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5. TMPRSS2 and furin are both essential for proteolytic activation of SARS-CoV-2 in human airway cells

Author

Bestle, D., Heindl, M.R., Limburg, H., Van Lam van, T., Pilgram, O., Moulton, H., Stein, D.A., Hardes, K., Eickmann, M., Dolnik, O., Rohde, C., Klenk, H.-D., Garten, W., Steinmetzer, T., Böttcher-Friebertshäuser, E., and Publica

Abstract

The novel emerged SARS-CoV-2 has rapidly spread around the world causing acute infection of the respiratory tract (COVID-19) that can result in severe disease and lethality. For SARS-CoV-2 to enter cells, its surface glycoprotein spike (S) must be cleaved at two different sites by host cell proteases, which therefore represent potential drug targets. In the present study, we show that S can be cleaved by the proprotein convertase furin at the S1/S2 site and the transmembrane serine protease 2 (TMPRSS2) at the S2' site. We demonstrate that TMPRSS2 is essential for activation of SARS-CoV-2 S in Calu-3 human airway epithelial cells through antisense-mediated knockdown of TMPRSS2 expression. Furthermore, SARS-CoV-2 replication was also strongly inhibited by the synthetic furin inhibitor MI-1851 in human airway cells. In contrast, inhibition of endosomal cathepsins by E64d did not affect virus replication. Combining various TMPRSS2 inhibitors with furin inhibitor MI-1851 produced more potent antiviral activity against SARS-CoV-2 than an equimolar amount of any single serine protease inhibitor. Therefore, this approach has considerable therapeutic potential for treatment of COVID-19.

Published
2020

20. The effects of benzylsulfonyl-D-Ser-homoPhe-(4-amidino-benzylamide), a dual plasmin and urokinase inhibitor, on facial skin barrier function in subjects with sensitive skin.

Author

Voegeli, R., Wikstroem, P., Campiche, R., Steinmetzer, T., Jackson, E., Gempeler, M., Imfeld, D., and Rawlings, A. V.

Subjects
PLASMIN, UROKINASE, NUCLEAR magnetic resonance spectroscopy, MOLECULAR docking, TRANSGLUTAMINASES
Abstract

Copyright of International Journal of Cosmetic Science is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2017
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22. Macrocyclic Inhibitors Targeting the Prime Site of the Fibrinolytic Serine Protease Plasmin.

Author

Wiedemeyer SJA, Wu G, Lang-Henkel H, Whisstock JC, Law RHP, and Steinmetzer T

Subjects
Humans, Structure-Activity Relationship, Crystallography, X-Ray, Molecular Structure, Binding Sites, Models, Molecular, Fibrinolysin antagonists & inhibitors, Fibrinolysin metabolism, Fibrinolysin chemistry, Macrocyclic Compounds chemistry, Macrocyclic Compounds pharmacology, Macrocyclic Compounds chemical synthesis, Serine Proteinase Inhibitors chemistry, Serine Proteinase Inhibitors pharmacology, Serine Proteinase Inhibitors chemical synthesis
Abstract

Two series of macrocyclic inhibitors addressing the S1 pocket and the prime site of the fibrinolytic serine protease plasmin have been developed. In the first series, a P1 tranexamoyl residue was coupled to 4-aminophenylalanine in P1' position, which provided moderately potent inhibitors with inhibition constants around 1 μM. In the second series, a substituted biphenylalanine was incorporated as P1' residue leading to approximately 1000-fold stronger plasmin inhibitors, the best compounds possess subnanomolar inhibition constants. The most effective compounds already exhibit a certain selectivity as plasmin inhibitors compared to other trypsin-like serine proteases such as trypsin, plasma kallikrein, thrombin, activated protein Ca, as well as factors XIa and Xa. For inhibitor 28 of the second series, the co-crystal structure in complex with a Ser195Ala microplasmin mutant revealed that the P2' residue adopts multiple conformations. Most polar contacts to plasmin and surrounding water molecules are mediated through the P1 tranexamoyl residue, whereas the bound conformation of the macrocycle is mainly stabilized by two intramolecular hydrogen bonds., (© 2024 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published
2024
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23. Unveiling the Role of TMPRSS2 in the Proteolytic Activation of Pandemic and Zoonotic Influenza Viruses and Coronaviruses in Human Airway Cells.

