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2. Non-canonical two-step biosynthesis of anti-oomycete indole alkaloids in Kickxellales

Author

Johannes Rassbach, Nathalie Hilsberg, Veit G. Haensch, Sebastian Dörner, Julia Gressler, Robin Sonnabend, Caroline Semm, Kerstin Voigt, Christian Hertweck, and Markus Gressler

Subjects
Early-diverging fungi, Secondary metabolite, Indole alkaloid, Linderina pennispora, CoA ligase, Transferase, Biotechnology, TP248.13-248.65
Abstract

Abstract Background Fungi are prolific producers of bioactive small molecules of pharmaceutical or agricultural interest. The secondary metabolism of higher fungi (Dikarya) has been well-investigated which led to > 39,000 described compounds. However, natural product researchers scarcely drew attention to early-diverging fungi (Mucoro- and Zoopagomycota) as they are considered to rarely produce secondary metabolites. Indeed, only 15 compounds have as yet been isolated from the entire phylum of the Zoopagomycota. Results Here, we showcase eight species of the order Kickxellales (phylum Zoopagomycota) as potent producers of the indole-3-acetic acid (IAA)-derived compounds lindolins A and B. The compounds are produced both under laboratory conditions and in the natural soil habitat suggesting a specialized ecological function. Indeed, lindolin A is a selective agent against plant-pathogenic oomycetes such as Phytophthora sp. Lindolin biosynthesis was reconstituted in vitro and relies on the activity of two enzymes of dissimilar evolutionary origin: Whilst the IAA–CoA ligase LinA has evolved from fungal 4-coumaryl-CoA synthetases, the subsequently acting IAA-CoA:anthranilate N-indole-3-acetyltransferase LinB is a unique enzyme across all kingdoms of life. Conclusions This is the first report on bioactive secondary metabolites in the subphylum Kickxellomycotina and the first evidence for a non-clustered, two-step biosynthetic route of secondary metabolites in early-diverging fungi. Thus, the generally accepted “gene cluster hypothesis” for natural products needs to be reconsidered for early diverging fungi.

Published
2023
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3. Moonlighting Arabidopsis molybdate transporter 2 family and GSH-complex formation facilitate molybdenum homeostasis

Author

Jan-Niklas Weber, Rieke Minner-Meinen, Maria Behnecke, Rebekka Biedendieck, Veit G. Hänsch, Thomas W. Hercher, Christian Hertweck, Lena van den Hout, Lars Knüppel, Simon Sivov, Jutta Schulze, Ralf-R. Mendel, Robert Hänsch, and David Kaufholdt

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Molybdenum (Mo) as essential micronutrient for plants, acts as active component of molybdenum cofactor (Moco). Core metabolic processes like nitrate assimilation or abscisic-acid biosynthesis rely on Moco-dependent enzymes. Although a family of molybdate transport proteins (MOT1) is known to date in Arabidopsis, molybdate homeostasis remained unclear. Here we report a second family of molybdate transporters (MOT2) playing key roles in molybdate distribution and usage. KO phenotype-analyses, cellular and organ-specific localization, and connection to Moco-biosynthesis enzymes via protein-protein interaction suggest involvement in cellular import of molybdate in leaves and reproductive organs. Furthermore, we detected a glutathione-molybdate complex, which reveals how vacuolar storage is maintained. A putative Golgi S-adenosyl-methionine transport function was reported recently for the MOT2-family. Here, we propose a moonlighting function, since clear evidence of molybdate transport was found in a yeast-system. Our characterization of the MOT2-family and the detection of a glutathione-molybdate complex unveil the plant-wide way of molybdate.

Published
2023
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6. Photosensitizers Enable the Formation of Biphenyls with UV‐LEDs and Sunlight.

Author

Haensch, Veit G. and Hertweck, Christian

Subjects
*PHOTOSENSITIZERS, *COUPLING reactions (Chemistry), *SUNSHINE, *METAL catalysts, *LIQUID crystals
Abstract

The regioselective synthesis of biphenyls, which are economically important pharmaceuticals, agrochemicals, and liquid crystals, is a challenging task. Current methods rely on metal‐dependent cross‐coupling reactions, which unfortunately require the use of harmful halogenated aryls and heavy metal catalysts that are toxic and difficult to remove from the final products. Recently, we have circumvented these problems by developing a metal‐free and broadly applicable photochemical method for biphenyl synthesis using UV−C light, called photosplicing. Here we present an improved method using photosensitizers in combination with UV−B, UV−A light, or sunlight. Using a high‐precision flow reactor with deep‐UV LEDs, we investigated the ability of commonly available organic photosensitizers to enhance the photosplicing reaction and identified a number of suitable photosensitizers with the required triplet energy. This method allows for easy batch synthesis of biaryls in borosilicate glassware and paves the way for their large‐scale production without the need for flow reactors. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Proinflammatory cytokine secretion is suppressed by TMEM16A or CFTR channel activity in human cystic fibrosis bronchial epithelia

Author

Verkman, Alan, Veit, G, Bossard, F, Goepp, J, Verkman, AS, Galietta, LJV, Hanrahan, JW, and Lukacs, GL

Abstract

Cystic fibrosis (CF) is caused by the functional expression defect of the CF transmembrane conductance regulator (CFTR) chloride channel at the apical plasma membrane. Impaired bacterial clearance and hyperactive innate immune response are hallmarks of the

Published
2012

9. Natural products from reconstructed bacterial genomes of the Middle and Upper Paleolithic.

Author

Klapper, Martin, Hübner, Alexander, Ibrahim, Anan, Wasmuth, Ina, Borry, Maxime, Haensch, Veit G., Shuaibing Zhang, Al-Jammal, Walid K., Suma, Harikumar, Yates, James A. Fellows, Frangenberg, Jasmin, Velsko, Irina M., Chowdhury, Somak, Herbst, Rosa, Bratovanov, Evgeni V., Dahse, Hans-Martin, Horch, Therese, Hertweck, Christian, González Morales, Manuel Ramon, and Guy Straus, Lawrence

Published
2023
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10. Ecological Niche-Inspired Genome Mining Leads to the Discovery of Crop-Protecting Nonribosomal Lipopeptides Featuring a Transient Amino Acid Building Block.

Author

Götze, Sebastian, Vij, Raghav, Burow, Katja, Thome, Nicola, Urbat, Lennart, Schlosser, Nicolas, Pflanze, Sebastian, Müller, Rita, Hänsch, Veit G., Schlabach, Kevin, Fazlikhani, Leila, Walther, Grit, Dahse, Hans-Martin, Regestein, Lars, Brunke, Sascha, Hube, Bernhard, Hertweck, Christian, Franken, Philipp, and Stallforth, Pierre

Published
2023
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11. A Photochemical Macrocyclization Route to Asymmetric Strained [3.2] Paracyclophanes.

