Your search keyword '"b-subunit"' showing total 47 results

1. Characterization of the ganglioside recognition profile of Escherichia coli heat-labile enterotoxin LT-IIc.

Author

Zalem, Dani, Juhás, Martin, Terrinoni, Manuela, King-Lyons, Natalie, Lebens, Michael, Varrot, Annabelle, Connell, Terry D, and Teneberg, Susann

Subjects

*ESCHERICHIA coli toxins, *ESCHERICHIA coli, *VIBRIO cholerae, *CHOLERA toxin, *ADENYLATE cyclase, *ENTEROTOXINS, *BACTERIAL toxins

Abstract

The heat-labile enterotoxins of Escherichia coli and cholera toxin of Vibrio cholerae are related in structure and function. Each of these oligomeric toxins is comprised of one A polypeptide and five B polypeptides. The B-subunits bind to gangliosides, which are followed by uptake into the intoxicated cell and activation of the host's adenylate cyclase by the A-subunits. There are two antigenically distinct groups of these toxins. Group I includes cholera toxin and type I heat-labile enterotoxin of E. coli ; group II contains the type II heat-labile enterotoxins of E. coli. Three variants of type II toxins, designated LT-IIa, LT-IIb and LT-IIc have been described. Earlier studies revealed the crystalline structure of LT-IIb. Herein the carbohydrate binding specificity of LT-IIc B-subunits was investigated by glycosphingolipid binding studies on thin-layer chromatograms and in microtiter wells. Binding studies using a large variety of glycosphingolipids showed that LT-IIc binds with high affinity to gangliosides with a terminal Neu5Acα3Gal or Neu5Gcα3Gal, e.g. the gangliosides GM3, GD1a and Neu5Acα3-/Neu5Gcα3--neolactotetraosylceramide and Neu5Acα3-/Neu5Gcα3-neolactohexaosylceramide. The crystal structure of LT-IIc B-subunits alone and with bound LSTd/sialyl-lacto- N -neotetraose d pentasaccharide uncovered the molecular basis of the ganglioside recognition. These studies revealed common and unique functional structures of the type II family of heat-labile enterotoxins. [ABSTRACT FROM AUTHOR]

Published

2022

2. Equal Neutralization Potency of Antibodies Raised against Abrin Subunits

Author

Yoav Gal, Anita Sapoznikov, Reut Falach, Ohad Mazor, Ron Alcalay, Eytan Elhanany, Moshe Aftalion, Sharon Ehrlich, Chanoch Kronman, and Tamar Sabo

Subjects

abrin, ricin, chimeric toxins, a-subunit, b-subunit, polyclonal antibodies, Immunologic diseases. Allergy, RC581-607

Abstract

Abrin and ricin are potent AB toxins, which are considered biological threats. To date, there are no approved treatments against abrin or ricin intoxications. Previously, we showed that the administration of polyclonal anti-abrin antibodies to mice that were intranasally exposed to abrin, even very late post-exposure, conferred an exceedingly high-level of protection, while following ricin intoxication, similar treatment with anti-ricin antibodies resulted in negligible survival rates. To probe this unexpected difference in protection ability, we first examined whether the efficient anti-abrin-induced protection was due to neutralization of the A-subunit responsible for the catalytic effect, or of the B-subunit, which enables binding/internalization, by evaluating the protection conferred by antibodies directed against one of the two subunits. To this end, we generated and immunized rabbits with chimeric toxins containing a single abrin subunit, AabrinBricin in which abrin A-subunit was linked to ricin B-subunit, and AricinBabrin in which ricin A-subunit is linked to abrin B-subunit. Here, we show that antibodies raised against either AabrinBricin or AricinBabrin conferred exceptionally high protection levels to mice following intranasal exposure to a a lethal dose of abrin, suggesting that the high level of protection conferred by anti-abrin antibodies is not related to the neutralization of a particular subunit.

Published

2020

3. Inactivation of protein-phosphatase 2A causing hyperphosphorylation of autoantigenic paraprotein targets in MGUS/MM is due to an exchange of its regulatory subunits.

Author

Preuss, Klaus‐Dieter, Fadle, Natalie, Regitz, Evi, Held, Gerhard, and Pfreundschuh, Michael

Abstract

Hyperphosphorylated paratarg-7 (pP-7) carrier state is the strongest molecularly defined risk factor for monoclonal gammopathy of undetermined significance (MGUS), multiple myeloma (MM) and Waldenstrom's macroglobulinemia (WM). pP-7 is inherited as autosomal-dominant trait and depending on the ethnic background is found in over one-third of MGUS/MM patients. P-7, which is the antigenic paraprotein target in these patients, is hyperphosphorylated at serine17. P-7 hyperphosphorylation can be induced in wild-type P-7 (wtP-7) carriers by PKCζ and reverted by protein-phosphatase 2A (PP2A). Here we show that dephosphorylation of pP-7 is defective in pP-7 carriers due to inactivation of the PP2A by substitution of the regulatory B55δ subunit with B56γ3. In lymphoblastoid cell lines from pP-7 carriers, transfection of recombinant B55δ or treatment with ceramide led to a partial reconstitution of PP2A activity and dephosphorylation of pP-7 to wtP7. Similar results were observed with other previously reported autoantigenic paraproteins targets. In conclusion, the mechanisms responsible for the defective dephosphorylation and maintaining the hyperphosphorylated state of P-7 and other autoantigenic paraprotein targets have been elucidated, facilitating the identification of the genetic basis underlying this phenomenon which is obviously common in the pathogenesis of MGUS/MM/WM and not restricted to pP-7 cases. [ABSTRACT FROM AUTHOR]

Published

2014

4. Expression of Functional Human Coagulation Factor XIII A-domain in Plant Cell Suspensions and Whole Plants

Author

Anderson, Daniel

Published

2004

5. De-novo modeling and ESR validation of a cyanobacterial FoF1–ATP synthase subunit bb′ left-handed coiled coil

Author

Volkov, Oleg A., Zaida, Tarek M., Voeller, Petra, Lill, Holger, Wise, John G., and Vogel, Pia D.

Subjects

*ELECTRON paramagnetic resonance spectroscopy, *ADENOSINE triphosphate, *SPIN labels, *DIMERS, *BIOENERGETICS

Abstract

Abstract: The structure and functional role of the dimeric external stalk of FoF1–ATP synthases have been very actively researched over the last years. To understand the function, detailed knowledge of the structure and protein packing interactions in the dimer is required. In this paper we describe the application of structural prediction and molecular modeling approaches to elucidate the structural packing interaction of the cyanobacterial ATP synthase external stalk. In addition we present biophysical evidence derived from ESR spectroscopy and site directed spin labeling of stalk proteins that supports the proposed structural model. The use of the heterodimeric bb′ dimer from a cyanobacterial ATP synthase (Synechocystis sp. PCC 6803) allowed, by specific introduction of spin labels along each individual subunit, the evaluation of the overall tertiary structure of the subunits by calculating inter-spin distances. At defined positions in both b and b′ subunits, reporter groups were inserted to determine and confirm inter-subunit packing. The experiments showed that an approximately 100 residue long section of the cytoplasmic part of the bb′-dimer exists mostly as an elongated α-helix. The distant C-terminal end of the dimer, which is thought to interact with the δ-subunit, seemed to be disordered in experiments using soluble bb′ proteins. A left-handed coiled coil packing of the dimer suggested from structure prediction studies and shown to be feasible in molecular modeling experiments was used together with the measured inter-spin distances of the inserted reporter groups determined in ESR experiments to support the hypothesis that a significant portion of the bb′ structure exists as a left-handed coiled coil. [Copyright &y& Elsevier]

Published

2009

6. Isolation and characterization of a tomato non-specific lipid transfer protein involved in polygalacturonase-mediated pectin degradation.

Author

Tomassen, Monic M. M., Barrett, Diane M., van der Valk, Henry C. P. M., and Woltering, Ernst J.

Subjects

*PECTINS, *FRUIT development, *CELL adhesion, *CELL communication, *TOMATOES

Abstract

An important aspect of the ripening process of tomato fruit is softening. Softening is accompanied by hydrolysis of the pectin in the cell wall by pectinases, causing loss of cell adhesion in the middle lamella. One of the most significant pectin-degrading enzymes is polygalacturonase (PG). Previous reports have shown that PG in tomato may exist in different forms (PG1, PG2a, PG2b, and PGx) commonly referred to as PG isoenzymes. The gene product PG2 is differentially glycosylated and is thought to associate with other proteins to form PG1 and PGx. This association is thought to modulate its pectin-degrading activity in planta. An 8 kDa protein that is part of the tomato PG1 multiprotein complex has been isolated, purified, and functionally characterized. This protein, designated ‘activator’ (ACT), belongs to the class of non-specific lipid transfer proteins (nsLTPs). ACT is capable of ‘converting’ the gene product PG2 into a more active and heat-stable form, which increases PG-mediated pectin degradation in vitro and stimulates PG-mediated tissue breakdown in planta. This finding suggests a new, not previously identified, function for nsLTPs in the modification of hydrolytic enzyme activity. It is proposed that ACT plays a role in the modulation of PG activity during tomato fruit softening. [ABSTRACT FROM PUBLISHER]

Published

2007

7. The screening of expression and purification conditions for replicative DNA polymerase associated B-subunits, assignment of the exonuclease activity to the C-terminus of archaeal pol D DP1 subunit

Author

Jokela, Maarit, Raki, Mari, Heikkinen, Kaisa, Sepponen, Katri, Eskelinen, Anitta, and Syväoja, Juhani E.