Author

Schwerdtner M, Schmacke LC, Nave J, Limburg H, Steinmetzer T, Stein DA, Moulton HM, and Böttcher-Friebertshäuser E

Subjects
Humans, Virus Replication, Influenza A virus physiology, Influenza A virus genetics, Cell Line, Proteolysis, Spike Glycoprotein, Coronavirus metabolism, Spike Glycoprotein, Coronavirus genetics, Influenza, Human virology, Influenza, Human metabolism, Animals, Middle East Respiratory Syndrome Coronavirus genetics, Middle East Respiratory Syndrome Coronavirus physiology, Influenza A Virus, H1N1 Subtype genetics, Influenza A Virus, H1N1 Subtype physiology, Hemagglutinin Glycoproteins, Influenza Virus metabolism, Hemagglutinin Glycoproteins, Influenza Virus genetics, Severe acute respiratory syndrome-related coronavirus genetics, Severe acute respiratory syndrome-related coronavirus physiology, Severe acute respiratory syndrome-related coronavirus metabolism, Coronavirus physiology, Coronavirus genetics, Coronavirus metabolism, Serine Endopeptidases metabolism, Serine Endopeptidases genetics, SARS-CoV-2 physiology, SARS-CoV-2 genetics, SARS-CoV-2 metabolism
Abstract

The zoonotic transmission of influenza A viruses (IAVs) and coronaviruses (CoVs) may result in severe disease. Cleavage of the surface glycoproteins hemagglutinin (HA) and spike protein (S), respectively, is essential for viral infectivity. The transmembrane serine protease 2 (TMPRSS2) is crucial for cleaving IAV HAs containing monobasic cleavage sites and severe acute respiratory syndrome (SARS)-CoV-2 S in human airway cells. Here, we analysed and compared the TMPRSS2-dependency of SARS-CoV, Middle East respiratory syndrome (MERS)-CoV, the 1918 pandemic H1N1 IAV and IAV H12, H13 and H17 subtypes in human airway cells. We used the peptide-conjugated morpholino oligomer (PPMO) T-ex5 to knockdown the expression of active TMPRSS2 and determine the impact on virus activation and replication in Calu-3 cells. The activation of H1N1/1918 and H13 relied on TMPRSS2, whereas recombinant IAVs carrying H12 or H17 were not affected by TMPRSS2 knockdown. MERS-CoV replication was strongly suppressed in T-ex5 treated cells, while SARS-CoV was less dependent on TMPRSS2. Our data underline the importance of TMPRSS2 for certain (potentially) pandemic respiratory viruses, including H1N1/1918 and MERS-CoV, in human airways, further suggesting a promising drug target. However, our findings also highlight that IAVs and CoVs differ in TMPRSS2 dependency and that other proteases are involved in virus activation.

Published
2024
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24. In Vitro Evaluation of Antipseudomonal Activity and Safety Profile of Peptidomimetic Furin Inhibitors.

Author

Maluck S, Bobrovsky R, Poór M, Lange RW, Steinmetzer T, Jerzsele Á, Adorján A, Bajusz D, Rácz A, and Pászti-Gere E