Author

Haensch, Veit G., Görls, Helmar, and Hertweck, Christian

Subjects
*PARACYCLOPHANES, *ASYMMETRIC synthesis, *CHIRAL centers, *ESTERS, *ABSTRACTION reactions, *PHOSPHORESCENCE spectroscopy, *SOLAR cells
Abstract

The intricate frameworks of paracyclophanes are an important target for synthesis since they are found in various chiral auxiliaries, solar cells, high‐performance plastics, pharmaceuticals, and molecular machines. Whereas numerous methods exist for the preparation of symmetric paracyclophanes, protocols for the efficient synthesis of strained asymmetric scaffolds are limited. Here we report a remarkably simple photochemical route to strained [3.2]paracyclophanes starting from readily available educts. By way of NMR and X‐ray analyses, we discovered that UV‐irradiation of an aromatic carboxylic ester tethered to a toluene moiety leads to the intramolecular formation of a new C−C bond, with loss of an alcohol. A systematic evaluation of the reaction conditions and substituents, as well as radical starter and triplet quenching experiments, point to a reaction mechanism involving an excited triplet state and hydrogen atom transfer. The new method proved to be robust and versatile enabling the synthesis of a range of cyclophanes with different substitutions, including an unusual diastereoisomer with two planar chiral centers, and thus proved to be a valuable addition to the synthetic toolbox. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Alternative Benzoxazole Assembly Discovered in Anaerobic Bacteria Provides Access to Privileged Heterocyclic Scaffold.

Author

Horch, Therese, Molloy, Evelyn M., Bredy, Florian, Haensch, Veit G., Scherlach, Kirstin, Dunbar, Kyle L., Franke, Jonathan, and Hertweck, Christian

Subjects
ANAEROBIC bacteria, BENZOXAZOLE, CHEMICAL synthesis, GENOME editing, GENE clusters, ANAEROBIC microorganisms, CLOSTRIDIUM acetobutylicum
Abstract

Benzoxazole scaffolds feature prominently in diverse synthetic and natural product‐derived pharmaceuticals. Our understanding of their bacterial biosynthesis is, however, limited to ortho‐substituted heterocycles from actinomycetes. We report an overlooked biosynthetic pathway in anaerobic bacteria (typified in Clostridium cavendishii) that expands the benzoxazole chemical space to meta‐substituted heterocycles and heralds a distribution beyond Actinobacteria. The first benzoxazoles from the anaerobic realm (closoxazole A and B) were elucidated by NMR and chemical synthesis. By genome editing in the native producer, heterologous expression in Escherichia coli, and systematic pathway dissection we show that closoxazole biosynthesis invokes an unprecedented precursor usage (3‐amino‐4‐hydroxybenzoate) and manner of assembly. Synthetic utility was demonstrated by the precursor‐directed biosynthesis of a tafamidis analogue. A bioinformatic survey reveals the pervasiveness of related gene clusters in diverse bacterial phyla. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Enzyme‐Primed Native Chemical Ligation Produces Autoinducing Cyclopeptides in Clostridia.

Author

Molloy, Evelyn M., Dell, Maria, Hänsch, Veit G., Dunbar, Kyle L., Feldmann, Romy, Oberheide, Ansgar, Seyfarth, Lydia, Kumpfmüller, Jana, Horch, Therese, Arndt, Hans‐Dieter, and Hertweck, Christian

Subjects
CYCLIC peptides, CLOSTRIDIA, QUORUM sensing, CHEMICAL synthesis, PEPTIDES, INTRAMOLECULAR forces
Abstract

Clostridia coordinate many important processes such as toxin production, infection, and survival by density‐dependent communication (quorum sensing) using autoinducing peptides (AIPs). Although clostridial AIPs have been proposed to be (thio)lactone‐containing peptides, their true structures remain elusive. Here, we report the genome‐guided discovery of an AIP that controls endospore formation in Ruminiclostridium cellulolyticum. Through a combination of chemical synthesis and chemical complementation assays with a mutant strain, we reveal that the genuine chemical mediator is a homodetic cyclopeptide (cAIP). Kinetic analyses indicate that the mature cAIP is produced via a cryptic thiolactone intermediate that undergoes a rapid S→N acyl shift, in a manner similar to intramolecular native chemical ligation (NCL). Finally, by implementing a chemical probe in a targeted screen, we show that this novel enzyme‐primed, intramolecular NCL is a widespread feature of clostridial AIP biosynthesis. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Metal‐Free Aryl Cross‐Coupling Directed by Traceless Linkers.

Author

Haensch, Veit G., Neuwirth, Toni, Steinmetzer, Johannes, Kloss, Florian, Beckert, Rainer, Gräfe, Stefanie, Kupfer, Stephan, and Hertweck, Christian

Subjects
*EXCITED states, *ORGANIC synthesis, *METALS
Abstract

The metal‐free, highly selective synthesis of biaryls poses a major challenge in organic synthesis. The scope and mechanism of a promising new approach to (hetero)biaryls by the photochemical fusion of aryl substituents tethered to a traceless sulfonamide linker (photosplicing) are reported. Interrogating photosplicing with varying reaction conditions and comparison of diverse synthetic probes (40 examples, including a suite of heterocycles) showed that the reaction has a surprisingly broad scope and involves neither metals nor radicals. Quantum chemical calculations revealed that the C−C bond is formed by an intramolecular photochemical process that involves an excited singlet state and traversal of a five‐membered transition state, and thus consistent ipso–ipso coupling results. These results demonstrate that photosplicing is a unique aryl cross‐coupling method in the excited state that can be applied to synthesize a broad range of biaryls. [ABSTRACT FROM AUTHOR]

Published
2019
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23. Metal‐Free Synthesis of Pharmaceutically Important Biaryls by Photosplicing.

Author

Kloss, Florian, Neuwirth, Toni, Haensch, Veit G., and Hertweck, Christian

Subjects
CATALYSTS, MOLECULAR structure, HETEROCYCLIC compounds, COUPLING reactions (Chemistry), X-ray diffraction
Abstract

Many pharmaceuticals feature biaryl motifs that are crucial for their binding to the target. Yet, benchmark methods for selective cross‐couplings rely on highly toxic heavy metal catalysts, which are unfavorable in the synthesis of pharmaceuticals. Metal‐free coupling reactions, on the other hand, may require harsh conditions and lack selectivity. We report a novel, metal‐free cross‐coupling reaction that involves the tethering of two phenyl groups by a temporary, traceless sulfonamide linker that directs a photochemical aryl fusion into a single coupling product. The perfect regio‐ and chemoselectivity of the reaction could be rationalized by a cyclic intermediate, which fragments into the biaryl and volatile side products. Using a flow reactor, we synthesized numerous substituted biaryl building blocks for important therapeutics in high yields, such as antibiotics, antitumor, neuroprotective and cholesterol‐lowering agents as well as antiarthritic non‐steroidal antiinflammatory drugs (NSAIDs). The new method was successfully employed in a total synthesis of cannabinol, an important analgesic and antiemetic therapeutic. We also report a metal‐free synthesis of key building blocks used for the preparation of sartans, antihypertensive agents that rank among the top blockbuster drugs worldwide. This safe and convenient protocol is a valuable alternative for the widely used metal‐dependent aryl cross‐coupling methods. Light on biaryls: A novel metal‐free approach to biaryls is reported that involves the tethering and photochemical fusion of phenyl groups through sulfonamides. Using a flow reactor biaryl pharmacophores of numerous therapeutics, antibiotics, antitumor and neuroprotective agents, non‐steroidal antiinflammatory drugs, sartans, and cannabinol, were prepared in excellent yields. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Frontispiece: Metal‐Free Synthesis of Pharmaceutically Important Biaryls by Photosplicing.

