Evidence of Trypanosoma cruzi II infection in Colombian chagasic patients

Antibodies are important tools for experimental research and medical applications. Most antibodies are composed of two heavy and two light chains. Both chains contribute to the antigen-binding site which is usually Xat or concave. In addition to these conventional antibodies, llamas, other camelids, and sharks also produce antibodies composed only of heavy chains. The antigen-binding site of these unusual heavy chain antibodies (hcAbs) is formed only by a single domain, designated VHH in camelid hcAbs and VNAR in shark hcAbs. VHH and VNAR are easily produced as recombinant proteins, designated single domain antibodies (sdAbs) or nanobodies. The CDR3 region of these sdAbs possesses the extraordinary capacity to form long Wngerlike extensions that can extend into cavities on antigens, e.g., the active site crevice of enzymes. Other advantageous features of nanobodies include their small size, high solubility, thermal stability, refolding capacity, and good tissue penetration in vivo. Here we review the results of several recent proofof-principle studies that open the exciting perspective of using sdAbs for modulating immune functions and for targeting toxins and microbes.

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Blue-Light-Activated Histidine Kinases: Two-Component Sensors in Bacteria

Swartz

Tseng

Frederickson

et al. 2007

Science

228

270

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Histidine kinases, used for environmental sensing by bacterial two-component systems, are involved in regulation of bacterial gene expression, chemotaxis, phototaxis, and virulence. Flavin-containing domains function as light-sensory modules in plant and algal phototropins and in fungal blue-light receptors. We have discovered that the prokaryotes Brucella melitensis, Brucella abortus, Erythrobacter litoralis, and Pseudomonas syringae contain light-activated histidine kinases that bind a flavin chromophore and undergo photochemistry indicative of cysteinyl-flavin adduct formation. Infection of macrophages by B. abortus was stimulated by light in the wild type but was limited in photochemically inactive and null mutants, indicating that the flavin-containing histidine kinase functions as a photoreceptor regulating B. abortus virulence.

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Structure of the Full-Length Bacteriophytochrome from the Plant Pathogen Xanthomonas campestris Provides Clues to its Long-Range Signaling Mechanism

Otero

Klinke

Rinaldi

et al. 2016

Journal of Molecular Biology

142

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Extensive Identification of Bacterial Riboflavin Transporters and Their Distribution across Bacterial Species

et al. 2015

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Riboflavin, the precursor for the cofactors flavin mononucleotide (FMN) and flavin adenine dinucleotide, is an essential metabolite in all organisms. While the functions for de novo riboflavin biosynthesis and riboflavin import may coexist in bacteria, the extent of this co-occurrence is undetermined. The RibM, RibN, RfuABCD and the energy-coupling factor-RibU bacterial riboflavin transporters have been experimentally characterized. In addition, ImpX, RfnT and RibXY are proposed as riboflavin transporters based on positional clustering with riboflavin biosynthetic pathway (RBP) genes or conservation of the FMN riboswitch regulatory element. Here, we searched for the FMN riboswitch in bacterial genomes to identify genes encoding riboflavin transporters and assessed their distribution among bacteria. Two new putative riboflavin transporters were identified: RibZ in Clostridium and RibV in Mesoplasma florum. Trans-complementation of an Escherichia coli riboflavin auxotroph strain confirmed the riboflavin transport activity of RibZ from Clostridium difficile, RibXY from Chloroflexus aurantiacus, ImpX from Fusobacterium nucleatum and RfnT from Ochrobactrum anthropi. The analysis of the genomic distribution of all known bacterial riboflavin transporters revealed that most occur in species possessing the RBP and that some bacteria may even encode functional riboflavin transporters from two different families. Our results indicate that some species possess ancestral riboflavin transporters, while others possess transporters that appear to have evolved recently. Moreover, our data suggest that unidentified riboflavin transporters also exist. The present study doubles the number of experimentally characterized riboflavin transporters and suggests a specific, non-accessory role for these proteins in riboflavin-prototrophic bacteria.