Abstract

Inhibitors of the serine protease furin have been widely studied as antimicrobial agents due to their ability to block the cleavage and activation of certain viral surface proteins and bacterial toxins. In this study, the antipseudomonal effects and safety profiles of the furin inhibitors MI-1851 and MI-2415 were assessed. Fluorescence quenching studies suggested no relevant binding of the compounds to human serum albumin and α 1 -acid glycoprotein. Both inhibitors demonstrated significant antipseudomonal activity in Madin-Darby canine kidney cells, especially compound MI-1851 at very low concentrations (0.5 µM). Using non-tumorigenic porcine IPEC-J2 cells, neither of the two furin inhibitors induced cytotoxicity (CCK-8 assay) or altered significantly the intracellular (Amplex Red assay) or extracellular (DCFH-DA assay) redox status even at a concentration of 100 µM. The same assays with MI-2415 conducted on primary human hepatocytes also resulted in no changes in cell viability and oxidative stress at up to 100 µM. Microsomal and hepatocyte-based CYP3A4 activity assays showed that both inhibitors exhibited a concentration-dependent inhibition of the isoenzyme at high concentrations. In conclusion, this study indicates a good safety profile of the furin inhibitors MI-1851 and MI-2415, suggesting their applicability as antimicrobials for further in vivo investigations, despite some inhibitory effects on CYP3A4.

Published
2024
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25. A molecular mechanism to diversify Ca 2+ signaling downstream of Gs protein-coupled receptors.

Author

Brands J, Bravo S, Jürgenliemke L, Grätz L, Schihada H, Frechen F, Alenfelder J, Pfeil C, Ohse PG, Hiratsuka S, Kawakami K, Schmacke LC, Heycke N, Inoue A, König G, Pfeifer A, Wachten D, Schulte G, Steinmetzer T, Watts VJ, Gomeza J, Simon K, and Kostenis E

Subjects
Humans, HEK293 Cells, GTP-Binding Protein alpha Subunits, Gq-G11 metabolism, GTP-Binding Protein alpha Subunits, Gq-G11 genetics, CRISPR-Cas Systems, GTP-Binding Protein alpha Subunits, Gs metabolism, GTP-Binding Protein alpha Subunits, Gs genetics, Cyclic AMP metabolism, Animals, Gene Editing, Cytosol metabolism, GTP-Binding Protein beta Subunits metabolism, GTP-Binding Protein beta Subunits genetics, Adenylyl Cyclases metabolism, Adenylyl Cyclases genetics, Calcium Signaling, Phospholipase C beta metabolism, Phospholipase C beta genetics, Receptors, G-Protein-Coupled metabolism, Receptors, G-Protein-Coupled genetics, Calcium metabolism
Abstract

A long-held tenet in inositol-lipid signaling is that cleavage of membrane phosphoinositides by phospholipase Cβ (PLCβ) isozymes to increase cytosolic Ca 2+ in living cells is exclusive to Gq- and Gi-sensitive G protein-coupled receptors (GPCRs). Here we extend this central tenet and show that Gs-GPCRs also partake in inositol-lipid signaling and thereby increase cytosolic Ca 2+ . By combining CRISPR/Cas9 genome editing to delete Gα s , the adenylyl cyclase isoforms 3 and 6, or the PLCβ1-4 isozymes, with pharmacological and genetic inhibition of Gq and G11, we pin down Gs-derived Gβγ as driver of a PLCβ2/3-mediated cytosolic Ca 2+ release module. This module does not require but crosstalks with Gα s -dependent cAMP, demands Gα q to release PLCβ3 autoinhibition, but becomes Gq-independent with mutational disruption of the PLCβ3 autoinhibited state. Our findings uncover the key steps of a previously unappreciated mechanism utilized by mammalian cells to finetune their calcium signaling regulation through Gs-GPCRs., (© 2024. The Author(s).)

Published
2024
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26. Synthesis and structural characterization of new macrocyclic inhibitors of the Zika virus NS2B-NS3 protease.