Author

Kloss, Florian, Neuwirth, Toni, Haensch, Veit G., and Hertweck, Christian

Subjects
ARYL group, METALS
Abstract

Photochemistry In their Communication on page 14476 ff., C. Hertweck and co‐workers report on a metal‐free cross‐coupling reaction that involves the tethering of two phenyl groups by a temporary, traceless sulfonamide linker. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Synthesis and Biological Evaluation of Pyrazole-Pyrimidones as a New Class of Correctors of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR).

Author

Vaccarin C, Veit G, Hegedus T, Torres O, Chilin A, Lukacs GL, and Marzaro G

Subjects
Humans, Quantitative Structure-Activity Relationship, Molecular Docking Simulation, Benzodioxoles pharmacology, Benzodioxoles chemical synthesis, Benzodioxoles chemistry, Mutation, Aminopyridines pharmacology, Aminopyridines chemical synthesis, Aminopyridines chemistry, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Pyrazoles pharmacology, Pyrazoles chemical synthesis, Pyrazoles chemistry, Pyrimidinones pharmacology, Pyrimidinones chemical synthesis, Pyrimidinones chemistry, Cystic Fibrosis drug therapy, Cystic Fibrosis metabolism
Abstract

Cystic fibrosis (CF) is caused by the functional expression defect of the cystic fibrosis transmembrane conductance regulator (CFTR) protein. Despite the recent success in CFTR modulator development, the available correctors only partially restore the F508del-CFTR channel function, and several rare CF mutations show resistance to available drugs. We previously identified compound 4172 that synergistically rescued the F508del-CFTR folding defect in combination with the existing corrector drugs VX-809 and VX-661. Here, novel CFTR correctors were designed by applying a classical medicinal chemistry approach on the 4172 scaffold. Molecular docking and three-dimensional quantitative structure-activity relationship (3D-QSAR) studies were conducted to propose a plausible binding site and design more potent and effective analogs. We identified three optimized compounds, which, in combination with VX-809 and the investigational corrector 3151 , increased the plasma membrane density and function of F508del-CFTR and other rare CFTR mutants resistant to the currently approved therapies.

Published
2024
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28. Editorial: Advancing therapeutic strategies: exploring ABC transporters and chemicals affecting their expression and function for disease treatment.

Author

Veit G, Matsuo M, and Okiyoneda T

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Published
2024
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29. Readthrough-induced misincorporated amino acid ratios guide mutant-specific therapeutic approaches for two CFTR nonsense mutations.

Author

Premchandar A, Ming R, Baiad A, Da Fonte DF, Xu H, Faubert D, Veit G, and Lukacs GL

Abstract

Cystic fibrosis (CF) is a monogenic disease caused by mutations in the CF transmembrane conductance regulator ( CFTR ) gene. Premature termination codons (PTCs) represent ∼9% of CF mutations that typically cause severe expression defects of the CFTR anion channel. Despite the prevalence of PTCs as the underlying cause of genetic diseases, understanding the therapeutic susceptibilities of their molecular defects, both at the transcript and protein levels remains partially elucidated. Given that the molecular pathologies depend on the PTC positions in CF, multiple pharmacological interventions are required to suppress the accelerated nonsense-mediated mRNA decay (NMD), to correct the CFTR conformational defect caused by misincorporated amino acids, and to enhance the inefficient stop codon readthrough. The G418-induced readthrough outcome was previously investigated only in reporter models that mimic the impact of the local sequence context on PTC mutations in CFTR. To identify the misincorporated amino acids and their ratios for PTCs in the context of full-length CFTR readthrough, we developed an affinity purification (AP)-tandem mass spectrometry (AP-MS/MS) pipeline. We confirmed the incorporation of Cys, Arg, and Trp residues at the UGA stop codons of G542X, R1162X, and S1196X in CFTR. Notably, we observed that the Cys and Arg incorporation was favored over that of Trp into these CFTR PTCs, suggesting that the transcript sequence beyond the proximity of PTCs and/or other factors can impact the amino acid incorporation and full-length CFTR functional expression. Additionally, establishing the misincorporated amino acid ratios in the readthrough CFTR PTCs aided in maximizing the functional rescue efficiency of PTCs by optimizing CFTR modulator combinations. Collectively, our findings contribute to the understanding of molecular defects underlying various CFTR nonsense mutations and provide a foundation to refine mutation-dependent therapeutic strategies for various CF-causing nonsense mutations., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Premchandar, Ming, Baiad, Da Fonte, Xu, Faubert, Veit and Lukacs.)

Published
2024
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30. Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain-domain coupling.

Author

Soya N, Xu H, Roldan A, Yang Z, Ye H, Jiang F, Premchandar A, Veit G, Cole SPC, Kappes J, Hegedüs T, and Lukacs GL

Subjects
Humans, Protein Folding, Mutation, Endoplasmic Reticulum metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Cystic Fibrosis genetics
Abstract

The folding/misfolding and pharmacological rescue of multidomain ATP-binding cassette (ABC) C-subfamily transporters, essential for organismal health, remain incompletely understood. The ABCC transporters core consists of two nucleotide binding domains (NBD1,2) and transmembrane domains (TMD1,2). Using molecular dynamic simulations, biochemical and hydrogen deuterium exchange approaches, we show that the mutational uncoupling or stabilization of NBD1-TMD1/2 interfaces can compromise or facilitate the CFTR(ABCC7)-, MRP1(ABCC1)-, and ABCC6-transporters posttranslational coupled domain-folding in the endoplasmic reticulum. Allosteric or orthosteric binding of VX-809 and/or VX-445 folding correctors to TMD1/2 can rescue kinetically trapped CFTR posttranslational folding intermediates of cystic fibrosis (CF) mutants of NBD1 or TMD1 by global rewiring inter-domain allosteric-networks. We propose that dynamic allosteric domain-domain communications not only regulate ABCC-transporters function but are indispensable to tune the folding landscape of their posttranslational intermediates. These allosteric networks can be compromised by CF-mutations, and reinstated by correctors, offering a framework for mechanistic understanding of ABCC-transporters (mis)folding., (© 2023. Crown.)

Published
2023
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31. Blood taken immediately after fatal resuscitation attempts yields higher quality DNA for genetic studies as compared to autopsy samples.