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Molecular basis of antigen mimicry by an anti-idiotope

Fields

Goldbaum

Ysern

et al. 1995

Nature

168

105

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Idiotopes are antigenic determinants, unique to an antibody or group of antibodies, defined by the reaction of anti-idiotopic antibodies with the antibodies bearing the idiotopes. The ensemble of idiotopes of an antibody constitutes its idiotype. Idiotypes are useful as markers to follow specific antibodies and clones of cells in immune responses and the inheritance of immunoglobulin genes. As external antigens and anti-idiotypic antibodies can competitively bind the combining site of specific antibodies, some anti-idiotypic antibodies may resemble the external antigen, thus mimicking its structure. It has been proposed that an anti-idiotypic antibody, anti-anti-X, may resemble the external antigen X and thus carry its 'internal image', but this idea is not unequivocally supported by the three-dimensional structures of anti-idiotopic antibodies, either because the structures of the external antigen or of the anti-idiotopic antibody were unknown, or because the anti-idiotopic antibodies showed no resemblance to the external antigens (reviewed in ref. 10). Functional mimicry of ligands of biological receptors by anti-idiotypic antibodies has been described in several systems (reviewed in ref. 11). But how closely can antibodies mimic antigens at the molecular level? Here we present the crystal structure of an idiotope-anti-idiotope complex between the Fv fragments of the anti-lysozyme antibody D1.3 and the anti-D1.3 antibody E5.2. D1.3 contacts the antigen, lysozyme and the anti-idiotopic E5.2 through essentially the same combining-site residues. In addition, E5.2 interacts with D1.3, making contacts similar to those between lysozyme and D1.3. Thus, the anti-idiotopic antibody E5.2 mimics lysozyme in its binding interactions with D1.3. Validating these observations, E5.2, used as an immunogen, induces an anti-lysozyme response.

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X-ray crystal structure of an anti-Buckminsterfullerene antibody Fab fragment: Biomolecular recognition of C ₆₀

Braden

Goldbaum

Chen

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

127

102

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We have prepared a monoclonal Buckminsterfullerene specific antibody and report the sequences of its light and heavy chains. We also show, by x-ray crystallographic analysis of the Fab fragment and by model building, that the fullerene binding site is formed by the interface of the antibody light and heavy chains. Shape-complementary clustering of hydrophobic amino acids, several of which participate in putative stacking interactions with fullerene, form the binding site. Moreover, an induced fit mechanism appears to participate in the fullerene binding process. Affinity of the antibody-fullerene complex is 22 nM as measured by competitive binding. These findings should be applicable not only to the use of antibodies to assay and direct potential fullerene-based drug design but could also lead to new methodologies for the production of fullerene derivatives and nanotubes as well.

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Single domain antibodies from llama effectively and specifically block T cell ecto‐ADP‐ribosyltransferase ART2.2in vivo

Koch-Nolte¹,

Reyelt²,

Schößow³

et al. 2007

FASEB j.

100

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The purpose of our study was to develop a tool for blocking the function of a specific leukocyte ecto-enzyme in vivo. ART2.2 is a toxin-related ecto-enzyme that transfers the ADP-ribose moiety from NAD onto other cell surface proteins. ART2.2 induces T cell death by activating the cytolytic P2x7 purinoceptor via ADP-ribosylation. Here, we report the generation of ART2.2-blocking single domain antibodies from an immunized llama. The variable domain of heavy-chain antibodies (VHH domain) represents the smallest known antigen-binding unit generated by adaptive immune responses. Their long CDR3 endows VHH domains with the extraordinary capacity to extend into and block molecular clefts. Following intravenous injection, the ART2.2-specific VHH domains effectively shut off the enzymatic and cytotoxic activities of ART2.2 in lymphatic organs. This blockade was highly specific (blocking ART2.2 but not the related enzymes ART1 or ART2.1), rapid (within 15 min after injection), and reversible (24 h after injection). Our findings constitute a proof of principle that opens up a new avenue for targeting leukocyte ecto-enzymes in vivo and that can serve as a model also for developing new antidotes against ADP-ribosylating toxins.