Subjects

*DNA polymerases, *GENES, *RECOMBINANT proteins, *ESCHERICHIA coli

Abstract

Abstract: The B-subunits of replicative DNA polymerases belong to the superfamily of calcineurin-like phosphoesterases and are conserved from Archaea to humans. Recently we and others have shown that the B-subunit (DP1) of the archaeal family D DNA polymerase is responsible for proofreading 3′–5′ exonuclease activity. The similarity of B-subunit sequences implies a common fold, but since the key catalytic and metal binding residues of the phosphoesterase domain are disrupted in the eukaryotic B-subunits, their common function has not been identified. To study the structure and activities of B-subunits in more detail, we expressed 13 different recombinant B-subunits in Escherichia coli. We found that the solubility of a protein could be predicted from the calculated GRAVY score. These scores were useful for the selection of proteins for successful expression. We optimized the expression and purification of Methanocaldococcus (Methanococcus) jannaschii DP1 of DNA polymerase D (MjaDP1) and show that the protein co-purifies with a thermostable nuclease activity. Truncation of the protein indicates that the N-terminus (aa 1–134) is not needed for catalysis. The C-terminal part of the protein containing both the calcineurin-like phosphoesterase domain and the OB-fold is sufficient for the nuclease activity. [Copyright &y& Elsevier]

Published

2005

8. Distances between the b-subunits in the tether domain of F0F1-ATP synthase from E. coli

Author

Steigmiller, Stefan, Börsch, Michael, Gräber, Peter, and Huber, Martina

Subjects

*ADENOSINE triphosphatase, *ADENOSINE diphosphate, *ESCHERICHIA coli, *CHROMOSOMAL translocation, *ELECTRON paramagnetic resonance spectroscopy

Abstract

Abstract: The arrangement of the b-subunits in the holo-enzyme F0F1-ATP synthase from E. coli is investigated by site-directed mutagenesis spin-label EPR. F0F1-ATP synthases couple proton translocation with the synthesis of ATP from ADP and phosphate. The hydrophilic F1-part and the hydrophobic membrane-integrated F0-part are connected by a central and a peripheral stalk. The peripheral stalk consists of two b-subunits. Cysteine mutations are introduced in the tether domain of the b-subunit at b-40, b-51, b-53, b-62 or b-64 and labeled with a nitroxide spin label. Conventional (9 GHz), high-field (95 GHz) and pulsed EPR spectroscopy reveal: All residues are in a relatively polar environment, with mobilities consistent with helix sites. The distance between the spin labels at each b-subunit is 2.9 nm in each mutant, revealing a parallel arrangement of the two helices. They can be in-register but separated by a large distance (1.9 nm), or at close contact and displaced along the helix axes by maximally 2.7 nm, which excludes an in-register coiled-coil model suggested previously for the b-subunit. Binding of the non-hydrolysable nucleotide AMPPNP to the spin-labeled enzyme had no significant influence on the distances compared to that in the absence of nucleotides. [Copyright &y& Elsevier]

Published

2005

9. Equal Neutralization Potency of Antibodies Raised against Abrin Subunits

Author

Ron Alcalay, Tamar Sabo, Anita Sapoznikov, Eytan Elhanany, Sharon Ehrlich, Ohad Mazor, Reut Falach, Yoav Gal, Moshe Aftalion, and Chanoch Kronman

Subjects

0301 basic medicine, lcsh:Immunologic diseases. Allergy, endocrine system, media_common.quotation_subject, Immunology, a-subunit, Article, Neutralization, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, AB toxin, Drug Discovery, Immunology and Allergy, polyclonal antibodies, b-subunit, Internalization, abrin, media_common, 030102 biochemistry & molecular biology, biology, Lethal dose, ricin, carbohydrates (lipids), enzymes and coenzymes (carbohydrates), 030104 developmental biology, Ricin, chemistry, Polyclonal antibodies, biology.protein, Abrin, Antibody, lcsh:RC581-607, chimeric toxins

Abstract

Abrin and ricin are potent AB toxins, which are considered biological threats. To date, there are no approved treatments against abrin or ricin intoxications. Previously, we showed that the administration of polyclonal anti-abrin antibodies to mice that were intranasally exposed to abrin, even very late post-exposure, conferred an exceedingly high-level of protection, while following ricin intoxication, similar treatment with anti-ricin antibodies resulted in negligible survival rates. To probe this unexpected difference in protection ability, we first examined whether the efficient anti-abrin-induced protection was due to neutralization of the A-subunit responsible for the catalytic effect, or of the B-subunit, which enables binding/internalization, by evaluating the protection conferred by antibodies directed against one of the two subunits. To this end, we generated and immunized rabbits with chimeric toxins containing a single abrin subunit, AabrinBricin in which abrin A-subunit was linked to ricin B-subunit, and AricinBabrin in which ricin A-subunit is linked to abrin B-subunit. Here, we show that antibodies raised against either AabrinBricin or AricinBabrin conferred exceptionally high protection levels to mice following intranasal exposure to a a lethal dose of abrin, suggesting that the high level of protection conferred by anti-abrin antibodies is not related to the neutralization of a particular subunit.

Published

2020

10. Tissue- and cell-specific distribution of creatine kinase B: A new and highly specific monoclonal antibody for use in immunohistochemistry.

Author

Sistermans, Erik, Kok, Yvette, Peters, Wilma, Ginsel, Leo, Jap, Paul, and Wieringa, Bé

Abstract

A synthetic 17-mer peptide corresponding to an unique sequence in the amino-terminal region of human creatine kinase B was used to raise a new and highly B-subunit-specific monoclonal antibody, CK-BYK/21E10. We show here that the monoclonal antibody is suitable for immunohistochemistry of unfixed frozen sections as well as formaldehyde- or Bouin-fixed, paraffin-embedded sections of human, rabbit, and mouse tissues. Moreover, in the study of cell- and tissue-specific distribution patterns, parallel Western blot analysis and immunoelectron microscopy is possible using this antibody. Our analyses demonstrate that creatine kinase B expression is restricted to a specific subset of cell types in various tissues. In brain, the B-subunit was found only in neurocytes, but not in glia cells. High expression was also observed in inner segments of photoreceptor cells and the outer plexiform layer of the retina, in the parietal cells of the stomach and in gut enterocytes, gallbladder and epithelial cells of the urogenital system. The possible roles of the creatine kinase/phosphocreatine-ATP system in these tissues are discussed. [ABSTRACT FROM AUTHOR]

Published

1995

11. Pentabody-mediated antigen delivery induces antigen-specific mucosal immune response

Author

Shokouh Makvandi-Nejad, Tomoko Hirama, Wenju Zheng, Ted Fjällman, Matthew J. Henry, Wangxue Chen, Jianbing Zhang, Rhonda KuoLee, and Shenghua Li

Subjects

medicine.medical_treatment, canada, domain, medicine.disease_cause, Epitopes, Drug Delivery Systems, antibody, antibodies, Mice, Inbred BALB C, biology, mucosal immunization, Cholera toxin, Serum Albumin, Bovine, mixture, Female, Antibody, Camelids, New World, Adjuvant, CT, Escherichia, Cholera Toxin, single domain antibody, mice, Recombinant Fusion Proteins, Molecular Sequence Data, Immunology, cholera, B-subunit, immunization, components, efficient, Microbiology, antigen, Immune system, Antigen, Immunity, component, Escherichia coli, medicine, Animals, Amino Acid Sequence, Antigens, Immunity, Mucosal, Molecular Biology, Sequence Homology, Amino Acid, toxicity, CTB, Single-domain antibody, Mucosal immunology, biology.protein, bacteria, Protein Multimerization, serum

Abstract

An efficient immunization system is essential for the development of mucosal vaccine. Cholera toxin (CT) and Escherichia coli heat labile toxin (LT) are among the strongest adjuvants tested in experimental animals but their use in humans has been hindered by their toxicity. On the other hand, the role of their non-toxic B-subunits, CTB or LTB, in enhancing mucosal immune response is not clear. We propose here a novel strategy for the induction of mucosal immune responses. Single domain antibodies (sdAbs) against a model antigen bovine serum albumin (BSA) were raised from the antibody repertoire of a llama immunized with BSA, pentamerized by fusing the sdAbs to CTB, generating the so-called pentabodies. These pentabodies were used to deliver the antigen by mixing the two components and administering the mixture to mice intranasally. One construct was equivalent to CT in helping induce mucosal immune response. It was also found that this ability was probably due to its high affinity to BSA, providing some insight into the controversial role of CTB in mucosal immunization: at least for BSA, the model antigen BSA employed in this study, CTB has to be tightly linked to the antigen to have adjuvant/immune-enhancing effect.

Published

2009

12. Alum boosts TH2-type antibody responses to whole-inactivated virus influenza vaccine in mice but does not confer superior protection

Author

Wouter ter Veer, Jan Wilschut, Jeroen Medema, Anke Huckriede, Laura Bungener, Felix Geeraedts, University of Groningen, and Translational Immunology Groningen (TRIGR)

Subjects

T-Lymphocytes, medicine.medical_treatment, Aluminum Hydroxide, ADJUVANT, Antibodies, Viral, Mice, chemistry.chemical_compound, vaccine, INFECTION, IMMUNE-RESPONSE, I RANDOMIZED-TRIAL, Lung, Mice, Inbred BALB C, Aluminium hydroxide, Antibody titer, Infectious Diseases, Influenza Vaccines, aluminium hydroxide, Molecular Medicine, Female, Antibody, influenza, Adjuvant, TH1/TH2, A/DUCK/SINGAPORE/97 H5N3 VACCINE, Immunization, Secondary, Biology, PANDEMIC INFLUENZA, Virus, Interferon-gamma, Immune system, Adjuvants, Immunologic, Orthomyxoviridae Infections, Antigen, B-SUBUNIT, medicine, Animals, WILD-TYPE VIRUS, General Veterinary, General Immunology and Microbiology, Body Weight, MF59-ADJUVANTED INFLUENZA, Public Health, Environmental and Occupational Health, Hemagglutination Inhibition Tests, Virology, Vaccines, Inactivated, chemistry, Immunoglobulin G, Immunology, Humoral immunity, biology.protein, CHALLENGE

Abstract

Clinical trials with pandemic influenza vaccine candidates have focused on aluminium hydroxide as an adjuvant to boost humoral immune responses. In this study we investigated the effect of aluminium hydroxide on the magnitude and type of immune response induced by whole-inactivated virus (WIV) vaccine. Balb/c mice were immunized once with a range of antigen doses (0.04-5 mu g) of WIV produced from A/PR/8 virus, either atone or in combination with aluminium hydroxide. The hemagglutination inhibition (HI) titers of mice receiving WIV + aluminium hydroxide were 4-16-fold higher than HI titers in mice receiving the same dose of WIV alone, indicating the boosting effect of aluminium hydroxide. WIV induced a TH1 skewed humoral and cellular immune response, characterized by strong influenza-specific IgG2a responses and a high number of IFN gamma-secreting T cells. In contrast, immunization with WIV adsorbed to aluminium hydroxide resulted in skewing of this response to a TH2 phenotype (high IgG1 levels and a low number of IFN gamma-producing T cells).To assess the effect of the observed immune response skewing on viral clearance from the lungs mice immunized once with 1 mu g WIV without or with aluminium hydroxide were challenged with A/PR/8 virus 4 weeks later. The immunized mice showed a significant decrease in viral lung titers compared to control mice receiving buffer. However, despite higher antibody titers, mice immunized with WIV adsorbed to aluminium hydroxide suffered from more severe weight loss and had significantly higher virus Loads in their lung tissue than mice receiving WIV alone. Major difference between these groups of mice was the type of immune response induced, TH2 instead of TH1, indicating that a TH1 response plays a major role in viral clearance. (C) 2008 Elsevier Ltd. All rights reserved.