Author

Huber S, Braun NJ, Schmacke LC, Murra R, Bender D, Hildt E, Heine A, and Steinmetzer T

Subjects
Structure-Activity Relationship, Molecular Structure, Viral Nonstructural Proteins antagonists & inhibitors, Viral Nonstructural Proteins metabolism, Dose-Response Relationship, Drug, Serine Endopeptidases metabolism, Humans, Viral Protease Inhibitors pharmacology, Viral Protease Inhibitors chemical synthesis, Viral Protease Inhibitors chemistry, Crystallography, X-Ray, Viral Proteases, Nucleoside-Triphosphatase, DEAD-box RNA Helicases, Zika Virus enzymology, Zika Virus drug effects, Macrocyclic Compounds pharmacology, Macrocyclic Compounds chemical synthesis, Macrocyclic Compounds chemistry, Antiviral Agents pharmacology, Antiviral Agents chemical synthesis, Antiviral Agents chemistry
Abstract

Three new series of macrocyclic active site-directed inhibitors of the Zika virus (ZIKV) NS2B-NS3 protease were synthesized. First, attempts were made to replace the basic P3 lysine residue of our previously described inhibitors with uncharged and more hydrophobic residues. This provided numerous compounds with inhibition constants between 30 and 50 nM. A stronger reduction of the inhibitory potency was observed when the P2 lysine was replaced by neutral residues, all of these inhibitors possess K i values >1 µM. However, it is possible to replace the P2 lysine with the less basic 3-aminomethylphenylalanine, which provides a similarly potent inhibitor of the ZIKV protease (K i  = 2.69 nM). Crystal structure investigations showed that the P2 benzylamine structure forms comparable interactions with the protease as lysine. Twelve additional structures of these inhibitors in complex with the protease were determined, which explain many, but not all, SAR data obtained in this study. All individual modifications in the P2 or P3 position resulted in inhibitors with low antiviral efficacy in cell culture. Therefore, a third inhibitor series with combined modifications was synthesized; all of them contain a more hydrophobic d-cyclohexylalanine in the linker segment. At a concentration of 40 µM, two of these compounds possess similar antiviral potency as ribavirin at 100 µM. Due to their reliable crystallization in complex with the ZIKV protease, these cyclic compounds are very well suited for a rational structure-based development of improved inhibitors., (© 2024 The Authors. Archiv der Pharmazie published by Wiley‐VCH GmbH on behalf of Deutsche Pharmazeutische Gesellschaft.)

Published
2024
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27. Novel proteolytic activation of Ebolavirus glycoprotein GP by TMPRSS2 and cathepsin L at an uncharted position can compensate for furin cleavage.

Author

Bestle D, Bittel L, Werner AD, Kämper L, Dolnik O, Krähling V, Steinmetzer T, and Böttcher-Friebertshäuser E

Subjects
Animals, Humans, Chlorocebus aethiops, Proteolysis, Vero Cells, Cell Line, Endosomes metabolism, Endosomes virology, Cathepsin L metabolism, Cathepsin L genetics, Furin metabolism, Furin genetics, Ebolavirus genetics, Ebolavirus physiology, Ebolavirus metabolism, Virus Internalization, Serine Endopeptidases metabolism, Serine Endopeptidases genetics, Viral Envelope Proteins metabolism, Viral Envelope Proteins genetics
Abstract

A multistep priming process involving furin and endosomal cathepsin B and L (CatB/L) has been described for the Orthoebolavirus zairense (EBOV) glycoprotein GP. Inhibition or knockdown of either furin or endosomal cathepsins, however, did not prevent virus multiplication in cell cultures. Moreover, an EBOV mutant lacking the furin cleavage motif (RRTRR→AGTAA) was able to replicate and cause fatal disease in nonhuman primates, indicating that furin cleavage may be dispensable for virus infectivity. Here, by using protease inhibitors and EBOV GP-carrying recombinant vesicular stomatitis virus (VSV) and transcription and replication-competent virus-like particles (trVLPs) we found that processing of EBOV GP is mediated by different proteases in different cell lines depending on the protease repertoire available. Endosomal cathepsins were essential for EBOV GP entry in Huh-7 but not in Vero cells, in which trypsin-like proteases and stably expressed trypsin-like transmembrane serine protease 2 (TMPRSS2) supported wild-type EBOV GP and EBOV GP_AGTAA mutant entry. Furthermore, we show that the EBOV GP_AGTAA mutant is cleaved into fusion-competent GP 2 by TMPRSS2 and by CatL at a so far unknown site. Fluorescence microscopy co-localization studies indicate that EBOV GP cleavage by TMPRSS2 may occur in the TGN prior to virus release or in the late endosome at the stage of virus entry into a new cell. Our data show that EBOV GP must be proteolytically activated to support virus entry but has even greater flexibility in terms of proteases and the precise cleavage site than previously assumed., 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 © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2024
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28. PK/PD investigation of antiviral host matriptase/TMPRSS2 inhibitors in cell models.

