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1.
Nat Chem Biol ; 2024 Jul 01.
Artigo em Inglês | MEDLINE | ID: mdl-38951648

RESUMO

Capsules are long-chain carbohydrate polymers that envelop the surfaces of many bacteria, protecting them from host immune responses. Capsule biosynthesis enzymes are potential drug targets and valuable biotechnological tools for generating vaccine antigens. Despite their importance, it remains unknown how structurally variable capsule polymers of Gram-negative pathogens are linked to the conserved glycolipid anchoring these virulence factors to the bacterial membrane. Using Actinobacillus pleuropneumoniae as an example, we demonstrate that CpsA and CpsC generate a poly(glycerol-3-phosphate) linker to connect the glycolipid with capsules containing poly(galactosylglycerol-phosphate) backbones. We reconstruct the entire capsule biosynthesis pathway in A. pleuropneumoniae serotypes 3 and 7, solve the X-ray crystal structure of the capsule polymerase CpsD, identify its tetratricopeptide repeat domain as essential for elongating poly(glycerol-3-phosphate) and show that CpsA and CpsC stimulate CpsD to produce longer polymers. We identify the CpsA and CpsC product as a wall teichoic acid homolog, demonstrating similarity between the biosynthesis of Gram-positive wall teichoic acid and Gram-negative capsules.

2.
Nat Chem Biol ; 19(7): 865-877, 2023 07.
Artigo em Inglês | MEDLINE | ID: mdl-37277468

RESUMO

Bacterial capsules have critical roles in host-pathogen interactions. They provide a protective envelope against host recognition, leading to immune evasion and bacterial survival. Here we define the capsule biosynthesis pathway of Haemophilus influenzae serotype b (Hib), a Gram-negative bacterium that causes severe infections in infants and children. Reconstitution of this pathway enabled the fermentation-free production of Hib vaccine antigens starting from widely available precursors and detailed characterization of the enzymatic machinery. The X-ray crystal structure of the capsule polymerase Bcs3 reveals a multi-enzyme machine adopting a basket-like shape that creates a protected environment for the synthesis of the complex Hib polymer. This architecture is commonly exploited for surface glycan synthesis by both Gram-negative and Gram-positive pathogens. Supported by biochemical studies and comprehensive 2D nuclear magnetic resonance, our data explain how the ribofuranosyltransferase CriT, the phosphatase CrpP, the ribitol-phosphate transferase CroT and a polymer-binding domain function as a unique multi-enzyme assembly.


Assuntos
Infecções por Haemophilus , Vacinas Anti-Haemophilus , Haemophilus influenzae tipo b , Lactente , Criança , Humanos , Infecções por Haemophilus/microbiologia , Infecções por Haemophilus/prevenção & controle , Vacinas Anti-Haemophilus/metabolismo , Cápsulas Bacterianas/metabolismo , Bactérias Gram-Negativas
3.
mBio ; 12(3): e0089721, 2021 06 29.
Artigo em Inglês | MEDLINE | ID: mdl-34076489

