauditory ganglion were examined using haematoxylin and eosin staining and lectin histochemistry in Xenopus laevis. This study revealed that the size ratios among end‐organs in Xenopus are similar to those in terrestrial anurans. Large and small cells were observed in the ganglion, but their distribution patterns are different from those in general terrestrial anurans. Lycopersicon esculentum lectin stained a large number of ganglion cells. Lectin‐stained cells were found throughout the whole ganglion, but were especially abundant in the caudal part. These results suggested a unique distribution pattern of the vestibuloauditory ganglion cells in Xenopus. [ABSTRACT FROM AUTHOR]

Published

2022