Author

Gamba D, van Eijk N, Lányi K, Monostory K, Steinmetzer T, Marosi A, Rácz A, Bajusz D, Kruhl D, Böttcher-Friebertshäuser E, and Pászti-Gere E

Subjects
Dogs, Humans, Cytochrome P-450 CYP3A metabolism, Influenza A Virus, H1N1 Subtype drug effects, Molecular Docking Simulation, Animals, Madin Darby Canine Kidney Cells, Antiviral Agents pharmacology, Hepatocytes virology, Hepatocytes metabolism, Hepatocytes drug effects, Serine Endopeptidases metabolism
Abstract

Certain corona- and influenza viruses utilize type II transmembrane serine proteases for cell entry, making these enzymes potential drug targets for the treatment of viral respiratory infections. In this study, the cytotoxicity and inhibitory effects of seven matriptase/TMPRSS2 inhibitors (MI-21, MI-463, MI-472, MI-485, MI-1900, MI-1903, and MI-1904) on cytochrome P450 enzymes were evaluated using fluorometric assays. Additionally, their antiviral activity against influenza A virus subtypes H1N1 and H9N2 was assessed. The metabolic depletion rates of these inhibitors in human primary hepatocytes were determined over a 120-min period by LC-MS/MS, and PK parameters were calculated. The tested compounds, with the exception of MI-21, displayed potent inhibition of CYP3A4, while all compounds lacked inhibitory effects on CYP1A2, CYP2C9, CYP2C19, and CYP2D6. The differences between the CYP3A4 activity within the series were rationalized by ligand docking. Elucidation of PK parameters showed that inhibitors MI-463, MI-472, MI-485, MI-1900 and MI-1904 were more stable compounds than MI-21 and MI-1903. Anti-H1N1 properties of inhibitors MI-463 and MI-1900 and anti-H9N2 effects of MI-463 were shown at 20 and 50 µM after 24 h incubation with the inhibitors, suggesting that these inhibitors can be applied to block entry of these viruses by suppressing host matriptase/TMPRSS2-mediated cleavage., (© 2024. The Author(s).)

Published
2024
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29. Fragment-Based Design, Synthesis, and Characterization of Aminoisoindole-Derived Furin Inhibitors.

Author

Lange RW, Bloch K, Heindl MR, Wollenhaupt J, Weiss MS, Brandstetter H, Klebe G, Falcone FH, Böttcher-Friebertshäuser E, Dahms SO, and Steinmetzer T

Subjects
Humans, Structure-Activity Relationship, A549 Cells, Influenza A virus drug effects, Crystallography, X-Ray, Indoles pharmacology, Indoles chemistry, Indoles chemical synthesis, Molecular Structure, Models, Molecular, Respiratory Syncytial Viruses drug effects, Dose-Response Relationship, Drug, Furin antagonists & inhibitors, Furin metabolism, Drug Design, Antiviral Agents pharmacology, Antiviral Agents chemical synthesis, Antiviral Agents chemistry
Abstract