Author

Stanasiuk C, Milting H, Homm S, Persson J, Holtz L, Wittmer A, Fox H, Laser T, Knöll R, Pohl GM, Paluszkiewicz L, Jakob T, Bachmann-Mennenga B, Henzler D, Grautoff S, Veit G, Klingel K, Hori E, Kellner U, Karger B, Schlepper S, Pfeiffer H, Gummert J, Gärtner A, and Tiesmeier J

Subjects
Humans, Autopsy, Death, Cardiopulmonary Resuscitation, Emergency Medical Services methods, Out-of-Hospital Cardiac Arrest
Abstract

Background: The out-of-hospital cardiac arrest (OHCA) in the young may be associated with a genetic predisposition which is relevant even for genetic counseling of relatives. The identification of genetic variants depends on the availability of intact genomic DNA. DNA from autopsy may be not available due to low autopsy frequencies or not suitable for high-throughput DNA sequencing (NGS). The emergency medical service (EMS) plays an important role to save biomaterial for subsequent molecular autopsy. It is not known whether the DNA integrity of samples collected by the EMS is better suited for NGS than autopsy specimens., Material and Methods: DNA integrity was analyzed by standardized protocols. Fourteen blood samples collected by the EMS and biomaterials from autopsy were compared. We collected 172 autopsy samples from different tissues and blood with postmortem intervals of 14-168 h. For comparison, DNA integrity derived from blood stored under experimental conditions was checked against autopsy blood after different time intervals., Results: DNA integrity and extraction yield were higher in EMS blood compared to any autopsy tissue. DNA stability in autopsy specimens was highly variable and had unpredictable quality. In contrast, collecting blood samples by the EMS is feasible and delivered comparably the highest DNA integrity., Conclusions: Isolation yield and DNA integrity from blood samples collected by the EMS is superior in comparison to autopsy specimens. DNA from blood samples collected by the EMS on scene is stable at room temperature or even for days at 4 °C. We conclude that the EMS personnel should always save a blood sample of young fatal OHCA cases died on scene to enable subsequent genetic analysis., (© 2023. The Author(s).)

Published
2023
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32. Alternative Benzoxazole Assembly Discovered in Anaerobic Bacteria Provides Access to Privileged Heterocyclic Scaffold.

Author

Horch T, Molloy EM, Bredy F, Haensch VG, Scherlach K, Dunbar KL, Franke J, and Hertweck C

Subjects
Bacteria metabolism, Benzoxazoles chemistry, Biosynthetic Pathways genetics, Escherichia coli metabolism, Multigene Family, Actinobacteria metabolism, Bacteria, Anaerobic genetics
Abstract

Benzoxazole scaffolds feature prominently in diverse synthetic and natural product-derived pharmaceuticals. Our understanding of their bacterial biosynthesis is, however, limited to ortho-substituted heterocycles from actinomycetes. We report an overlooked biosynthetic pathway in anaerobic bacteria (typified in Clostridium cavendishii) that expands the benzoxazole chemical space to meta-substituted heterocycles and heralds a distribution beyond Actinobacteria. The first benzoxazoles from the anaerobic realm (closoxazole A and B) were elucidated by NMR and chemical synthesis. By genome editing in the native producer, heterologous expression in Escherichia coli, and systematic pathway dissection we show that closoxazole biosynthesis invokes an unprecedented precursor usage (3-amino-4-hydroxybenzoate) and manner of assembly. Synthetic utility was demonstrated by the precursor-directed biosynthesis of a tafamidis analogue. A bioinformatic survey reveals the pervasiveness of related gene clusters in diverse bacterial phyla., (© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2022
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34. Profile of the single-use, multiple-pass protein A adsorber column in immunoadsorption.

Author

Schossee N, Veit G, Gittel J, Viebahn J, Niklaus M, Klingler P, Üçeyler N, Klinker E, Kobsar A, Boeck M, and Koessler J

Subjects
Autoantibodies, Humans, Immunoglobulin G, Receptors, Cholinergic, Myasthenia Gravis therapy, Staphylococcal Protein A
Abstract

Background and Objectives: Immunoadsorptions (IA) are used to remove autoantibodies from the plasma in autoimmune disorders. In this study, we evaluated the effects of a single-use, recombinant staphylococcal protein A-based immunoadsorber on blood composition of the patient., Materials and Methods: In a cohort of patients with myasthenia gravis or stiff-person syndrome, essential parameters of blood cell count, coagulation, clinical chemistry or plasma proteins and immunoglobulins (Ig) were measured before and after IA (n = 11)., Results: In average, IA reduced the levels of total IgG, IgG1, IgG2 and IgG4 by approximately 60%, the acetylcholine receptor autoantibody levels by more than 70%. IgG3, IgA or IgM were diminished to a lower extent. In contrast to fibrinogen or other coagulation factors, the column markedly removed vitamin K-dependent coagulation factors II, VII, IX and X by approximately 40%-70%. Accordingly, international normalized ratio and activated partial thromboplastin time were increased after IA by 59.1% and 32.7%, respectively. Coagulation tests almost returned to baseline values within 24 h. Blood cell count, electrolytes, total protein or albumin were not essentially affected. No clinical events occurred., Conclusion: The single-use, multiple-pass protein A adsorber column is highly efficient to remove IgG1, IgG2 and IgG4 or specific acetylcholine receptor autoantibodies from the plasma. Coagulation parameters should be monitored, since the column has the capacity to largely reduce vitamin K-dependent factors., (© 2021 The Authors. Vox Sanguinis published by John Wiley & Sons Ltd on behalf of International Society of Blood Transfusion.)

Published
2022
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35. The emergency medical service has a crucial role to unravel the genetics of sudden cardiac arrest in young, out of hospital resuscitated patients: Interim data from the MAP-IT study.

Author

Tiesmeier J, Gaertner A, Homm S, Jakob T, Stanasiuk C, Bachmann-Mennenga B, Henzler D, Grautoff S, Veit G, Hori E, Kellner U, Gummert JF, Hitz MP, Kostareva A, Klingel K, Paluszkiewicz L, Laser KT, Pfeiffer H, Fox H, and Milting H

Subjects
Death, Sudden, Cardiac epidemiology, Death, Sudden, Cardiac etiology, Death, Sudden, Cardiac prevention & control, Hospitals, Humans, Prospective Studies, Cardiopulmonary Resuscitation, Emergency Medical Services, Out-of-Hospital Cardiac Arrest genetics, Out-of-Hospital Cardiac Arrest therapy
Abstract

Background: Genetics of sudden cardiac deaths (SCD) remains frequently undetected. Genetic analysis is recommended in undefined selected cases in the 2021 ERC-guideline. The emergency medical service and physicians (EMS) may play a pivotal role for unraveling SCD by saving biomaterial for later molecular autopsy. Since for high-throughput DNA-sequencing (NGS) high quality genomic DNA is needed. We investigated in a prospective proof-of-concept study the role of the EMS for the identification of genetic forms of SCDs in the young., Methods: We included patients aged 1-50 years with need for cardiopulmonary resuscitation attempts (CPR). Cases with non-natural deaths were excluded. In two German counties with 562,904 residents 39,506 services were analysed. Paired end panel-sequencing was performed, and variants were classified according to guidelines of the American College of Medical Genetics (ACMG)., Results: 769 CPR-attempts were recorded (1.95% of all EMS-services; CPR-incidence 68/100,000). In 103 cases CPR were performed in patients < 50y. 58% died on scene, 26% were discharged from hospital. 24 subjects were included for genotyping. Of these 33% died on scene, 37.5% were discharged from hospital. 25% of the genotyped patients were carriers of (likely) pathogenic (ACMG-4/-5) variants. 67% carried variants with unknown significance (ACMG-3). 2 of them had familial history for arrhythmogenic cardiomyopathy or had to be re-classified as ACMG-4 carriers due to whole exome sequencing., Conclusion: The EMS contributes especially in fatal OHCA-cases to increase the yield of identified genetic conditions by collecting a blood sample on scene. Thus, the EMS can contribute significantly to primary and secondary prophylaxis in affected families., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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36. Elexacaftor co-potentiates the activity of F508del and gating mutants of CFTR.