Published

2008

13. Equal Neutralization Potency of Antibodies Raised against Abrin Subunits.

Author

Gal, Yoav, Sapoznikov, Anita, Falach, Reut, Mazor, Ohad, Alcalay, Ron, Elhanany, Eytan, Aftalion, Moshe, Ehrlich, Sharon, Kronman, Chanoch, and Sabo, Tamar

Subjects

IMMUNOGLOBULINS, RICIN, EXPOSURE dose, TOXINS

Abstract

Abrin and ricin are potent AB toxins, which are considered biological threats. To date, there are no approved treatments against abrin or ricin intoxications. Previously, we showed that the administration of polyclonal anti-abrin antibodies to mice that were intranasally exposed to abrin, even very late post-exposure, conferred an exceedingly high-level of protection, while following ricin intoxication, similar treatment with anti-ricin antibodies resulted in negligible survival rates. To probe this unexpected difference in protection ability, we first examined whether the efficient anti-abrin-induced protection was due to neutralization of the A-subunit responsible for the catalytic effect, or of the B-subunit, which enables binding/internalization, by evaluating the protection conferred by antibodies directed against one of the two subunits. To this end, we generated and immunized rabbits with chimeric toxins containing a single abrin subunit, AabrinBricin in which abrin A-subunit was linked to ricin B-subunit, and AricinBabrin in which ricin A-subunit is linked to abrin B-subunit. Here, we show that antibodies raised against either AabrinBricin or AricinBabrin conferred exceptionally high protection levels to mice following intranasal exposure to a a lethal dose of abrin, suggesting that the high level of protection conferred by anti-abrin antibodies is not related to the neutralization of a particular subunit. [ABSTRACT FROM AUTHOR]

Published

2020

14. Agroinjection of Tomato Fruits. A Tool for Rapid Functional Analysis of Transgenes Directly in Fruit

Author

Willemien H. Wieland, Diego Orzaez, Antonio Granell, and Sophie Mirabel

Subjects

Physiology, Agrobacterium, Transgene, Mutant, Antibodies, Heterophile, agrobacterium, virus, Plant Science, Injections, Transformation, Genetic, Bacterial Proteins, Solanum lycopersicum, Caulimovirus, Genes, Reporter, Arabidopsis, Botany, Genetics, Gene silencing, Gene Silencing, Transgenes, b-subunit, mutant, Laboratorium voor Nematologie, Gene, Glucuronidase, Microscopy, Confocal, biology, EPS-2, plants, food and beverages, Breakthrough Technologies, Plants, Genetically Modified, biology.organism_classification, Luminescent Proteins, arabidopsis, Horticulture, synthase, transient gene-expression, Fruit, leaves, Laboratory of Nematology, Solanum, Oxidoreductases, protein, Solanaceae, Biotechnology, Plasmids, Rhizobium

Abstract

Transient expression of foreign genes in plant tissues is a valuable tool for plant biotechnology. To shorten the time for gene functional analysis in fruits, we developed a transient methodology that could be applied to tomato (Solanum lycopersicum cv Micro Tom) fruits. It was found that injection of Agrobacterium cultures through the fruit stylar apex resulted in complete fruit infiltration. This infiltration method, named fruit agroinjection, rendered high levels of 35S Cauliflower mosaic virus-driven β-glucuronidase and yellow fluorescence protein transient expression in the fruit, with higher expression levels around the placenta and moderate levels in the pericarp. Usefulness of fruit agroinjection was assayed in three case studies: (1) the heat shock regulation of an Arabidopsis (Arabidopsis thaliana) promoter, (2) the production of recombinant IgA antibodies as an example of molecular farming, and (3) the virus-induced gene silencing of the carotene biosynthesis pathway. In all three instances, this technology was shown to be efficient as a tool for fast transgene expression in fruits.

Published

2006

15. Pentamerization of Single-domain Antibodies from Phage Libraries: A Novel Strategy for the Rapid Generation of High-avidity Antibody Reagents

Author

Emily Stone, Jean Robert Brisson, Nam Huan Khieu, Rebecca To, Jamshid Tanha, Jianbing Zhang, Hong Tong-Sevinc, C. Roger MacKenzie, and Tomoko Hirama

Subjects

Protein Denaturation, binding, Phage display, diagnosis, Recombinant Fusion Proteins, Bacterial Toxins, domain, Antibody Affinity, Protein Data Bank (RCSB PDB), Protein Engineering, form, state, antigen, Drug Stability, Antigen, Peptide Library, antigens, Structural Biology, antibody, libraries, Escherichia coli, Animals, antibodies, Avidity, b-subunit, molecular, Peptide library, Molecular Biology, molecule, structural, biology, Chemistry, Shiga-like toxin, protease, yield, Molecular biology, Fusion protein, Peptide Fragments, peptide, Protein Structure, Tertiary, flexibility, verotoxin, Single-domain antibody, biology.protein, Indicators and Reagents, Antibody, protein, Camelids, New World, Dimerization

Abstract

We describe a novel type of molecule in which single-domain antibodies (sdAbs) isolated from a nai;ve llama single domain antibody library are linked to an oligomerization domain to generate high-avidity, antigen-binding reagents. An sdAb is fused to the B-subunit of Escherichia coli verotoxin, or shiga-like toxin, which self-assembles to form a homopentamer and results in simultaneous sdAb pentamerization and introduction of avidity. Molecular modeling indicated that this fusion protein (PDB: 1OJF), termed pentabody, has structural flexibility for binding to surface-presented antigen. In the instance of an sdAb specific for a peptide antigen, pentamerization resulted in a dramatic increase in functional affinity for immobilized antigen. The pentabody was expressed in high yield in E.coli in a non-aggregated state, and exhibited excellent thermostability and protease resistance. This technology provides a relatively rapid means of generating novel antigen-binding molecules that bind strongly to immobilized antigen. It is expected that pentavalent sdAbs will have general applicability in proteomics, immunochemical staining, cancer diagnosis and other applications in which antigens are presented multivalently.

Published

2004

16. Stator structure and subunit composition of the V-1/V-0 Na+-ATPase of the thermophilic bacterium Caloramator fervidus

Subjects

CLOSTRIDIUM-FERVIDUS, ENERGY TRANSDUCTION, stator, VACUOLAR-TYPE, F-TYPE, V-TYPE ATPASE, rotational catalysis, molecular motor, Na+-ATPase, TRANSLOCATING ATPASE, ENTEROCOCCUS-HIRAE, THERMUS-THERMOPHILUS, B-SUBUNIT, AMINO-ACID-TRANSPORT

Abstract

The V-type Na+-ATPase of the thermophilic, anaerobic bacterium Caloramator fervidus was purified to homogeneity. The subunit compositions of the catalytic V-1 and membrane-embedded V-0 parts were determined and the structure of the enzyme complex was studied by electron microscopy. The V-1 headpiece consists of seven subunits present in one to three copies, and the V-0 part of two subunits in a ratio of 5:2. An analysis of over 7500 single particle images obtained by electron microscopy of the purified V1V0 enzyme complex revealed that the stalk region, connecting the V-1 and V-0 parts, contains two peripheral stalks in addition to a central stalk. One of the two is connected to the V-0 part, while the other is connected to the first via a bar-like structure that is positioned just above V-0, parallel with the plane of the membrane. Ln projection, this bar seems to contact the central stalk. The data show that the stator structure that prevents rotation of the static part of V-0 relative to V-1 in the rotary catalysis mechanism of energy coupling in ATPases/ATPsynthases is more complex than previously thought. (C) 2000 Academic Press.

Published

2000

17. Structure of V-type ATPase from Clostridium fervidus by electron microscopy

Subjects

electron microscopy, CROSS-LINKING, ESCHERICHIA-COLI, VACUOLAR H+-ATPASE, INTERSUBUNIT ROTATION, EPSILON-SUBUNIT, B-SUBUNIT, SYNTHASE, DELTA-SUBUNIT, F-0 PARTS, F-ATPASE, V-type ATPase, F-type ATPase

Abstract

F-type and V-type ATPases couple synthesis or hydrolysis of ATP to the translocation of H+ or Na+ across biological membranes and have similarities in structure and mechanism. In both types of enzymes three main parts can be distinguished: headpiece, membrane-bound piece and stalk region. We report on structural details of the membrane sector and stalk region, including the stator, of V-type ATPase from Clostridium fervidus, as determined by electron microscopy. Besides visualization of the stator structure, one of the main findings is that in certain projections the central stalk connecting V-1 and V-0 makes an angle of about 70 degrees with the membrane. Implications for the subunit arrangement in V-type and F-type ATPase are discussed.

Published

1998

18. The role of ADP-ribosylation and G(M1)-binding activity in the mucosal immunogenicity and adjuvanticity of the Escherichia coli heat-labile enterotoxin and Vibrio cholerae cholera toxin

Subjects

ANTIBODY-RESPONSES, PROTEIN ANTIGEN, IMMUNE-RESPONSES, RIBOSYLTRANSFERASE ACTIVITY, immunization, WHOLE-CELL VACCINE, adjuvant, vaccine, B-SUBUNIT, INTRANASAL IMMUNIZATION, CRYSTAL-STRUCTURE, NASAL INFLUENZA VACCINE, toxin, ORAL IMMUNIZATION

Abstract

The mucosal route of vaccination has attracted a great deal of attention recently. Not only is mucosal application of vaccines, for example, orally or intranasally, particularly convenient, it also offers the possibility to induce locally produced and secreted S-IgA antibodies in addition to systemic IgG antibodies. These IgA antibodies are known to play a key role in protection against pathogens that invade the host through mucosal surfaces. Induction of such responses is not readily achieved by currently used vaccination strategies, which generally involve intramuscular or subcutaneous injection with inactivated pathogens or antigens thereof. For the induction of a mucosal immune response, the vaccine needs to be applied locally. However, local vaccination with non-replicating antigens is usually ineffective and may result in tolerance unless a mucosal immunoadjuvant is included. The most potent mucosal immunoadjuvants known to date are probably cholera toxin (CT) and the closely related Escherichia coli heat-labile enterotoxin (LT). Although CT and LT have become standard adjuvants for experimental mucosal vaccines, the intrinsic toxicity has thus far precluded their use as adjuvants for human vaccine formulations. In the present review, the mucosal immunogenic and adjuvant properties of LT and CT are described, with special emphasis on the functional role of the individual subunits on their immune-stimulatory properties.