A 1H-isoindol-3-amine was identified as suitable P1 group for the proprotein convertase furin using a crystallographic screening with a set of 20 fragments known to occupy the S1 pocket of trypsin-like serine proteases. Its binding mode is very similar to that observed for the P1 group of benzamidine-derived peptidic furin inhibitors suggesting an aminomethyl substitution of this fragment to obtain a couplable P1 residue for the synthesis of substrate-analogue furin inhibitors. The obtained inhibitors possess a slightly improved picomolar inhibitory potency compared to their benzamidine-derived analogues. The crystal structures of two inhibitors in complex with furin revealed that the new P1 group is perfectly suited for incorporation in peptidic furin inhibitors. Selected inhibitors were tested for antiviral activity against respiratory syncytial virus (RSV) and a furin-dependent influenza A virus (SC35M/H7N7) in A549 human lung cells and demonstrated an efficient inhibition of virus activation and replication at low micromolar or even submicromolar concentrations. First results suggest that the Mas-related G-protein coupled receptor GPCR-X2 could be a potential off-target for certain benzamidine-derived furin inhibitors., (© 2024 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published
2024
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30. ACE2 acts as a novel regulator of TMPRSS2-catalyzed proteolytic activation of influenza A virus in airway cells.

Author

Heindl MR, Rupp A-L, Schwerdtner M, Bestle D, Harbig A, De Rocher A, Schmacke LC, Staker B, Steinmetzer T, Stein DA, Moulton HM, and Böttcher-Friebertshäuser E

Subjects
Animals, Dogs, Humans, Biocatalysis, Cell Line, Furin metabolism, Hemagglutinin Glycoproteins, Influenza Virus metabolism, Middle East Respiratory Syndrome Coronavirus metabolism, Protein Binding, Spike Glycoprotein, Coronavirus metabolism, Virus Internalization, Virus Replication, Angiotensin-Converting Enzyme 2 deficiency, Angiotensin-Converting Enzyme 2 genetics, Angiotensin-Converting Enzyme 2 metabolism, Influenza A virus growth & development, Influenza A virus metabolism, Lung cytology, Lung virology, Proteolysis, Serine Endopeptidases metabolism
Abstract

The transmembrane serine protease 2 (TMPRSS2) activates the outer structural proteins of a number of respiratory viruses including influenza A virus (IAV), parainfluenza viruses, and various coronaviruses for membrane fusion. Previous studies showed that TMPRSS2 interacts with the carboxypeptidase angiotensin-converting enzyme 2 (ACE2), a cell surface protein that serves as an entry receptor for some coronaviruses. Here, by using protease activity assays, we determine that ACE2 increases the enzymatic activity of TMPRSS2 in a non-catalytic manner. Furthermore, we demonstrate that ACE2 knockdown inhibits TMPRSS2-mediated cleavage of IAV hemagglutinin (HA) in Calu-3 human airway cells and suppresses virus titers 100- to 1.000-fold. Transient expression of ACE2 in ACE2-deficient cells increased TMPRSS2-mediated HA cleavage and IAV replication. ACE2 knockdown also reduced titers of MERS-CoV and prevented S cleavage by TMPRSS2 in Calu-3 cells. By contrast, proteolytic activation and multicycle replication of IAV with multibasic HA cleavage site typically cleaved by furin were not affected by ACE2 knockdown. Co-immunoprecipitation analysis revealed that ACE2-TMPRSS2 interaction requires the enzymatic activity of TMPRSS2 and the carboxypeptidase domain of ACE2. Together, our data identify ACE2 as a new co-factor or stabilizer of TMPRSS2 activity and as a novel host cell factor involved in proteolytic activation and spread of IAV in human airway cells. Furthermore, our data indicate that ACE2 is involved in the TMPRSS2-catalyzed activation of additional respiratory viruses including MERS-CoV.IMPORTANCEProteolytic cleavage of viral envelope proteins by host cell proteases is essential for the infectivity of many viruses and relevant proteases provide promising drug targets. The transmembrane serine protease 2 (TMPRSS2) has been identified as a major activating protease of several respiratory viruses, including influenza A virus. TMPRSS2 was previously shown to interact with angiotensin-converting enzyme 2 (ACE2). Here, we report the mechanistic details of this interaction. We demonstrate that ACE2 increases or stabilizes the enzymatic activity of TMPRSS2. Furthermore, we describe ACE2 involvement in TMPRSS2-catalyzed cleavage of the influenza A virus hemagglutinin and MERS-CoV spike protein in human airway cells. These findings expand our knowledge of the activation of respiratory viruses by TMPRSS2 and the host cell factors involved. In addition, our results could help to elucidate a physiological role for TMPRSS2., Competing Interests: The authors declare no conflict of interest.