Author

Veit G, Vaccarin C, and Lukacs GL

Subjects
Cells, Cultured, Genotype, Humans, Mutation, Nasal Mucosa cytology, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Pyrazoles pharmacology, Pyridines pharmacology, Pyrrolidines pharmacology
Abstract

Trikafta, the combination of elexacaftor (VX-445), tezacaftor (VX-661) and ivacaftor (VX-770), was approved for therapy of cystic fibrosis (CF) patients with at least one allele of the CFTR mutation F508del. While the corrector function of VX-445 is well established, here we investigated the putative potentiator activity of VX-445 alone and in combination with VX-770. Acute addition of VX-445 increased the VX-770-potentiated F508del- and G551D-CFTR current by ~24% and >70%, respectively, in human bronchial and nasal epithelia. Combinatorial profiling and cluster analysis of G551D- and G1244E-CFTR channel activation with potentiator pairs indicated a distinct VX-445 mechanism of action that is, at least, additive to previously identified potentiator classes, including the VX-770. Since VX-770 only partially normalizes the G551D-CFTR channel function and adult G551D patients still experience progressive loss of lung function, VX-445+VX-770 combination therapy could provide clinical benefit to CF patients with the G551D and other dual potentiator responsive mutants., Competing Interests: Declaration of Competing Interest The authors have no conflicts to disclose., (Copyright © 2021. Published by Elsevier B.V.)

Published
2021
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37. Discovery of CFTR modulators for the treatment of cystic fibrosis.

Author

Lopes-Pacheco M, Pedemonte N, and Veit G

Subjects
Cystic Fibrosis Transmembrane Conductance Regulator genetics, Humans, Mutation, Precision Medicine, Quality of Life, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics
Abstract

Introduction: Cystic fibrosis (CF) is a life-threatening inherited disease caused by mutations in the gene encoding the CF transmembrane conductance regulator (CFTR) protein, an anion channel expressed at the apical membrane of secretory epithelia. CF leads to multiorgan dysfunction with progressive deterioration of lung function being the major cause of untimely death. Conventional CF therapies target only symptoms and consequences downstream of the primary genetic defect and the current life expectancy and quality of life of these individuals are still very limited., Area Covered: CFTR modulator drugs are novel-specialized therapies that enhance or even restore functional expression of CFTR mutants and have been approved for clinical use for individuals with specific CF genotypes. This review summarizes classical approaches used for the pre-clinical development of CFTR correctors and potentiators as well as emerging strategies aiming to accelerate modulator development and expand theratyping efforts., Expert Opinion: Highly effective CFTR modulator drugs are expected to deeply modify the disease course for the majority of individuals with CF. A multitude of experimental approaches have been established to accelerate the development of novel modulators. CF patient-derived specimens are valuable cell models to predict therapeutic effectiveness of existing (and novel) modulators in a precision medicine approach.

Published
2021
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38. A Precision Medicine Approach to Optimize Modulator Therapy for Rare CFTR Folding Mutants.

Author

Veit G, Velkov T, Xu H, Vadeboncoeur N, Bilodeau L, Matouk E, and Lukacs GL

Abstract

Trikafta, a triple-combination drug, consisting of folding correctors VX-661 (tezacaftor), VX-445 (elexacaftor) and the gating potentiator VX-770 (ivacaftor) provided unprecedented clinical benefits for patients with the most common cystic fibrosis (CF) mutation, F508del. Trikafta indications were recently expanded to additional 177 mutations in the CF transmembrane conductance regulator (CFTR). To minimize life-long pharmacological and financial burden of drug administration, if possible, we determined the necessary and sufficient modulator combination that can achieve maximal benefit in preclinical setting for selected mutants. To this end, the biochemical and functional rescue of single corrector-responsive rare mutants were investigated in a bronchial epithelial cell line and patient-derived human primary nasal epithelia (HNE), respectively. The plasma membrane density of P67L-, L206W- or S549R-CFTR corrected by VX-661 or other type I correctors was moderately increased by VX-445. Short-circuit current measurements of HNE, however, uncovered that correction comparable to Trikafta was achieved for S549R-CFTR by VX-661 + VX-770 and for P67L- and L206W-CFTR by the VX-661 + VX-445 combination. Thus, introduction of a third modulator may not provide additional benefit for patients with a subset of rare CFTR missense mutations. These results also underscore that HNE, as a precision medicine model, enable the optimization of mutation-specific modulator combinations to maximize their efficacy and minimize life-long drug exposure of CF patients.

Published
2021
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39. Enzyme-Primed Native Chemical Ligation Produces Autoinducing Cyclopeptides in Clostridia.

Author

Molloy EM, Dell M, Hänsch VG, Dunbar KL, Feldmann R, Oberheide A, Seyfarth L, Kumpfmüller J, Horch T, Arndt HD, and Hertweck C

Subjects
Kinetics, Peptide Hydrolases chemistry, Peptides, Cyclic chemistry, Clostridium chemistry, Peptide Hydrolases metabolism, Peptides, Cyclic biosynthesis
Abstract

Clostridia coordinate many important processes such as toxin production, infection, and survival by density-dependent communication (quorum sensing) using autoinducing peptides (AIPs). Although clostridial AIPs have been proposed to be (thio)lactone-containing peptides, their true structures remain elusive. Here, we report the genome-guided discovery of an AIP that controls endospore formation in Ruminiclostridium cellulolyticum. Through a combination of chemical synthesis and chemical complementation assays with a mutant strain, we reveal that the genuine chemical mediator is a homodetic cyclopeptide (cAIP). Kinetic analyses indicate that the mature cAIP is produced via a cryptic thiolactone intermediate that undergoes a rapid S→N acyl shift, in a manner similar to intramolecular native chemical ligation (NCL). Finally, by implementing a chemical probe in a targeted screen, we show that this novel enzyme-primed, intramolecular NCL is a widespread feature of clostridial AIP biosynthesis., (© 2021 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2021
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40. Allosteric folding correction of F508del and rare CFTR mutants by elexacaftor-tezacaftor-ivacaftor (Trikafta) combination.