Published

1998

19. Characterization of the Growth of 2D Protein Crystals on a Lipid Monolayer by Ellipsometry and Rigidity Measurements Coupled to Electron Microscopy

Author

Cécile Zakri, Catherine Vénien-Bryan, Alain Brisson, Pierre-François Lenne, Jean-François Legrand, Anne Renault, and Bruno Berge

Subjects

Cholera Toxin, Protein Conformation, Nucleation, Biophysics, G(M1) Ganglioside, FILMS, law.invention, law, Ellipsometry, Monolayer, B-SUBUNIT, Surface Tension, Crystallization, Annexin A5, Lipid bilayer, 3-DIMENSIONAL STRUCTURE, 2-DIMENSIONAL CRYSTALLIZATION, Chemistry, CRYSTALLOGRAPHY, Proteins, Elasticity, MODEL, Crystallography, Microscopy, Electron, Membrane, RESOLUTION, Liposomes, COMPLEXES, Stress, Mechanical, Electron microscope, MEMBRANE, Protein crystallization, Research Article

Abstract

We present here some sensitive optical and mechanical experiments for monitoring the process of formation and growth of two-dimensional (2D) crystals of proteins on a lipid monolayer at an air-water interface. The adsorption of proteins on the lipid monolayer was monitored by ellipsometry measurements. An instrument was developed to measure the shear elastic constant (in plane rigidity) of the monolayer. These experiments have been done using cholera toxin B subunit (CTB) and annexin V as model proteins interacting with a monosialoganglioside (GM1) and dioleoylphosphatidylserine (DOPS), respectively. Electron microscopy observations of the protein-lipid layer transferred to grids were systematically used as a control. We found a good correlation between the measured in-plane rigidity of the monolayer and the presence of large crystalline domains observed by electron microscopy grids. Our interpretation of these data is that the crystallization process of proteins on a lipid monolayer passes through at least three successive stages: 1) molecular recognition between protein and lipid-ligand, i.e., adsorption of the protein on the lipid layer; 2) nucleation and growth of crystalline patches whose percolation is detected by the appearance of a non-zero in-plane rigidity; and 3) annealing of the layer producing a slower increase of the lateral or in-plane rigidity.

Published

1998

20. Characterization of the growth of 2D protein crystals on a lipid monolayer by ellipsometry and rigidity measurements coupled to electron microscopy

Subjects

MODEL, RESOLUTION, CRYSTALLOGRAPHY, B-SUBUNIT, COMPLEXES, MEMBRANE, FILMS, 3-DIMENSIONAL STRUCTURE, 2-DIMENSIONAL CRYSTALLIZATION

Abstract

We present here some sensitive optical and mechanical experiments for monitoring the process of formation and growth of two-dimensional (2D) crystals of proteins on a lipid monolayer at an air-water interface. The adsorption of proteins on the lipid monolayer was monitored by ellipsometry measurements. An instrument was developed to measure the shear elastic constant tin plane rigidity) of the monolayer, These experiments have been done using cholera toxin B subunit (CTB) and annexin V as model proteins interacting with a monosialoganglioside (GM1) and dioleoylphosphatidylserine (DOPS), respectively. Electron microscopy observations of the protein-lipid layer transferred to grids were systematically used as a control. We found a good correlation between the measured in-plane rigidity of the monolayer and the presence of large crystalline domains observed by electron microscopy grids. Our interpretation of these data is that the crystallization process of proteins on a lipid monolayer passes through at least three successive stages: 1) molecular recognition between protein and lipid-ligand, i.e,, adsorption of the protein on the lipid layer; 2) nucleation and growth of crystalline patches whose percolation is detected by the appearance of a non-zero in-plane rigidity; and 3) annealing of the layer producing a slower increase of the lateral or in-plane rigidity.

Published

1998

21. Non-toxic variants of the Escherichia coli heat-labile enterotoxin as mucosal immunogens and adjuvants

Subjects

IMMUNE-RESPONSES, INDUCTION, CHOLERA-TOXIN, VACCINE, ADP-RIBOSYLTRANSFERASE ACTIVITY, pneumolysin, VIRUS-INFECTION, immunization, A-SUBUNIT, diphtheria toxoid, ANTIGENS, vaccine, B-SUBUNIT, INTRANASAL IMMUNIZATION, mucosal immunity S-IgA

Abstract

The mucosal route of vaccination offers the possibility to induce locally produced and secreted IgA antibodies, which are known to play a key role in host defense. In addition, local immunization may result in the induction of substantial levels of serum antibodies, and therefore represents an attractive alternative for parenteral vaccination. However, without the use of a powerful mucosal adjuvant, local administration of inactivated vaccines usually fails to trigger a substantial immune response. Escherichia coli heat-labile toxin (LT) is one of the most potent mucosal immunogens and adjuvants known to date. The intrinsic toxicity has, however, precluded its use as an adjuvant for locally administered vaccines. One of the objectives of our work in this area is the identification of non-toxic LT variants which retain the immunogenic and adjuvant properties of the wild-type toxin. Here, we present a number of such variants. From the presented data, we conclude that non-toxic heat-labile toxin from E. coli variants are promising adjuvants which should be considered as adjuvants for locally administered vaccines.

Published

1998

22. A Suicide Gene Therapy Combining the Improvement of Cyclophosphamide Tumor Cytotoxicity and the Development of an Anti-Tumor Immune Response

Author

Monique Diry, Johanne Seguin, Claude Baillou, François André, Philippe Beaune, Walid Touati, François M. Lemoine, Géraldine Lescaille, Thi Thuy Hien Tran, Jean-Pierre Flinois, Isabelle de Waziers, Eric Tartour, Unité de Technologies Chimiques et Biologiques pour la Santé (UTCBS - UM 4 (UMR 8258 / U1022)), Ecole Nationale Supérieure de Chimie de Paris - Chimie ParisTech-PSL (ENSCP), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)

Subjects

Lung Neoplasms, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, Genetic Vectors, ANTIGEN, Antineoplastic Agents, Biology, Pharmacology, Viral vector, Fusion gene, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, LUNG-CANCER, Antigen, Cell Line, Tumor, HUMAN LIVER, Antineoplastic Combined Chemotherapy Protocols, Drug Discovery, LINE PANEL, Genetics, B-SUBUNIT, Animals, Humans, Cytotoxic T cell, Prodrugs, REGULATORY T-CELLS, Cyclophosphamide, Molecular Biology, Genetics (clinical), IN-VIVO, NADPH-Ferrihemoprotein Reductase, 030304 developmental biology, 0303 health sciences, ENZYME EXPRESSION, Lentivirus, Genes, Transgenic, Suicide, Genetic Therapy, Prodrug, Suicide gene, 3. Good health, Mice, Inbred C57BL, Cell culture, ESCHERICHIA-COLI, 030220 oncology & carcinogenesis, Molecular Medicine, Female, LENTIVIRAL VECTOR

Abstract

International audience; Gene-directed enzyme prodrug therapy (GDEPT) consists in targeted delivery to tumor cells of a suicide gene responsible for in situ conversion of a prodrug into cytotoxic metabolites. One of the major limitations of this strategy in clinical application was the poor prodrug activation capacity of suicide gene. We built a highly efficient suicide gene capable of bioactivating the prodrug cyclophosphamide (CPA) by fusing a CYP2B6 triple mutant with NADPH cytochrome P450 reductase (CYP2B6TM-RED). Expression of this fusion gene via a recombinant lentivirus (LV) vector converted resistant human (A549) and murine (TC1) pulmonary cell lines into CPA-susceptible cell lines. We tested the efficiency of our GDEPT strategy in C57Bl/6 immunocompetent mice, using TC1 cells expressing the HPV-16 E6/E7 oncoproteins. In mice bearing tumors composed only of TC1-CYP2B6TM-RED cells, four CPA injections (140 mg/Kg once a week) completely eradicated the tumors for more than two months. Tumors having only 25% of TC1-CYP2B6TM-RED cells were also completely eradicated by five CPA injections, demonstrating a major in vivo bystander effect. Moreover, surviving mice were rechallenged with parental TC1 cells. The tumors regressed spontaneously 7 days after cell inoculation or grew more slowly than in control naive mice due to a strong immune response mediated by anti-E7CD8(+)T cells. These data suggest that combining the CYPB6TM-RED gene with CPA may hold promise as a highly effective treatment for solid tumors in humans.

Published

2014

23. Protein engineering studies of A-chain loop 47-56 of Escherichia coli heat-labile enterotoxin point to a prominent role of this loop for cytotoxicity

Subjects

STIMULATION, MUTAGENESIS, INDUCTION, B-SUBUNIT, VIBRIO-CHOLERAE, CHOLERA-TOXIN, ADP-RIBOSYLTRANSFERASE ACTIVITY, CRYSTAL-STRUCTURE, ASSAY, ANTIGENS

Abstract

Heat-labile enterotoxin (LT), produced by enterotoxigenic Escherichia coli, is a close relative of cholera toxin (CT), These two toxins share approximately 80% sequence identity, and consists of one 240-residue A chain and five 103-residue B subunits. The B pentamer is responsible for G(M1) receptor recognition, whereas the A subunit carries out an ADP-ribosylation of an arginine residue in the G protein, G(s alpha), in the epithelial target cell. This paper explores the importance of specific amino acids in loop 47-56 of the A subunit. This loop was observed to be highly mobile in the inactive R7K mutant of the A subunit. The position of the loop in wild-type protein is such that it might require considerable reorganization during substrate binding and is likely to have a crucial role in substrate binding. Five single-site substitutions have been made in the LT-A subunit 47-56 loop to investigate its possible role in the enzymatic activity and toxicity of LT and CT. The wild-type residues Thr-50 and Val-53 were replaced either by a glycine or by a proline. The glycine substitutions were intended to increase the mobility of this active-site loop, and the proline substitutions were intended to decrease the mobility of this same loop by restricting the accessible conformational space, Under the hypothesis that mobility of the loop is important for catalysis, the glycine-substitution mutants T50G and V53G would be expected to exhibit activity equal to or greater than that of the wild-type A subunit, while the proline substitution mutants T50P and T53P would be less active. Cytotoxicity assays showed, however, that all four of these mutants were considerably less active than wild-type LT. These results lend support for assignment of a prominent role to loop 47-56 in catalysis by LT and CT.