RESUMO

Capsule polymers are crucial virulence factors of pathogenic bacteria and are used as antigens in glycoconjugate vaccine formulations. Some Gram-negative pathogens express poly(glycosylglycerol phosphate) capsule polymers that resemble Gram-positive wall teichoic acids and are synthesized by TagF-like capsule polymerases. So far, the biotechnological use of these enzymes for vaccine developmental studies was restricted by the unavailability of enantiopure CDP-glycerol, one of the donor substrates required for polymer assembly. Here, we use CTP:glycerol-phosphate cytidylyltransferases (GCTs) and TagF-like polymerases to synthesize the poly(glycosylglycerol phosphate) capsule polymer backbones of the porcine pathogen Actinobacillus pleuropneumoniae, serotypes 3 and 7 (App3 and App7). GCT activity was confirmed by high-performance liquid chromatography, and polymers were analyzed using comprehensive nuclear magnetic resonance studies. Solid-phase synthesis protocols were established to allow potential scale-up of polymer production. In addition, one-pot reactions exploiting glycerol-kinase allowed us to start the reaction from inexpensive, widely available substrates. Finally, this study highlights that multidomain TagF-like polymerases can be transformed by mutagenesis of active site residues into single-action transferases, which in turn can act in trans to build-up structurally new polymers. Overall, our protocols provide enantiopure, nature-identical capsule polymer backbones from App2, App3, App7, App9, and App11, Neisseria meningitidis serogroup H, and Bibersteinia trehalosi serotypes T3 and T15. IMPORTANCE Economic synthesis platforms for the production of animal vaccines could help reduce the overuse and misuse of antibiotics in animal husbandry, which contributes greatly to the increase of antibiotic resistance. Here, we describe a highly versatile, easy-to-use mix-and-match toolbox for the generation of glycerol-phosphate-containing capsule polymers that can serve as antigens in glycoconjugate vaccines against Actinobacillus pleuropneumoniae and Bibersteinia trehalosi, two pathogens causing considerable economic loss in the swine, sheep, and cattle industries. We have established scalable protocols for the exploitation of a versatile enzymatic cascade with modular architecture, starting with the preparative-scale production of enantiopure CDP-glycerol, a precursor for a multitude of bacterial surface structures. Thereby, our approach not only allows the synthesis of capsule polymers but might also be exploitable for the (chemo)enzymatic synthesis of other glycerol-phosphate-containing structures such as Gram-positive wall teichoic acids or lipoteichoic acids.


Assuntos
Actinobacillus pleuropneumoniae/química , Cápsulas Bacterianas/química , Glicerofosfatos/biossíntese , Neisseria meningitidis/química , Pasteurellaceae/química , Polímeros/química , Actinobacillus pleuropneumoniae/patogenicidade , Animais , Vacinas Bacterianas/química , Bovinos , Glicerofosfatos/análise , Glicerofosfatos/metabolismo , Ovinos , Suínos
4.
Methods Mol Biol ; 2183: 313-330, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-32959251

RESUMO

The exploitation of recombinant enzymes for the synthesis of complex carbohydrates is getting increasing attention. Unfortunately, the analysis of the resulting products often requires advanced methods like nuclear magnetic resonance spectroscopy and mass spectrometry. Here, we use the capsule polymerases Cps4B and Cps11D from Actinobacillus pleuropneumoniae serotypes 4 and 11, respectively, as examples for the in vitro synthesis of capsule polymers similar to those used in glycoconjugate vaccine formulations. We demonstrate how substrate turnover in an enzymatic reaction can be analyzed by HPLC-based anion exchange chromatography and provide the protocol for separation and detection of UV-active polymer. Moreover, we describe how UV-inactive polymer can be separated and visualized using polyacrylamide gel electrophoresis followed by combined alcian blue-silver staining.


Assuntos
Antígenos de Bactérias/química , Cápsulas Bacterianas/enzimologia , Glicoconjugados/síntese química , Polissacarídeos/síntese química , Vacinas Conjugadas/química , Antígenos de Bactérias/imunologia , Antígenos de Bactérias/isolamento & purificação , Cromatografia Líquida de Alta Pressão , Eletroforese em Gel de Poliacrilamida , Ativação Enzimática , Glicoconjugados/imunologia , Glicoconjugados/isolamento & purificação , Polímeros/síntese química , Polissacarídeos/imunologia , Polissacarídeos/isolamento & purificação , Vacinas Conjugadas/imunologia , Vacinas Conjugadas/isolamento & purificação
6.
J Biol Chem ; 295(17): 5771-5784, 2020 04 24.
Artigo em Inglês | MEDLINE | ID: mdl-32152227