Author

Veit G, Roldan A, Hancock MA, Da Fonte DF, Xu H, Hussein M, Frenkiel S, Matouk E, Velkov T, and Lukacs GL

Subjects
Bronchi metabolism, Bronchi pathology, Cells, Cultured, Cystic Fibrosis genetics, Cystic Fibrosis pathology, Drug Combinations, Humans, Aminophenols pharmacology, Benzodioxoles pharmacology, Bronchi drug effects, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator chemistry, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Indoles pharmacology, Mutation, Protein Folding, Pyrazoles pharmacology, Pyridines pharmacology, Quinolines pharmacology
Abstract

Based on its clinical benefits, Trikafta - the combination of folding correctors VX-661 (tezacaftor), VX-445 (elexacaftor), and the gating potentiator VX-770 (ivacaftor) - was FDA approved for treatment of patients with cystic fibrosis (CF) carrying deletion of phenylalanine at position 508 (F508del) of the CF transmembrane conductance regulator (CFTR) on at least 1 allele. Neither the mechanism of action of VX-445 nor the susceptibility of rare CF folding mutants to Trikafta are known. Here, we show that, in human bronchial epithelial cells, VX-445 synergistically restores F508del-CFTR processing in combination with type I or II correctors that target the nucleotide binding domain 1 (NBD1) membrane spanning domains (MSDs) interface and NBD2, respectively, consistent with a type III corrector mechanism. This inference was supported by the VX-445 binding to and unfolding suppression of the isolated F508del-NBD1 of CFTR. The VX-661 plus VX-445 treatment restored F508del-CFTR chloride channel function in the presence of VX-770 to approximately 62% of WT CFTR in homozygous nasal epithelia. Substantial rescue of rare misprocessing mutations (S13F, R31C, G85E, E92K, V520F, M1101K, and N1303K), confined to MSD1, MSD2, NBD1, and NBD2 of CFTR, was also observed in airway epithelia, suggesting an allosteric correction mechanism and the possible application of Trikafta for patients with rare misfolding mutants of CFTR.

Published
2020
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41. An ultrasonic guided wave excitation method at constant phase velocity using ultrasonic phased array probes.

Author

Veit G and Bélanger P

Abstract

High-order ultrasonic guided wave modes have recently been attracting interest in a variety of nondestructive testing applications, ranging from thickness gauging to bond characterization. Accurate control of the transmitted ultrasonic guided wave mode is paramount when working at frequencies above the cutoff of the first high-order mode. The high number of modes available makes this range of frequency-thickness products difficult to exploit in practice. Many papers and textbooks have showed that multielement probes, such as comb transducers, are able to target a specific wavelength which depends on the elementary pitch. This method can be enhanced by adding an elementary delay law. However, this method of excitation has major drawbacks as the areas of excitation in a dispersion curves depends on the frequency and the technique is not unidirectional. This paper demonstrate that a conventional phased array transducer for which the elementary pitch is small relative to the targeted wavelength is able to excite high order guided wave modes at a constant phase velocity (independently of the frequency). The aim is to excite different regions of the dispersion curves by controlling the input signal bandwidth and the angle of the generated beam. The paper describes the theoretical background and details the differences between the various methods of excitation of ultrasonic guided waves, especially with the comb transducer method. Finite element simulations are presented to verify the analytical predictions and quantify the unidirectional and diffraction properties of the transmitted beam. Experiments conducted on an aluminum plate show striking agreement with finite element simulations, including the possibility of exciting a single mode in a narrow region at high frequency-thickness products. Experiments conducted on a CFRP plate demonstrates that the method can be adapted to other materials., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2020
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42. Mutation-specific dual potentiators maximize rescue of CFTR gating mutants.

Author

Veit G, Da Fonte DF, Avramescu RG, Premchandar A, Bagdany M, Xu H, Bensinger D, Stubba D, Schmidt B, Matouk E, and Lukacs GL

Subjects
Cells, Cultured, Chloride Channel Agonists classification, Chloride Channel Agonists pharmacology, Cluster Analysis, Drug Synergism, Drug Therapy, Combination methods, Humans, Ion Channel Gating genetics, Mutation, Missense, Precision Medicine methods, Aminophenols pharmacology, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Ion Transport drug effects, Ion Transport genetics, Nasal Mucosa drug effects, Nasal Mucosa metabolism, Nasal Mucosa pathology, Pyrans pharmacology, Pyrazoles pharmacology, Quinolones pharmacology
Abstract

Background: The potentiator ivacaftor (VX-770) has been approved for therapy of 38 cystic fibrosis (CF) mutations (∼10% of the patient population) associated with a gating defect of the CF transmembrane conductance regulator (CFTR). Despite the success of VX-770 treatment of patients carrying at least one allele of the most common gating mutation G551D-CFTR, some lung function decline and P. aeruginosa colonization persist. This study aims at identifying potentiator combinations that can considerably enhance the limited channel activity of a panel of CFTR gating mutants over monotherapy., Methods: The functional response of 13 CFTR mutants to single potentiators or systematic potentiator combinations was determined in the human bronchial epithelial cell line CFBE41o- and a subset of them was confirmed in primary human nasal epithelia (HNE)., Results: In six out of thirteen CFTR missense mutants the fractional plasma membrane (PM) activity, a surrogate measure of CFTR channel gating, reached only ∼10-50% of WT channel activity upon VX-770 treatment, indicating incomplete gating correction. Combinatorial potentiator profiling and cluster analysis of mutant responses to 24 diverse investigational potentiators identified several compound pairs that improved the gating activity of R352Q-, S549R-, S549N-, G551D-, and G1244E-CFTR to ∼70-120% of the WT. Similarly, the potentiator combinations were able to confer WT-like function to G551D-CFTR in patient-derived human nasal epithelia., Conclusion: This study suggests that half of CF patients with missense mutations approved for VX-770 administration, could benefit from the development of dual potentiator therapy., (Copyright © 2019 European Cystic Fibrosis Society. Published by Elsevier B.V. All rights reserved.)

Published
2020
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43. Molecular autopsy and family screening in a young case of sudden cardiac death reveals an unusually severe case of FHL1 related hypertrophic cardiomyopathy.

Author

Gaertner-Rommel A, Tiesmeier J, Jakob T, Strickmann B, Veit G, Bachmann-Mennenga B, Paluszkiewicz L, Klingel K, Schulz U, Laser KT, Karger B, Pfeiffer H, and Milting H

Subjects
Cardiomyopathy, Hypertrophic genetics, Cardiomyopathy, Hypertrophic pathology, Cardiomyopathy, Hypertrophic therapy, Cardiopulmonary Resuscitation, Genetic Testing, Heart Ventricles pathology, Humans, Male, Mutation, Pedigree, Severity of Illness Index, Young Adult, Cardiomyopathy, Hypertrophic diagnosis, Death, Sudden, Cardiac, Intracellular Signaling Peptides and Proteins genetics, LIM Domain Proteins genetics, Muscle Proteins genetics
Abstract

Background: Hypertrophic cardiomyopathy (HCM) is a genetic cardiomyopathy with a prevalence of about 1:200. It is characterized by left ventricular hypertrophy, diastolic dysfunction and interstitial fibrosis; HCM might lead to sudden cardiac death (SCD) especially in the young. Due to low autopsy frequencies of sudden unexplained deaths (SUD) the true prevalence of SCD and especially of HCM among SUD remains unclear. Even in cases of proven SCD genetic testing is not a routine procedure precluding appropriate risk stratification and counseling of relatives., Methods: Here we report a case of SCD in a 19-year-old investigated by combined forensic and molecular autopsy., Results: During autopsy of the index-patient HCM was detected. As no other possible cause of death could be uncovered by forensic autopsy the event was classified as SCD. Molecular autopsy identified two (probably) pathogenic genetic variants in FHL1 and MYBPC3. The MYBPC3 variant had an incomplete penetrance. The FHL1 variant was a de novo mutation. We detected reduced FHL1 mRNA levels and no FHL1 protein in muscle samples suggesting nonsense-mediated mRNA decay and/or degradation of the truncated protein in the SCD victim revealing a plausible disease mechanism., Conclusion: The identification of the genetic cause of the SCD contributed to the rational counseling of the relatives and risk assessment within the family. Furthermore our study revealed evidences for the pathomechanism of FHL1 mutations., (© 2019 Herz- & Diabeteszentrum NRW, Ruhr-Universitat Bochum. Molecular Genetics & Genomic Medicine published by Wiley Periodicals, Inc.)