Published

1996

24. Neutralizing antibodies against rotavirus produced in transgenically labelled purple tomatoes

Author

Juárez Ortega, Paloma, Presa Castro, Silvia, Espi, Joaquin, Pineda Chaza, Benito José, Antón Martínez, María Teresa, Moreno Ferrero, Vicente, Buesa, Javier, Granell Richart, Antonio, and Orzáez Calatayud, Diego Vicente

Subjects

Rotavirus, B-Subunit, Passive immunization, fungi, Monoclonal-antibodies, food and beverages, Carotenoid biosynthesis, Expression, Identity preservation, Plants, Tomato, Fruits, Anthocyanins, GENETICA, Capsid proteins, Plant synthetic biology, BIOQUIMICA Y BIOLOGIA MOLECULAR, Secretory antibodies, Antigens, Fusion protein, IgA

Abstract

El pdf del artículo es la versión pre-print., Edible fruits are inexpensive biofactories for human health-promoting molecules that can be ingested as crude extracts or partially purified formulations. We show here the production of a model human antibody for passive protection against the enteric pathogen rotavirus in transgenically labelled tomato fruits. Transgenic tomato plants expressing a recombinant human immunoglobulin A (hIgA_2A1) selected against the VP8* peptide of rotavirus SA11 strain were obtained. The amount of hIgA_2A1 protein reached 3.6 +/- 0.8% of the total soluble protein in the fruit of the transformed plants. Minimally processed fruit-derived products suitable for oral intake showed anti-VP8* binding activity and strongly inhibited virus infection in an in vitro virus neutralization assay. In order to make tomatoes expressing hIgA_2A1 easily distinguishable from wild-type tomatoes, lines expressing hIgA_2A1 transgenes were sexually crossed with a transgenic tomato line expressing the genes encoding Antirrhinum majus Rosea1 and Delila transcription factors, which confer purple colour to the fruit. Consequently, transgenically labelled purple tomato fruits expressing hIgA_2A1 have been developed. The resulting purple-coloured extracts from these fruits contain high levels of recombinant anti-rotavirus neutralizing human IgA in combination with increased amounts of health-promoting anthocyanins., This work was supported by the Spanish Ministry of Science, Technology and Innovation: Grants BIO2008-03434, AGL2009-13388-C03-01 and BIO2010-15384 and P. Juarez FPU fellowship.

Published

2012

25. GALACTOSE-BINDING SITE IN ESCHERICHIA-COLI HEAT-LABILE ENTEROTOXIN (LT) AND CHOLERA-TOXIN (CT)

Subjects

RECEPTOR, DESIGN, GM1, B-SUBUNIT, PROGRAM, PROTEIN, PEPTIDES, SUGAR, MEMBRANE

Abstract

The galactose-binding site in cholera toxin and the closely related heat-labile enterotoxin (LT) from Escherichia coil is an attractive target for the rational design of potential anti-cholera drugs. In this paper we analyse the molecular structure of this binding site as seen in several crystal structures, including that of an LT:galactose complex which we report here at 2.2 Angstrom resolution. The binding surface on the free toxin contains several tightly associated water molecules and a relatively flexible loop consisting of residues 51-60 of the B subunit. During receptor binding this loop becomes tightly ordered by forming hydrogen bonds jointly to the G(M1) pentasaccharide and to a set of water molecules which stabilize the toxin:receptor complex.

Published

1994

26. REFINED STRUCTURE OF ESCHERICHIA-COLI HEAT-LABILE ENTEROTOXIN, A CLOSE RELATIVE OF CHOLERA-TOXIN

Subjects

HUMAN ANNEXIN-V, ADP-RIBOSYLTRANSFERASE ACTIVITY, HEAT-LABILE ENTEROTOXIN, NAD+ BINDING, AMINO-ACID SUBSTITUTION, CHOLERA TOXIN, CRYSTAL-STRUCTURE ANALYSIS, A-SUBUNIT, CRYSTAL STRUCTURE, PERTUSSIS TOXIN, MOLECULAR-DYNAMICS, ADP-RIBOSYLATING, B-SUBUNIT, ADENOSINE-DIPHOSPHATE-RIBOSYLATION, NUCLEOTIDE-BINDING-PROTEINS

Published

1993

27. Microneedle arrays for the transcutaneous immunization of diphtheria and influenza in BALB/c mice

Author

M. Bivas-Benita, Gideon F.A. Kersten, D.J. van den Berg, Zhi Ding, Laura Bungener, Anke Huckriede, Joke A. Bouwstra, Verbaan Frederick J, and Translational Immunology Groningen (TRIGR)

Subjects

Cholera Toxin, Influenza vaccine, Pharmaceutical Science, VACCINE, Microneedle array, Diphtheria toxoid, SKIN IMMUNIZATION, PATCH, Administration, Cutaneous, Mice, Subcutaneous injection, DELIVERY, Antigen, Influenza, Human, B-SUBUNIT, Animals, Humans, Medicine, Transcutaneous immunization, Diphtheria toxin, Mice, Inbred BALB C, business.industry, IMMUNE-RESPONSES, Influenza A Virus, H3N2 Subtype, Diphtheria, INDUCTION, Toxoid, Antibody titer, CHOLERA-TOXIN, HEAT-LABILE ENTEROTOXIN, medicine.disease, Immunization, Influenza Vaccines, ESCHERICHIA-COLI, Immunoglobulin G, Immunology, Antibody response, Female, business

Abstract

Transcutaneous immunization (TCI) is limited by poor permeation of macromolecules across the skin. Microneedle arrays form transient conduits and enhance the transport of vaccine molecules across the skin barrier without pain sensation. Here we investigated in mouse the immune responses after TO using two model antigens, diphtheria toxoid (DT) and influenza subunit vaccine. The electric applicator enabled shorter microneedle (300 mu m) to pierce mouse skin effectively, as shown by Trypan blue staining and trans-epidermal water loss measurement. The vaccines were topically applied with and without cholera toxin (CT) on microneedle-treated skin. In DT TCI, microneedle array pretreatment of the skin was essential to achieve substantial IgG and toxin-neutralizing antibody titers. Addition of CT further boosted the immune response to similar levels as observed after subcutaneous injection of AlPO(4)-adsorbed DT (DT-alum). In contrast, microneedle array pretreatment showed no effect on the immune response to plain influenza vaccine. This response was strongly improved by inclusion of CT, independent of microneedle treatment. These results indicate that TO of DT and CT with microneedle treatment results in comparable protection as injection of DT-alum, and TO of influenza vaccine adjuvanted with CT is superior to the injection of plain vaccine. (C) 2009 Elsevier B.V. All rights reserved.

Published

2009

28. Crystal Structure of a Cholera Toxin-Related Heat-Labile Enterotoxin from E. coli

Subjects

X-RAY-DIFFRACTION, ESCHERICHIA-COLI, NUCLEOTIDE-SEQUENCE, AERUGINOSA EXOTOXIN-A, PSEUDOMONAS-AERUGINOSA, B-SUBUNIT, AMINO-ACID-SEQUENCE, DIPHTHERIA-TOXIN, ADP-RIBOSYLTRANSFERASE ACTIVITY, 3-DIMENSIONAL STRUCTURE

Abstract

Examination of the structure of Escherichia coli heat-labile enterotoxin in the AB5 complex at a resolution of 2.3 angstrom reveals that the doughnut-shaped B pentamer binds the enzymatic A subunit using a hairpin of the A2 fragment, through a highly charged central pore. Putative ganglioside G(M1-) binding sites on the B subunits are more than 20 angstrom removed from the membrane-crossing A1 subunit. This ADP-ribosylating (A1) fragment of the toxin has structural homology with the catalytic region of exotoxin A and hence also to diphtheria toxin.

Published

1991

29. Cloning, expression, and characterization of a single-domain antibody fragment with affinity for 15-acetyl-deoxynivalenol

Author

Patrick John Doyle, Gordon S Furzer, C. Roger MacKenzie, Marc E. Savard, Mehdi Arbabi-Ghahroudi, Michael D. McLean, Nathalie Gaudette, Steve Gleddie, and J. Christopher Hall

Subjects

binding, isolation & purification, domain, molecular structure, chain, fluorescence polarization, protein binding, recombinant proteins, law.invention, immunology, law, antibody, genetics, subunit, biology, protein structure, tertiary, Chemistry, antibody affinity, Dissociation constant, resonance, Recombinant DNA, Hapten, surface plasmon resonance, Canada, immunoglobulin fragments, Pentamer, kinetic, molecular sequence data, B-subunit, chemistry, immunization, cloning, molecular, mycotoxins, Escherichia coli, trichothecenes, surface, Titermax, molecular, gene library, Molecular Biology, Heavy-chain antibody, haptens, molecular weight, DNA, assay, Molecular biology, amino acid sequence, enzyme linked immunosorbent assay, Kinetics, verotoxin, Single-domain antibody, Polyclonal antibodies, biology.protein, protein, serum

Abstract

A single-domain variable heavy chain (V(H)H) antibody fragment specific to the mycotoxin 15-acetyldeoxynivalenol (15-AcDON) was obtained after immunization of a llama (Llama glama) with the protein conjugate 15-DON-BSA plus TiterMax Classic adjuvant. After confirmation of a polyclonal response to DON toxin in both conventional (cIgG) and heavy chain antibody (HCAb) fractions, a V(H)H library was constructed from amplified cDNA by nested PCR. V(H)H fragments with binding affinity for the mycotoxin were selected by panning of the phagemid library against microtiter plates coated with 15-DON-OVA. The dominant clone (NAT-267) was expressed in E. coli and was purified as a V(H)H monomer (mNAT-267) at a final concentration of 1.3 mg mL(-1). Isolated NAT-267 V(H)H DNA was fused to the homopentamerization domain of the B subunit of verotoxin to generate the pentabody format of single-domain antibody (sAb). The V(H)H pentamer (pNAT-267) was expressed in E. coli and was purified at a final concentration of 1.0 mg mL(-1). Surface plasmon resonance (SPR) analysis of soluble mNAT-267 binding kinetics to immobilized 15-DON-Horse Radish Peroxidase (HRP) indicated a dissociation constant (K(D)) of 5microM. Competitive direct enzyme-linked immunosorbent assay (CD-ELISA) and fluorescence polarization assay (FPA) inhibition experiments with monomer and pentamer confirmed binding to 15-AcDON. Competitive inhibition FPAs with mNAT-267 and pNAT-267 determined IC(50) values of 1.24 and 0.50 microM, respectively, for 15-AcDON hapten. These values were similar to the IC(50) value of 1.42 microM for 15-AcDON given by polyclonal llama serum sampled 56 days after immunization. Competition formats for structurally related trichothecenes resulted in no cross-reactivity to: DON; 3-acetyldeoxynivalenol (3-AcDON); neosolaniol (NEO); diacetoxyscirpenol (DAS); and T-2 toxin. Our study confirmed that recombinant V(H)H fragments capable of binding low molecular weight haptens can be produced through the creation and panning of hyper-immunized single-domain (sdAb) libraries.