RESUMO

Actinobacillus pleuropneumoniae (App) is the etiological agent of acute porcine pneumonia and responsible for severe economic losses worldwide. The capsule polymer of App serotype 1 (App1) consists of [4)-GlcNAc-ß(1,6)-Gal-α-1-(PO4-] repeating units that are O-acetylated at O-6 of the GlcNAc. It is a major virulence factor and was used in previous studies in the successful generation of an experimental glycoconjugate vaccine. However, the application of glycoconjugate vaccines in the animal health sector is limited, presumably because of the high costs associated with harvesting the polymer from pathogen culture. Consequently, here we exploited the capsule polymerase Cps1B of App1 as an in vitro synthesis tool and an alternative for capsule polymer provision. Cps1B consists of two catalytic domains, as well as a domain rich in tetratricopeptide repeats (TPRs). We compared the elongation mechanism of Cps1B with that of a ΔTPR truncation (Cps1B-ΔTPR). Interestingly, the product profiles displayed by Cps1B suggested processive elongation of the nascent polymer, whereas Cps1B-ΔTPR appeared to work in a more distributive manner. The dispersity of the synthesized products could be reduced by generating single-action transferases and immobilizing them on individual columns, separating the two catalytic activities. Furthermore, we identified the O-acetyltransferase Cps1D of App1 and used it to modify the polymers produced by Cps1B. Two-dimensional NMR analyses of the products revealed O-acetylation levels identical to those of polymer harvested from App1 culture supernatants. In conclusion, we have established a protocol for the pathogen-free in vitro synthesis of tailored, nature-identical App1 capsule polymers.


Assuntos
Infecções por Actinobacillus/microbiologia , Actinobacillus pleuropneumoniae/química , Actinobacillus pleuropneumoniae/enzimologia , Cápsulas Bacterianas/química , Oligossacarídeos/química , Actinobacillus pleuropneumoniae/metabolismo , Cápsulas Bacterianas/enzimologia , Cápsulas Bacterianas/metabolismo , Proteínas de Bactérias/química , Proteínas de Bactérias/metabolismo , Técnicas de Química Sintética , Enzimas Imobilizadas/química , Enzimas Imobilizadas/metabolismo , Humanos , Oligossacarídeos/síntese química , Oligossacarídeos/metabolismo
7.
mBio ; 9(3)2018 05 29.
Artigo em Inglês | MEDLINE | ID: mdl-29844111

RESUMO

Group 2 capsule polymers represent crucial virulence factors of Gram-negative pathogenic bacteria. They are synthesized by enzymes called capsule polymerases. In this report, we describe a new family of polymerases that combine glycosyltransferase and hexose- and polyol-phosphate transferase activity to generate complex poly(oligosaccharide phosphate) and poly(glycosylpolyol phosphate) polymers, the latter of which display similarity to wall teichoic acid (WTA), a cell wall component of Gram-positive bacteria. Using modeling and multiple-sequence alignment, we showed homology between the predicted polymerase domains and WTA type I biosynthesis enzymes, creating a link between Gram-negative and Gram-positive cell wall biosynthesis processes. The polymerases of the new family are highly abundant and found in a variety of capsule-expressing pathogens such as Neisseria meningitidis, Actinobacillus pleuropneumoniae, Haemophilus influenzae, Bibersteinia trehalosi, and Escherichia coli with both human and animal hosts. Five representative candidates were purified, their activities were confirmed using nuclear magnetic resonance (NMR) spectroscopy, and their predicted folds were validated by site-directed mutagenesis.IMPORTANCE Bacterial capsules play an important role in the interaction between a pathogen and the immune system of its host. During the last decade, capsule polymerases have become attractive tools for the production of capsule polymers applied as antigens in glycoconjugate vaccine formulations. Conventional production of glycoconjugate vaccines requires the cultivation of the pathogen and thus the highest biosafety standards, leading to tremendous costs. With regard to animal husbandry, where vaccines could avoid the extensive use of antibiotics, conventional production is not sufficiently cost-effective. In contrast, enzymatic synthesis of capsule polymers is pathogen-free and fast, offers high stereo- and regioselectivity, and works with high efficacy. The new capsule polymerase family described here vastly increases the toolbox of enzymes available for biotechnology purposes. Representatives are abundantly found in human pathogens but also in animal pathogens, paving the way for the exploitation of polymerases for the development of a new generation of vaccines for animal husbandry.