Published
2019
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44. Bioactive Thymosin Alpha-1 Does Not Influence F508del-CFTR Maturation and Activity.

Author

Armirotti A, Tomati V, Matthes E, Veit G, Cholon DM, Phuan PW, Braccia C, Guidone D, Gentzsch M, Lukacs GL, Verkman AS, Galietta LJV, Hanrahan JW, and Pedemonte N

Subjects
Animals, Autophagy, Cells, Cultured, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Humans, MCF-7 Cells, Primary Cell Culture, Protein Transport drug effects, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Sequence Deletion, Thymalfasin pharmacology
Abstract

Deletion of phenylalanine 508 (F508del) in the cystic fibrosis transmembrane conductance regulator (CFTR) anion channel is the most frequent mutation causing cystic fibrosis (CF). F508del-CFTR is misfolded and prematurely degraded. Recently thymosin a-1 (Tα-1) was proposed as a single molecule-based therapy for CF, improving both F508del-CFTR maturation and function by restoring defective autophagy. However, three independent laboratories failed to reproduce these results. Lack of reproducibility has been ascribed by the authors of the original paper to the use of DMSO and to improper handling. Here, we address these potential issues by demonstrating that Tα-1 changes induced by DMSO are fully reversible and that Tα-1 peptides prepared from different stock solutions have equivalent biological activity. Considering the negative results here reported, six independent laboratories failed to demonstrate F508del-CFTR correction by Tα-1. This study also calls into question the autophagy modulator cysteamine, since no rescue of mutant CFTR function was detected following treatment with cysteamine, while deleterious effects were observed when bronchial epithelia were exposed to cysteamine plus the antioxidant food supplement EGCG. Although these studies do not exclude the possibility of beneficial immunomodulatory effects of thymosin α-1, they do not support its utility as a corrector of F508del-CFTR.

Published
2019
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45. Transcytosis maintains CFTR apical polarity in the face of constitutive and mutation-induced basolateral missorting.

Author

Bidaud-Meynard A, Bossard F, Schnúr A, Fukuda R, Veit G, Xu H, and Lukacs GL

Subjects
Animals, Cell Line, Tumor, Cell Polarity physiology, Dogs, Epithelial Cells metabolism, Humans, Madin Darby Canine Kidney Cells, PDZ Domains, Phosphoproteins genetics, Phosphoproteins metabolism, Sodium-Hydrogen Exchangers genetics, Sodium-Hydrogen Exchangers metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Mutation, Transcytosis physiology
Abstract

Apical polarity of cystic fibrosis transmembrane conductance regulator (CFTR) is essential for solute and water transport in secretory epithelia and can be impaired in human diseases. Maintenance of apical polarity in the face of CFTR non-polarized delivery and inefficient apical retention of mutant CFTRs lacking PDZ-domain protein (NHERF1, also known as SLC9A3R1) interaction, remains enigmatic. Here, we show that basolateral CFTR delivery originates from biosynthetic (∼35%) and endocytic (∼65%) recycling missorting. Basolateral channels are retrieved via basolateral-to-apical transcytosis (hereafter denoted apical transcytosis), enhancing CFTR apical expression by two-fold and suppressing its degradation. In airway epithelia, CFTR transcytosis is microtubule-dependent but independent of Myo5B, Rab11 proteins and NHERF1 binding to its C-terminal DTRL motif. Increased basolateral delivery due to compromised apical recycling and accelerated internalization upon impaired NHERF1-CFTR association is largely counterbalanced by efficient CFTR basolateral internalization and apical transcytosis. Thus, transcytosis represents a previously unrecognized, but indispensable, mechanism for maintaining CFTR apical polarity that acts by attenuating its constitutive and mutation-induced basolateral missorting., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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46. Structure-guided combination therapy to potently improve the function of mutant CFTRs.

Author

Veit G, Xu H, Dreano E, Avramescu RG, Bagdany M, Beitel LK, Roldan A, Hancock MA, Lay C, Li W, Morin K, Gao S, Mak PA, Ainscow E, Orth AP, McNamara P, Edelman A, Frenkiel S, Matouk E, Sermet-Gaudelus I, Barnes WG, and Lukacs GL

Subjects
Allosteric Regulation drug effects, Bronchi cytology, Bronchi drug effects, Cell Membrane drug effects, Cell Membrane genetics, Cystic Fibrosis genetics, Cystic Fibrosis pathology, Cystic Fibrosis Transmembrane Conductance Regulator antagonists & inhibitors, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Epithelial Cells drug effects, Gene Expression Regulation drug effects, Humans, Mutation, Nasal Mucosa cytology, Nasal Mucosa drug effects, Protein Domains drug effects, Small Molecule Libraries pharmacology, Structure-Activity Relationship, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator chemistry, Protein Folding drug effects, Small Molecule Libraries chemistry
Abstract

Available corrector drugs are unable to effectively rescue the folding defects of CFTR-ΔF508 (or CFTR-F508del), the most common disease-causing mutation of the cystic fibrosis transmembrane conductance regulator, a plasma membrane (PM) anion channel, and thus to substantially ameliorate clinical phenotypes of cystic fibrosis (CF). To overcome the corrector efficacy ceiling, here we show that compounds targeting distinct structural defects of CFTR can synergistically rescue mutant expression and function at the PM. High-throughput cell-based screens and mechanistic analysis identified three small-molecule series that target defects at nucleotide-binding domain (NBD1), NBD2 and their membrane-spanning domain (MSD) interfaces. Although individually these compounds marginally improve ΔF508-CFTR folding efficiency, function and stability, their combinations lead to ~50-100% of wild-type-level correction in immortalized and primary human airway epithelia and in mouse nasal epithelia. Likewise, corrector combinations were effective against rare missense mutations in various CFTR domains, probably acting via structural allostery, suggesting a mechanistic framework for their broad application.

Published
2018
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47. Metal-Free Synthesis of Pharmaceutically Important Biaryls by Photosplicing.