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High Order Quaternary Arrangement Confers Increased Structural Stability to Brucella sp. Lumazine Synthase

Zylberman

Craig

Klinke

et al. 2004

Journal of Biological Chemistry

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The penultimate step in the pathway of riboflavin biosynthesis is catalyzed by the enzyme lumazine synthase (LS). One of the most distinctive characteristics of this enzyme is the structural quaternary divergence found in different species. The protein exists as pentameric and icosahedral forms, built from practically the same structural monomeric unit. The pentameric structure is formed by five 18-kDa monomers, each extensively contacting neighboring monomers. The icosahedrical structure consists of 60 LS monomers arranged as 12 pentamers giving rise to a capsid exhibiting icosahedral 532 symmetry. In all lumazine synthases studied, the topologically equivalent active sites are located at the interfaces between adjacent subunits in the pentameric modules. The Brucella sp. lumazine synthase (BLS) sequence clearly diverges from pentameric and icosahedric enzymes. This unusual divergence prompted us to further investigate its quaternary arrangement. In the present work, we demonstrate by means of solution light scattering and x-ray structural analyses that BLS assembles as a very stable dimer of pentamers, representing a third category of quaternary assembly for lumazine synthases. We also describe by spectroscopic studies the thermodynamic stability of this oligomeric protein and postulate a mechanism for dissociation/unfolding of this macromolecular assembly. The higher molecular order of BLS increases its stability 20°C compared with pentameric lumazine synthases. The decameric arrangement described in this work highlights the importance of quaternary interactions in the stabilization of proteins.Riboflavin, an essential cofactor for all organisms, is biosynthesized in plants, fungi, and microorganisms. The penultimate step in the pathway is catalyzed by the enzyme lumazine synthase (LS).1 One of the most distinctive characteristics of this enzyme is the structural quaternary divergence found in different species. The protein exists as pentameric and icosahedral forms, built from practically the same structural monomeric unit. The structure of the monomer consists of four repeated ␤-strand/␣-helix motifs producing a sandwich of four parallel ␤-strands surrounded by four ␣-helices, two on each face of the ␤ sheet (1). In all LS studied, the topologically equivalent active sites are located at the interfaces between adjacent subunits in the pentameric modules (2).Bacilliaceae express a bifunctional enzyme complex with lumazine synthase and riboflavin synthase activity. Three ␣-subunits (riboflavin synthase) enclosed by 60 ␤-subunits (lumazine synthase) form a protein particle of ϳ1 MDa (1, 3). The three-dimensional structure of the lumazine synthase/riboflavin synthase from Bacillus subtilis complexed with a substrate analogue has been determined (4). This structure consists of 60 ␤-subunits (lumazine synthase monomers) arranged as 12 pentamers giving rise to a capsid exhibiting icosahedral 532 symmetry. Two other icosahedric LS have been described by x-ray crystallography. Spinach and thermophilic bacterial Aqui...

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Fernando A. Goldbaum

Single domain antibodies: promising experimental and therapeutic tools in infection and immunity

Blue-Light-Activated Histidine Kinases: Two-Component Sensors in Bacteria

Structure of the Full-Length Bacteriophytochrome from the Plant Pathogen Xanthomonas campestris Provides Clues to its Long-Range Signaling Mechanism

Extensive Identification of Bacterial Riboflavin Transporters and Their Distribution across Bacterial Species

Molecular basis of antigen mimicry by an anti-idiotope

X-ray crystal structure of an anti-Buckminsterfullerene antibody Fab fragment: Biomolecular recognition of C ₆₀

Single domain antibodies from llama effectively and specifically block T cell ecto‐ADP‐ribosyltransferase ART2.2in vivo

High Order Quaternary Arrangement Confers Increased Structural Stability to Brucella sp. Lumazine Synthase

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Fernando A. Goldbaum

Single domain antibodies: promising experimental and therapeutic tools in infection and immunity

Blue-Light-Activated Histidine Kinases: Two-Component Sensors in Bacteria

Structure of the Full-Length Bacteriophytochrome from the Plant Pathogen Xanthomonas campestris Provides Clues to its Long-Range Signaling Mechanism

Extensive Identification of Bacterial Riboflavin Transporters and Their Distribution across Bacterial Species

Molecular basis of antigen mimicry by an anti-idiotope

X-ray crystal structure of an anti-Buckminsterfullerene antibody Fab fragment: Biomolecular recognition of C 60

Single domain antibodies from llama effectively and specifically block T cell ecto‐ADP‐ribosyltransferase ART2.2in vivo

High Order Quaternary Arrangement Confers Increased Structural Stability to Brucella sp. Lumazine Synthase

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Product

Resources

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X-ray crystal structure of an anti-Buckminsterfullerene antibody Fab fragment: Biomolecular recognition of C ₆₀