Assuntos
Cápsulas Bacterianas/metabolismo , Proteínas de Bactérias/metabolismo , Glicosiltransferases/metabolismo , Bactérias Gram-Negativas/enzimologia , Família Multigênica , Fosfotransferases/metabolismo , Ácidos Teicoicos/metabolismo , Cápsulas Bacterianas/química , Proteínas de Bactérias/química , Proteínas de Bactérias/genética , Glicosiltransferases/química , Glicosiltransferases/genética , Bactérias Gram-Negativas/química , Bactérias Gram-Negativas/genética , Bactérias Gram-Negativas/metabolismo , Fosfotransferases/química , Fosfotransferases/genética , Polímeros/química , Polímeros/metabolismo , Ácidos Teicoicos/análise
8.
Stem Cells ; 34(11): 2635-2647, 2016 11.
Artigo em Inglês | MEDLINE | ID: mdl-27299363

RESUMO

As known from model organisms, such as frog, fish, mouse, and chicken, the anterior-posterior patterning of the definitive endoderm (DE) into distinct domains is controlled by a variety of signaling interactions between the DE and its surrounding mesoderm. This includes Wnt/FGFs and BMPs in the posterior half and all-trans-retinoic acid, TGF-ß-ligands, Wnt-, and BMP-inhibitors in the anterior half of the DE sheet. However, it is currently unclear how these embryonic tissue interactions can be translated into a defined differentiation protocol for human embryonic stem cells. Activin A has been proposed to direct DE into a SOX2-positive foregut-like cell type. Due to the pleiotropic nature of SOX2 in pluripotency and developing cells of the foregut, we purified DE-cells by magnetic cell sorting and tested the effects of anteriorizing and posteriorizing factors on pure endoderm. We show in contrast to previous studies that the generation of the foregut marked by SOX2/FOXA2 double-positive cells does not depend on activin A/TGF-ß-signaling but is mediated by the inhibition of Wnt- and BMP-signaling. Retinoic acid can posteriorize and at the same time dorsalize the foregut toward a PDX1-positive pancreatic duodenal cell type whereas active Wnt/beta-catenin signaling synergistically with FGF-2, BMP-4, and RA induces the formation of CDX2-positive posterior endoderm. Thus, these results provide new insights into the mechanisms behind cell specification of human DE derived from pluripotent stem cells. Stem Cells 2016;34:2635-2647.


Assuntos
Proteína Morfogenética Óssea 4/genética , Endoderma/metabolismo , Regulação da Expressão Gênica no Desenvolvimento , Células-Tronco Embrionárias Humanas/metabolismo , Proteína Wnt3/genética , Ativinas/genética , Ativinas/metabolismo , Ativinas/farmacologia , Padronização Corporal/genética , Proteína Morfogenética Óssea 4/metabolismo , Proteína Morfogenética Óssea 4/farmacologia , Diferenciação Celular , Linhagem Celular , Endoderma/citologia , Endoderma/efeitos dos fármacos , Fator 2 de Crescimento de Fibroblastos/genética , Fator 2 de Crescimento de Fibroblastos/metabolismo , Fator 2 de Crescimento de Fibroblastos/farmacologia , Fator 3-beta Nuclear de Hepatócito/genética , Fator 3-beta Nuclear de Hepatócito/metabolismo , Proteínas de Homeodomínio/genética , Proteínas de Homeodomínio/metabolismo , Células-Tronco Embrionárias Humanas/citologia , Células-Tronco Embrionárias Humanas/efeitos dos fármacos , Humanos , Separação Imunomagnética , Mesoderma/citologia , Mesoderma/efeitos dos fármacos , Mesoderma/metabolismo , Fatores de Transcrição SOXB1/genética , Fatores de Transcrição SOXB1/metabolismo , Transativadores/genética , Transativadores/metabolismo , Fator de Crescimento Transformador beta/genética , Fator de Crescimento Transformador beta/metabolismo , Fator de Crescimento Transformador beta/farmacologia , Tretinoína/farmacologia , Via de Sinalização Wnt , Proteína Wnt3/metabolismo , Proteína Wnt3/farmacologia , beta Catenina/genética , beta Catenina/metabolismo
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