Author

Kloss F, Neuwirth T, Haensch VG, and Hertweck C

Subjects
Catalysis, Metals chemistry, Pharmaceutical Preparations chemistry
Abstract

Many pharmaceuticals feature biaryl motifs that are crucial for their binding to the target. Yet, benchmark methods for selective cross-couplings rely on highly toxic heavy metal catalysts, which are unfavorable in the synthesis of pharmaceuticals. Metal-free coupling reactions, on the other hand, may require harsh conditions and lack selectivity. We report a novel, metal-free cross-coupling reaction that involves the tethering of two phenyl groups by a temporary, traceless sulfonamide linker that directs a photochemical aryl fusion into a single coupling product. The perfect regio- and chemoselectivity of the reaction could be rationalized by a cyclic intermediate, which fragments into the biaryl and volatile side products. Using a flow reactor, we synthesized numerous substituted biaryl building blocks for important therapeutics in high yields, such as antibiotics, antitumor, neuroprotective and cholesterol-lowering agents as well as antiarthritic non-steroidal antiinflammatory drugs (NSAIDs). The new method was successfully employed in a total synthesis of cannabinol, an important analgesic and antiemetic therapeutic. We also report a metal-free synthesis of key building blocks used for the preparation of sartans, antihypertensive agents that rank among the top blockbuster drugs worldwide. This safe and convenient protocol is a valuable alternative for the widely used metal-dependent aryl cross-coupling methods., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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48. ΔF508-CFTR Modulator Screen Based on Cell Surface Targeting of a Chimeric Nucleotide Binding Domain 1 Reporter.

Author

Phuan PW, Veit G, Tan JA, Roldan A, Finkbeiner WE, Haggie PM, Lukacs GL, and Verkman AS

Subjects
Animals, Cell Line, Cell Membrane metabolism, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator chemistry, High-Throughput Screening Assays, Humans, Molecular Structure, Structure-Activity Relationship, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Drug Discovery methods, Gene Expression Regulation drug effects, Genes, Reporter, Protein Interaction Domains and Motifs drug effects
Abstract

The most common cystic fibrosis-causing mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) is deletion of phenylalanine at residue 508 (∆F508). The ∆F508 mutation impairs folding of nucleotide binding domain 1 (NBD1) and interfacial interactions of NBD1 and the membrane spanning domains. Here, we report a domain-targeted screen to identify ∆F508-CFTR modulators that act on NBD1. A biochemical screen for ΔF508-NBD1 cell surface expression was done in Madin-Darby canine kidney cells expressing a chimeric reporter consisting of ΔF508-NBD1, the CD4 transmembrane domain, and an extracellular horseradish peroxidase (HRP) reporter. Using a luminescence readout of HRP activity, the screen was robust with a Z' factor of 0.7. The screening of ~20,000 synthetic small molecules allowed the identification of compounds from four chemical classes that increased ∆F508-NBD1 cell surface expression by up to 4-fold; for comparison, a 12-fold increased cell surface expression was found for a wild-type NBD1 chimera. While the compounds were inactive as correctors of full-length ΔF508-CFTR, several carboxamide-benzothiophenes had potentiator activity with low micromolar EC 50 . Interestingly, the potentiators did not activate G551D or wild-type CFTR. Our results provide a proof of concept for a cell-based NBD1 domain screen to identify ∆F508-CFTR modulators that target the NBD1 domain.

Published
2018
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49. Extracellular oxidation in cystic fibrosis airway epithelium causes enhanced EGFR/ADAM17 activity.

Author

Stolarczyk M, Veit G, Schnúr A, Veltman M, Lukacs GL, and Scholte BJ

Subjects
ADAM17 Protein genetics, Amphiregulin genetics, Amphiregulin metabolism, Bronchi metabolism, Cell Differentiation, Cells, Cultured, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cytokines metabolism, Epithelium metabolism, ErbB Receptors genetics, ErbB Receptors metabolism, Humans, Oxidation-Reduction, Phosphorylation, ADAM17 Protein metabolism, Bronchi pathology, Cystic Fibrosis physiopathology, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Epithelium pathology
Abstract

The EGF receptor (EGFR)/a disintegrin and metalloproteinase 17 (ADAM17) signaling pathway mediates the shedding of growth factors and secretion of cytokines and is involved in chronic inflammation and tissue remodeling. Since these are hallmarks of cystic fibrosis (CF) lung disease, we hypothesized that CF transmembrane conductance regulator (CFTR) deficiency enhances EGFR/ADAM17 activity in human bronchial epithelial cells. In CF bronchial epithelial CFBE41o - cells lacking functional CFTR (iCFTR - ) cultured at air-liquid interface (ALI) we found enhanced ADAM17-mediated shedding of the EGFR ligand amphiregulin (AREG) compared with genetically identical cells with induced CFTR expression (iCFTR + ). Expression of the inactive G551D-CFTR did not have this effect, suggesting that active CFTR reduces EGFR/ADAM17 activity. This was confirmed in CF compared with normal differentiated primary human bronchial epithelial cells (HBEC-ALI). ADAM17-mediated AREG shedding was tightly regulated by the EGFR/MAPK pathway. Compared with iCFTR + cells, iCFTR - cells displayed enhanced apical presentation and phosphorylation of EGFR, in accordance with enhanced EGFR/ADAM17 activity in CFTR-deficient cells. The nonpermeant natural antioxidant glutathione (GSH) strongly inhibited AREG release in iCFTR and in primary HBEC-ALI, suggesting that ADAM17 activity is directly controlled by extracellular redox potentials in differentiated airway epithelium. Furthermore, the fluorescent redox probe glutaredoxin 1-redox-sensitive green fluorescent protein-glycosylphosphatidylinositol (Grx1-roGFP-GPI) indicated more oxidized conditions in the extracellular space of iCFTR - cells, consistent with the role of CFTR in GSH transport. Our data suggest that in CFTR-deficient airway epithelial cells a more oxidized state of the extracellular membrane, likely caused by defective GSH secretion, leads to enhanced activity of the EGFR/ADAM17 signaling axis. In CF lungs this could contribute to tissue remodeling and hyperinflammation.

Published
2018
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50. Chaperone-Independent Peripheral Quality Control of CFTR by RFFL E3 Ligase.

Author

Okiyoneda T, Veit G, Sakai R, Aki M, Fujihara T, Higashi M, Susuki-Miyata S, Miyata M, Fukuda N, Yoshida A, Xu H, Apaja PM, and Lukacs GL

Subjects
Cell Membrane metabolism, Cells, Cultured, Cystic Fibrosis genetics, Cystic Fibrosis pathology, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Epithelial Cells metabolism, Gene Knockdown Techniques, Humans, Lysosomes metabolism, Mutation, Proteolysis, RNA, Small Interfering genetics, Ubiquitination, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Molecular Chaperones, Ubiquitin metabolism, Ubiquitin-Protein Ligases metabolism
Abstract

The peripheral protein quality control (QC) system removes non-native membrane proteins, including ΔF508-CFTR, the most common CFTR mutant in cystic fibrosis (CF), from the plasma membrane (PM) for lysosomal degradation by ubiquitination. It remains unclear how unfolded membrane proteins are recognized and targeted for ubiquitination and how they are removed from the apical PM. Using comprehensive siRNA screens, we identified RFFL, an E3 ubiquitin (Ub) ligase that directly and selectively recognizes unfolded ΔF508-CFTR through its disordered regions. RFFL retrieves the unfolded CFTR from the PM for lysosomal degradation by chaperone-independent K63-linked poly-ubiquitination. RFFL ablation enhanced the functional expression of cell-surface ΔF508-CFTR in the presence of folding corrector molecules, and this effect was further improved by inhibiting the Hsc70-dependent ubiquitination machinery. We propose that multiple peripheral QC mechanisms evolved to dispose of non-native PM proteins and to preserve cellular proteostasis, even at the cost of eliminating partially functional polypeptides., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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