Published

2008

30. Neutralizing antibodies against rotavirus produced in transgenically labelled purple tomatoes

Author

Juárez, Paloma, Presa, Silvia, Espí, Joaquín, Pineda Chaza, Benito José, Antón Martínez, María Teresa, Moreno Ferrero, Vicente, Buesa, Javier, Granell, Antonio, Orzáez, Diego, Juárez, Paloma, Presa, Silvia, Espí, Joaquín, Pineda Chaza, Benito José, Antón Martínez, María Teresa, Moreno Ferrero, Vicente, Buesa, Javier, Granell, Antonio, and Orzáez, Diego

Abstract

Edible fruits are inexpensive biofactories for human health-promoting molecules that can be ingested as crude extracts or partially purified formulations. We show here the production of a model human antibody for passive protection against the enteric pathogen rotavirus in transgenically labelled tomato fruits. Transgenic tomato plants expressing a recombinant human immunoglobulin A (hIgA_2A1) selected against the VP8* peptide of rotavirus SA11 strain were obtained. The amount of hIgA_2A1 protein reached 3.6 +/- 0.8% of the total soluble protein in the fruit of the transformed plants. Minimally processed fruit-derived products suitable for oral intake showed anti-VP8* binding activity and strongly inhibited virus infection in an in vitro virus neutralization assay. In order to make tomatoes expressing hIgA_2A1 easily distinguishable from wild-type tomatoes, lines expressing hIgA_2A1 transgenes were sexually crossed with a transgenic tomato line expressing the genes encoding Antirrhinum majus Rosea1 and Delila transcription factors, which confer purple colour to the fruit. Consequently, transgenically labelled purple tomato fruits expressing hIgA_2A1 have been developed. The resulting purple-coloured extracts from these fruits contain high levels of recombinant anti-rotavirus neutralizing human IgA in combination with increased amounts of health-promoting anthocyanins.

Published

2012

31. A novel pentamer versus pentamer approach to generating neutralizers of verotoxin 1

Author

Tomoko Hirama, Wangxue Chen, Jianbing Zhang, James L. Brunton, C. Roger MacKenzie, Anna L. Soltyk, and Emily Stone

Subjects

Phage display, binding, isolation & purification, receptor, binding sites, virulence factors, medicine.disease_cause, Neutralization, immunology, antibody, Chlorocebus aethiops, site, antibodies, subunit, Cytotoxicity, cytotoxicity, immunologic, biology, protein structure, tertiary, Shiga toxin 1, antibody affinity, Shiga-like toxin, in vitro, syndrome, protein structure, quaternary, camelids, new world, Vero cells, Antibody, Escherichia, Canada, Pentamer, mutant proteins, Virulence, molecular sequence data, B-subunit, chemistry, Microbiology, Cercopithecus aethiops, neutralization tests, medicine, Escherichia coli, Animals, mutant, Molecular Biology, Wild type, assay, cell, infection, amino acid sequence, virulence, verotoxin, antagonists & inhibitors, kinetics, receptors, cell surface, biology.protein

Abstract

Verotoxins (VTs), or shiga-like toxins, are produced by enterohemorrhagic Escherichia coli (EHEC), which cause hemorrhagic colitis and hemolytic uremic syndrome. VTs are the major virulence factors in EHEC infection due to their cytotoxicity to various types of cells. Here, we present a novel type of VT neutralizer based on pentavalent single-domain antibodies, or pentabodies. Two single-domain antibodies (sdAbs) specific for the receptor binding sites of the B subunit of VT1 (VT1B) were isolated from a naïve llama phage display library. These two sdAbs were pentamerized to generate pentameric VT neutralizers, VTI-1 and VTI-3. Both VT neutralizers bound wild type VT1B specifically with superior functional affinity. In vitro neutralization assays showed that VTI-1 and VTI-3 were able to neutralize 90% and 40%, respectively, of the cytotoxicity caused by VT1. This effort provides the basis of a novel type of VT neutralizer that can potentially be produced at a relatively low cost.

Published

2007

32. Strong inhibition of cholera toxin by multivalent GM1 derivatives

Author

Michel Gilbert, Roland J. Pieters, C.A.G.M. Weijers, Cristina Sisu, Rob M. J. Liskamp, Han Zuilhof, Aliaksei V. Pukin, Hilbert M. Branderhorst, and Gerben M. Visser

Subjects

Cholera Toxin, binding, Glycoconjugate, Stereochemistry, Molecular Sequence Data, Enzyme-Linked Immunosorbent Assay, G(M1) Ganglioside, crystalline silicon surfaces, Heat-labile enterotoxin, medicine.disease_cause, Biochemistry, dendrimers, Cholera, Dendrimer, medicine, Molecule, oligosaccharide, b-subunit, Molecular Biology, Escherichia coli, heat-labile enterotoxin, VLAG, chemistry.chemical_classification, Molecular Structure, Chemistry, Toxin, Cholera toxin, Organic Chemistry, solid-phase, Ligand (biochemistry), Organische Chemie, Carbohydrate Sequence, escherichia-coli, Molecular Medicine, carbohydrate ligands, linked organic monolayers

Abstract

(Chemical Equation Presented) Sticky fingers. The optimal ligand for the cholera toxin (CT), GM1-oligosaccharide (GM1os), was linked to dendritic structures that contained long spacer arms by using highly efficient "click" chemistry coupling. In the inhibition studies very large multivalency effects were observed; the best structure was an unprecedented 380 000-fold more potent ligand for the toxin than a monovalent GM1os derivative

Published

2007

33. Strong inhibition of cholera toxin binding by galactose dendrimers

Author

Rob M. J. Liskamp, Roland J. Pieters, Hilbert M. Branderhorst, and Gerben M. Visser

Subjects

Models, Molecular, Cholera Toxin, Dendrimers, design, gm1, Heat-labile enterotoxin, Crystallography, X-Ray, medicine.disease_cause, ligand, Catalysis, azides, chemistry.chemical_compound, Dendrimer, Materials Chemistry, medicine, oligosaccharide, b-subunit, cycloaddition, heat-labile enterotoxin, VLAG, chemistry.chemical_classification, Ganglioside, Molecular Structure, terminal alkynes, Organic Chemistry, Cholera toxin, Metals and Alloys, Galactose, solid-phase, General Chemistry, Oligosaccharide, Ligand (biochemistry), Organische Chemie, Cycloaddition, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biochemistry, chemistry, Solvents, Ceramics and Composites, lipids (amino acids, peptides, and proteins)

Abstract

Galactose-containing dendrimers with long spacer arms inhibit cholera toxin binding as strongly as the natural ganglioside GM1 oligosaccharide does.

Published

2007

34. Replicative DNA polymerase associated B-subunits

Author

Jokela, M. (Maarit)

Subjects

recombinant protein production, promoter analysis, viruses, proofreading exonuclease, DNA polymerase, DNA replication, B-subunit, archaeal pol D

Abstract

Replicative DNA polymerases (pols) synthesize chromosomal DNA with high accuracy and speed during cell division. In eukaryotes the process involves three family B pols (α, δ, ε), whereas in Archaea, two types of pols, families B and D, are involved. In this study the B-subunits of replicative pols were analysed at the DNA, RNA and protein levels. By cloning the cDNAs for the B-subunits of human and mouse pol ε we were able to show that the encoded proteins are not only homologous to budding yeast pol ε, but also to the second largest subunit of pol α. Later studies have revealed that the B-subunits are conserved from Archaea to human, and also that they belong to the large calcineurin-like phosphoesterase superfamily consisting of a wide variety of hydrolases. At the mRNA level, the expression of the human pol ε B-subunit was strongly dependent on cell proliferation as has been observed for the A-subunit of pol ε and also for other eukaryotic replicative pols. By analysing the promoter of the POLE2 gene encoding the human pol ε B-subunit we show that the gene is regulated by two E2F-pocket protein complexes associated with the Sp1 and NF-1 transcription factors. Comparison of the promoters of the human pol ε and the pol α B-subunit indicates that the genes for the B-subunits may be generally regulated through E2F-complexes whereas adjustment of the basal activity may be achieved by distinct transcription factors. To clarify the function of the B-subunits, we screened through the expression of 13 different recombinant B-subunits. Although they were mainly expressed as insoluble proteins in E. coli, we were able to optimize the expression and purification for the B-subunit (DP1) of Methanococcus jannaschii pol D (MjaDP1). We show that MjaDP1 alone was a manganese dependent 3'-5' exonuclease with a preference for mispaired nucleotides and single-stranded DNA, suggesting that MjaDP1 functions as the proofreader of archaeal pol D. So far, pol D is the only pol family utilising an enzyme of the calcineurin-like phosphoesterase superfamily as a proofreader.

Published

2004

35. Stator Structure and Subunit Composition of the V1/V0 Na+-ATPase of the Thermophilic Bacterium Caloramator fervidus

Author

Ubbink-Kok, T, Boekema, EJ, van Breemen, JFL, Brisson, A, Konings, WN, Lolkema, JS, and Groningen Biomolecular Sciences and Biotechnology

Subjects

CLOSTRIDIUM-FERVIDUS, ENERGY TRANSDUCTION, VACUOLAR-TYPE, stator, F-TYPE, rotational catalysis, V-type ATPase, molecular motor, Na+-ATPase, TRANSLOCATING ATPASE, ENTEROCOCCUS-HIRAE, THERMUS-THERMOPHILUS, B-SUBUNIT, AMINO-ACID-TRANSPORT

Abstract

The V-type Na+-ATPase of the thermophilic, anaerobic bacterium Caloramator fervidus was purified to homogeneity. The subunit compositions of the catalytic V-1 and membrane-embedded V-0 parts were determined and the structure of the enzyme complex was studied by electron microscopy. The V-1 headpiece consists of seven subunits present in one to three copies, and the V-0 part of two subunits in a ratio of 5:2. An analysis of over 7500 single particle images obtained by electron microscopy of the purified V1V0 enzyme complex revealed that the stalk region, connecting the V-1 and V-0 parts, contains two peripheral stalks in addition to a central stalk. One of the two is connected to the V-0 part, while the other is connected to the first via a bar-like structure that is positioned just above V-0, parallel with the plane of the membrane. Ln projection, this bar seems to contact the central stalk. The data show that the stator structure that prevents rotation of the static part of V-0 relative to V-1 in the rotary catalysis mechanism of energy coupling in ATPases/ATPsynthases is more complex than previously thought. (C) 2000 Academic Press.

Published

2000

36. 3D imaging of the 58 kDa cell binding subunit of the Helicobacter pylori cytotoxin

Author

Nathalie Norais, Cristina Ulivieri, Cristina Pagliaccia, John L. Telford, Marie Charrel, Véronique Cabiaux, Marina de Bernard, Jean-Marc Reyrat, Emanuele Papini, Salvatore Lanzavecchia, Pietro Lupetti, Vladimir Pelicic, Rino Rappuoli, Xuhuai Ji, Immunobiological Research Institute of Siena, Partenaires INRAE, Universita degli Studi di Padova, Department of Life Sciences [Siena, Italy], and Università degli Studi di Siena = University of Siena (UNISI)

Subjects

Models, Molecular, Specificity factor, Plasma protein binding, medicine.disease_cause, law.invention, Structural Biology, law, toxin, ComputingMilieux_MISCELLANEOUS, Sequence Deletion, 0303 health sciences, Cytotoxins, Freeze Etching, Vacuolating cytotoxin, VacA, Endocytosis, Recombinant Proteins, 3. Good health, Biochemistry, Recombinant DNA, Dimerization, Protein Binding, Helicobacter pylori, Cell Survival, Protein subunit, Bacterial Toxins, Molecular Sequence Data, Biology, B-subunit, Cleavage (embryo), 03 medical and health sciences, Bacterial Proteins, 3D reconstruction, Escherichia coli, medicine, Humans, Molecular Biology, 030304 developmental biology, Molecular mass, 030306 microbiology, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, Peptide Fragments, Molecular Weight, Microscopy, Electron, Solubility, Vacuoles, Exotoxin, HeLa Cells

Abstract

Pathogenic strains of Helicobacter pylori produce a potent exotoxin, VacA, which intoxicates gastric epithelial cells and leads to peptic ulcer. The toxin is released from the bacteria as a high molecular mass homo-oligomer of a 95 kDa polypeptide which undergoes specific proteolytic cleavage to 37 kDa and 58 kDa subunits. We have engineered a strain of H. pylori to delete the gene sequence coding for the 37 kDa subunit. The remaining 58 kDa subunit is expressed efficiently and exported as a soluble dimer that is non-toxic but binds target cells in a manner similar to the holotoxin. A 3D reconstruction of the molecule from electron micrographs of quick-freeze, deep-etched preparations reveals the contribution of each building block to the structure and permits the reconstruction of the oligomeric holotoxin starting from individual subunits. In this model P58 subunits are assembled in a ring structure with P37 subunits laying on the top. The data indicate that the 58 kDa subunit is capable of folding autonomously into a discrete structure recognizable within the holotoxin and containing the cell binding domain.

Published

1999

37. Structure of V-type ATPase from Clostridium fervidus by electron microscopy

Author

Boekema, E.J., Ubbink-Kok, T.E C M, Lolkema, J.S., Brisson, A.D R, Konings, W.N, Groningen Biomolecular Sciences and Biotechnology, Electron Microscopy, Molecular Microbiology, Moleculaire Genetica, Elektronenmicroscopie, Faculty of Science and Engineering, GBB Cluster Microbiologie, and Moleculaire Microbiologie

Subjects

electron microscopy, CROSS-LINKING, ESCHERICHIA-COLI, VACUOLAR H+-ATPASE, INTERSUBUNIT ROTATION, EPSILON-SUBUNIT, B-SUBUNIT, SYNTHASE, DELTA-SUBUNIT, F-0 PARTS, F-ATPASE, V-type ATPase, F-type ATPase

Abstract

F-type and V-type ATPases couple synthesis or hydrolysis of ATP to the translocation of H+ or Na+ across biological membranes and have similarities in structure and mechanism. In both types of enzymes three main parts can be distinguished: headpiece, membrane-bound piece and stalk region. We report on structural details of the membrane sector and stalk region, including the stator, of V-type ATPase from Clostridium fervidus, as determined by electron microscopy. Besides visualization of the stator structure, one of the main findings is that in certain projections the central stalk connecting V-1 and V-0 makes an angle of about 70 degrees with the membrane. Implications for the subunit arrangement in V-type and F-type ATPase are discussed.

Published

1998

38. The role of ADP-ribosylation and G(M1)-binding activity in the mucosal immunogenicity and adjuvanticity of the Escherichia coli heat-labile enterotoxin and Vibrio cholerae cholera toxin

Author

de Haan, L, Verweij, W, Agsteribbe, E, Wilschut, J, and Groningen University Institute for Drug Exploration (GUIDE)

Subjects

ANTIBODY-RESPONSES, PROTEIN ANTIGEN, IMMUNE-RESPONSES, RIBOSYLTRANSFERASE ACTIVITY, immunization, WHOLE-CELL VACCINE, adjuvant, vaccine, B-SUBUNIT, INTRANASAL IMMUNIZATION, CRYSTAL-STRUCTURE, NASAL INFLUENZA VACCINE, toxin, ORAL IMMUNIZATION

Abstract

The mucosal route of vaccination has attracted a great deal of attention recently. Not only is mucosal application of vaccines, for example, orally or intranasally, particularly convenient, it also offers the possibility to induce locally produced and secreted S-IgA antibodies in addition to systemic IgG antibodies. These IgA antibodies are known to play a key role in protection against pathogens that invade the host through mucosal surfaces. Induction of such responses is not readily achieved by currently used vaccination strategies, which generally involve intramuscular or subcutaneous injection with inactivated pathogens or antigens thereof. For the induction of a mucosal immune response, the vaccine needs to be applied locally. However, local vaccination with non-replicating antigens is usually ineffective and may result in tolerance unless a mucosal immunoadjuvant is included. The most potent mucosal immunoadjuvants known to date are probably cholera toxin (CT) and the closely related Escherichia coli heat-labile enterotoxin (LT). Although CT and LT have become standard adjuvants for experimental mucosal vaccines, the intrinsic toxicity has thus far precluded their use as adjuvants for human vaccine formulations. In the present review, the mucosal immunogenic and adjuvant properties of LT and CT are described, with special emphasis on the functional role of the individual subunits on their immune-stimulatory properties.

Published

1998

39. Non-toxic variants of the Escherichia coli heat-labile enterotoxin as mucosal immunogens and adjuvants

Author

de Haan, L, Verweij, WR, Feil, IK, Holtrop, M, Hol, WGJ, Agsteribbe, E, Wilschut, J, and Groningen University Institute for Drug Exploration (GUIDE)

Subjects

IMMUNE-RESPONSES, INDUCTION, CHOLERA-TOXIN, VACCINE, ADP-RIBOSYLTRANSFERASE ACTIVITY, pneumolysin, VIRUS-INFECTION, immunization, A-SUBUNIT, diphtheria toxoid, ANTIGENS, B-SUBUNIT, INTRANASAL IMMUNIZATION, mucosal immunity S-IgA

Abstract

The mucosal route of vaccination offers the possibility to induce locally produced and secreted IgA antibodies, which are known to play a key role in host defense. In addition, local immunization may result in the induction of substantial levels of serum antibodies, and therefore represents an attractive alternative for parenteral vaccination. However, without the use of a powerful mucosal adjuvant, local administration of inactivated vaccines usually fails to trigger a substantial immune response. Escherichia coli heat-labile toxin (LT) is one of the most potent mucosal immunogens and adjuvants known to date. The intrinsic toxicity has, however, precluded its use as an adjuvant for locally administered vaccines. One of the objectives of our work in this area is the identification of non-toxic LT variants which retain the immunogenic and adjuvant properties of the wild-type toxin. Here, we present a number of such variants. From the presented data, we conclude that non-toxic heat-labile toxin from E. coli variants are promising adjuvants which should be considered as adjuvants for locally administered vaccines.

Published

1998

40. Non-toxic variants of the Escherichia coli heat-labile enterotoxin as mucosal immunogens and adjuvants

Subjects

IMMUNE-RESPONSES, INDUCTION, CHOLERA-TOXIN, VACCINE, ADP-RIBOSYLTRANSFERASE ACTIVITY, pneumolysin, VIRUS-INFECTION, immunization, A-SUBUNIT, diphtheria toxoid, ANTIGENS, B-SUBUNIT, INTRANASAL IMMUNIZATION, mucosal immunity S-IgA

Abstract

The mucosal route of vaccination offers the possibility to induce locally produced and secreted IgA antibodies, which are known to play a key role in host defense. In addition, local immunization may result in the induction of substantial levels of serum antibodies, and therefore represents an attractive alternative for parenteral vaccination. However, without the use of a powerful mucosal adjuvant, local administration of inactivated vaccines usually fails to trigger a substantial immune response. Escherichia coli heat-labile toxin (LT) is one of the most potent mucosal immunogens and adjuvants known to date. The intrinsic toxicity has, however, precluded its use as an adjuvant for locally administered vaccines. One of the objectives of our work in this area is the identification of non-toxic LT variants which retain the immunogenic and adjuvant properties of the wild-type toxin. Here, we present a number of such variants. From the presented data, we conclude that non-toxic heat-labile toxin from E. coli variants are promising adjuvants which should be considered as adjuvants for locally administered vaccines.

Published

1998

41. Visualization of a peripheral stalk in V-type ATPase: Evidence for the stator structure essential to rotational catalysis

Author

Alain Brisson, W.N Konings, Trees Ubbink-Kok, Juke S. Lolkema, Egbert J. Boekema, Molecular Genetics, Electron Microscopy, Faculty of Science and Engineering, GBB Microbiology Cluster, and Molecular Microbiology

Subjects

Models, Molecular, MECHANISM, Vacuolar Proton-Translocating ATPases, Enzyme complex, F1-ATPASE, ATPase, MITOCHONDRIA, ATP hydrolysis, CHLOROPLASTS, B-SUBUNIT, V-ATPase, SYNTHASE, Clostridium, ELECTRON-MICROSCOPY, Multidisciplinary, COMPLEX, ATP synthase, biology, Biological membrane, Biological Sciences, Microscopy, Electron, Proton-Translocating ATPases, Crystallography, Stalk, ESCHERICHIA-COLI, VACUOLAR H+-ATPASE, biology.protein

Abstract

F- and V-type ATPases are central enzymes in energy metabolism that couple synthesis or hydrolysis of ATP to the translocation of H + or Na + across biological membranes. They consist of a soluble headpiece that contains the catalytic sites and an integral membrane-bound part that conducts the ion flow. Energy coupling is thought to occur through the physical rotation of a stalk that connects the two parts of the enzyme complex. This mechanism implies that a stator-like structure prevents the rotation of the headpiece relative to the membrane-bound part. Such a structure has not been observed to date. Here, we report the projected structure of the V-type Na + -ATPase of Clostridium fervidus as determined by electron microscopy. Besides the central stalk, a second stalk of 130 Å in length is observed that connects the headpiece and membrane-bound part in the periphery of the complex. This additional stalk is likely to be the stator.

Published

1997

42. Iron-Sulfur Clusters in DNA Polymerases and Primases of Eukaryotes.

Author

Baranovskiy AG, Siebler HM, Pavlov YI, and Tahirov TH

Subjects

Animals, DNA Polymerase III chemistry, DNA Replication, Humans, Iron chemistry, Models, Molecular, Protein Conformation, Sulfur chemistry, DNA Polymerase theta, DNA Primase chemistry, DNA-Directed DNA Polymerase chemistry, Iron-Sulfur Proteins chemistry

Abstract

Research during the past decade witnessed the discovery of [4Fe-4S] clusters in several members of the eukaryotic DNA replication machinery. The presence of clusters was confirmed by UV-visible absorption, electron paramagnetic resonance spectroscopy, and metal analysis for primase and the B-family DNA polymerases δ and ζ. The crystal structure of primase revealed that the [4Fe-4S] cluster is buried inside the protein and fulfills a structural role. Although [4Fe-4S] clusters are firmly established in the C-terminal domains of catalytic subunits of DNA polymerases δ and ζ, no structures are currently available and their precise roles have not been ascertained. The [4Fe-4S] clusters in the polymerases and primase play a structural role ensuring proper protein folding and stability. In DNA polymerases δ and ζ, they can potentially play regulatory role by sensing hurdles during DNA replication and assisting with DNA polymerase switches by oscillation between oxidized-reduced states., (© 2018 Elsevier Inc. All rights reserved.)

Published

2018

43. Crystal structure of the human Polϵ B-subunit in complex with the C-terminal domain of the catalytic subunit.

Author

Baranovskiy AG, Gu J, Babayeva ND, Kurinov I, Pavlov YI, and Tahirov TH

Subjects

Amino Acid Sequence, Crystallography, X-Ray, Humans, Models, Molecular, Protein Binding, Catalytic Domain, DNA-Directed DNA Polymerase chemistry, DNA-Directed DNA Polymerase metabolism, Protein Subunits chemistry, Protein Subunits metabolism

Abstract

The eukaryotic B-family DNA polymerases include four members: Polα, Polδ, Polϵ, and Polζ, which share common architectural features, such as the exonuclease/polymerase and C-terminal domains (CTDs) of catalytic subunits bound to indispensable B-subunits, which serve as scaffolds that mediate interactions with other components of the replication machinery. Crystal structures for the B-subunits of Polα and Polδ/Polζ have been reported: the former within the primosome and separately with CTD and the latter with the N-terminal domain of the C-subunit. Here we present the crystal structure of the human Polϵ B-subunit (p59) in complex with CTD of the catalytic subunit (p261 C ). The structure revealed a well defined electron density for p261 C and the phosphodiesterase and oligonucleotide/oligosaccharide-binding domains of p59. However, electron density was missing for the p59 N-terminal domain and for the linker connecting it to the phosphodiesterase domain. Similar to Polα, p261 C of Polϵ contains a three-helix bundle in the middle and zinc-binding modules on each side. Intersubunit interactions involving 11 hydrogen bonds and numerous hydrophobic contacts account for stable complex formation with a buried surface area of 3094 Å 2 Comparative structural analysis of p59-p261 C with the corresponding Polα complex revealed significant differences between the B-subunits and CTDs, as well as their interaction interfaces. The B-subunit of Polδ/Polζ also substantially differs from B-subunits of either Polα or Polϵ. This work provides a structural basis to explain biochemical and genetic data on the importance of B-subunit integrity in replisome function in vivo ., (© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2017

44. Protein engineering studies of A-chain loop 47-56 of Escherichia coli heat-labile enterotoxin point to a prominent role of this loop for cytotoxicity

Author

Feil, IK, Reddy, R, deHaan, L, Merritt, EA, vandenAkker, F, Storm, DR, and Hol, WGJ

Subjects

STIMULATION, MUTAGENESIS, INDUCTION, B-SUBUNIT, VIBRIO-CHOLERAE, CHOLERA-TOXIN, ADP-RIBOSYLTRANSFERASE ACTIVITY, CRYSTAL-STRUCTURE, ASSAY, ANTIGENS

Abstract

Heat-labile enterotoxin (LT), produced by enterotoxigenic Escherichia coli, is a close relative of cholera toxin (CT), These two toxins share approximately 80% sequence identity, and consists of one 240-residue A chain and five 103-residue B subunits. The B pentamer is responsible for G(M1) receptor recognition, whereas the A subunit carries out an ADP-ribosylation of an arginine residue in the G protein, G(s alpha), in the epithelial target cell. This paper explores the importance of specific amino acids in loop 47-56 of the A subunit. This loop was observed to be highly mobile in the inactive R7K mutant of the A subunit. The position of the loop in wild-type protein is such that it might require considerable reorganization during substrate binding and is likely to have a crucial role in substrate binding. Five single-site substitutions have been made in the LT-A subunit 47-56 loop to investigate its possible role in the enzymatic activity and toxicity of LT and CT. The wild-type residues Thr-50 and Val-53 were replaced either by a glycine or by a proline. The glycine substitutions were intended to increase the mobility of this active-site loop, and the proline substitutions were intended to decrease the mobility of this same loop by restricting the accessible conformational space, Under the hypothesis that mobility of the loop is important for catalysis, the glycine-substitution mutants T50G and V53G would be expected to exhibit activity equal to or greater than that of the wild-type A subunit, while the proline substitution mutants T50P and T53P would be less active. Cytotoxicity assays showed, however, that all four of these mutants were considerably less active than wild-type LT. These results lend support for assignment of a prominent role to loop 47-56 in catalysis by LT and CT.

Published

1996

45. GALACTOSE-BINDING SITE IN ESCHERICHIA-COLI HEAT-LABILE ENTEROTOXIN (LT) AND CHOLERA-TOXIN (CT)

Author

MERRITT, EA, SIXMA, TK, KALK, KH, VANZANTEN, BAM, HOL, WGJ, and Groningen Biomolecular Sciences and Biotechnology

Subjects

RECEPTOR, DESIGN, GM1, B-SUBUNIT, PROGRAM, PROTEIN, PEPTIDES, SUGAR, MEMBRANE

Abstract

The galactose-binding site in cholera toxin and the closely related heat-labile enterotoxin (LT) from Escherichia coil is an attractive target for the rational design of potential anti-cholera drugs. In this paper we analyse the molecular structure of this binding site as seen in several crystal structures, including that of an LT:galactose complex which we report here at 2.2 Angstrom resolution. The binding surface on the free toxin contains several tightly associated water molecules and a relatively flexible loop consisting of residues 51-60 of the B subunit. During receptor binding this loop becomes tightly ordered by forming hydrogen bonds jointly to the G(M1) pentasaccharide and to a set of water molecules which stabilize the toxin:receptor complex.

Published

1994

46. Crystal structure of a cholera toxin-related heat-labile enterotoxin from E. coli

Author

Sylvia E. Pronk, Kor H. Kalk, Ben A.M. van Zanten, Titia K. Sixma, Ellen S. Wartna, Bernard Witholt, and Wim G. J. Hol

Subjects

Models, Molecular, Pentamer, Macromolecular Substances, Protein Conformation, Protein subunit, Bacterial Toxins, Molecular Sequence Data, AMINO-ACID-SEQUENCE, DIPHTHERIA-TOXIN, Enterotoxin, Biology, Heat-labile enterotoxin, medicine.disease_cause, Enterotoxins, X-RAY-DIFFRACTION, X-Ray Diffraction, NUCLEOTIDE-SEQUENCE, Gangliosides, medicine, AERUGINOSA EXOTOXIN-A, B-SUBUNIT, Computer Graphics, Escherichia coli, Pseudomonas exotoxin, Amino Acid Sequence, 3-DIMENSIONAL STRUCTURE, Diphtheria toxin, Multidisciplinary, Binding Sites, Crystallography, Escherichia coli Proteins, Cholera toxin, PSEUDOMONAS-AERUGINOSA, ADP-RIBOSYLTRANSFERASE ACTIVITY, NAD, Biochemistry, ESCHERICHIA-COLI

Abstract

Examination of the structure of Escherichia coli heat-labile enterotoxin in the AB5 complex at a resolution of 2.3 angstrom reveals that the doughnut-shaped B pentamer binds the enzymatic A subunit using a hairpin of the A2 fragment, through a highly charged central pore. Putative ganglioside G(M1-) binding sites on the B subunits are more than 20 angstrom removed from the membrane-crossing A1 subunit. This ADP-ribosylating (A1) fragment of the toxin has structural homology with the catalytic region of exotoxin A and hence also to diphtheria toxin.

Published

1991

47. Determination of the Molecular Basis for the Difference in Potency between Shiga Toxins 1 and 2

Author

Flagler, Michael J.

Subjects

Microbiology, Shiga toxin, Shiga-like toxin, Verotoxin, Verocytotoxin, B-subunit, B-pentamer

Abstract

The Gram-negative bacterial pathogen Escherichia coli O157:H7 accounts for an estimated 110,000 cases of disease each year in the United States. The pathogenicity of E. coli O157:H7 is due in large part to the production of one or more members of the Shiga toxin (Stx) family. Stx is an AB5 toxin. The A-subunit possesses RNA N-glycohydrolase activity and mediates host cell damage by cleaving a nucleotide from the 28S ribosomal RNA, inhibiting protein synthesis. The A-subunit is noncovalently associated with a ring-like structure comprised of five identical B-subunits which surrounds the carboxyl-terminus of the A-subunit. The B-pentamer binds to the glycolipid globotriaosylceramide (Gb3) on the surface of host cells and delivers the A-subunit into the cell. There are two immunologically distinct forms of Stx (Stx1 and Stx2) which share 57% amino acid sequence identity and a highly conserved structure. Whilie strains of E. coli O157:H7 can produce Stx1, Stx2, or both, recent data has indicated that Stx2 is far more potent than Stx1 in vivo, and epidemiologic studies suggest that the vast majority of fatal disease cases in humans result from Stx2-producing E. coli strains. However, the molecular basis for the difference in potency between Stx1 and Stx2 is unclear. Neutrophils have been proposed to act as carriers for Stxs in the bloodstream, and controversial reports suggest that differences in the interactions of Stx1 and Stx2 with human neutrophils occur. To clarify the existing controversy in the literature, the effect of Stx1 and Stx2 on human neutrophils was examined, and it was demonstrated that neither Stx1 nor Stx2 interacts directly with neutrophils. Differences in the glycan binding specificities of Stx1 and Stx2 have been demonstrated, and it is possible that the toxins may interact with different receptors or co-receptors in vivo, thus mediating the difference in potency. To yield insight into the factors governing Stx binding specificity, binding of Stx1, Stx2, and receptor binding site mutants of the toxins to receptor analogues was examined across different binding platforms, receptor densities, and in the presence of heterogeneous glycan populations. Glycan preference was mapped to binding site 2, since reciprocal mutation of a single amino acid (asparagine 32 of Stx1B / serine 31 of Stx2B) reversed binding preference. Differences in the relative stabilities of Stx1 and Stx2 could also account for the difference in potency, as a less stable toxin might more readily disassemble and deliver toxic components to the cell, or expose a new binding interface. In the present study, a comparative analysis of the solution-state assembly and stability of Stx1B, Stx2B, and B-subunit mutants revealed that Stx2B is approximately 50-fold less stable than Stx1B, and that a single amino acid (leucine 41 of Stx1B / glutamine 40 of Stx2B) mediates the difference in stability. Potency of the Stx1 N32S (receptor binding) and Stx1 L41Q (stability) mutants was assessed in mice. Neither single amino acid mutation in Stx1 affected potency in vivo; however, it is possible that potency is co-dependent upon both receptor binding and staibility, and future experiments will address this hypothesis.

Published

2010