Published
2024
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31. Antiviral Drug Candidate Repositioning for Streptococcus suis Infection in Non-Tumorigenic Cell Models.

Author

van Niekerk AA, Maluck S, Mag P, Kővágó C, Kerek Á, Jerzsele Á, Steinmetzer T, and Pászti-Gere E

Abstract

The increasing prevalence of antimicrobial resistance against zoonotic bacteria, including Streptococcus (S.) suis , highlights the need for new therapeutical strategies, including the repositioning of drugs. In this study, susceptibilities of bacterial isolates were tested toward ten different 3-amidinophenyalanine (Phe(3-Am)) derivatives via determination of minimum inhibitory concentration (MIC) values. Some of these protease inhibitors, like compounds MI-432, MI-471, and MI-476, showed excellent antibacterial effects against S. suis . Their drug interaction potential was investigated using human liver microsomal cytochrome P450 (CYP450) measurements. In our work, non-tumorigenic IPEC-J2 cells and primary porcine hepatocytes were infected with S. suis , and the putative beneficial impact of these inhibitors was investigated on cell viability (Neutral red assay), on interleukin (IL)-6 levels (ELISA technique), and on redox balance (Amplex red method). The antibacterial inhibitors prevented S. suis -induced cell death (except MI-432) and decreased proinflammatory IL-6 levels. It was also found that MI-432 and MI-476 had antioxidant effects in an intestinal cell model upon S. suis infection. Concentration-dependent suppression of CYP3A4 function was found via application of all three inhibitors. In conclusion, our study suggests that the potential antiviral Phe(3-Am) derivatives with 2',4' dichloro-biphenyl moieties can be considered as effective drug candidates against S. suis infection due to their antibacterial effects.

Published
2024
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32. In vitro testing of host-targeting small molecule antiviral matriptase/TMPRSS2 inhibitors in 2D and 3D cell-based assays.

Author

van Eijk N, Schmacke LC, Steinmetzer T, Pilgram O, Poór M, and Pászti-Gere E

Subjects
Animals, Humans, Antiviral Agents pharmacology, Cytochrome P-450 CYP3A, Serine Endopeptidases metabolism, Thrombin, Serine Proteinase Inhibitors pharmacology
Abstract

The outbreak of coronavirus disease 2019 (COVID-19) pandemic strongly stimulated the development of small molecule antivirals selectively targeting type II transmembrane serine proteases (TTSP), required for the host-cell entry of numerous viruses. A set of 3-amidinophenylalanine derivatives (MI-21, MI-472, MI-477, MI-485, MI-1903 and MI-1904), which inhibit the cleavage of certain viral glycoproteins was characterized in 2D and 3D primary human hepatocyte models on collagen- and Matrigel-coating using a CCK-8 assay to evaluate their cytotoxicity, a resorufin-based method to detect redox imbalances, fluorescence and ultrafiltration experiments to evaluate their interactions with human serum albumin (HSA) and α-acidic glycoprotein (AGP), and luminescence measurement to assess CYP3A4 modulation. For elucidation of selectivity of the applied compounds towards matriptase, transmembrane serine protease 2 (TMPRRS2), thrombin and factor Xa (FXa) K i values were determined. It was proven that cell viability was only deteriorated by inhibitor MI-1903, and redox status was not influenced by administration of the selected inhibitors at 50 µM for 24 h. MI-472 and MI-477 formed relatively stable complexes with AGP. CYP3A4 inhibition was found to be strong in PHHs exposed to all inhibitors with the exception of MI-21, which seems to be a promising drug candidate also due to its better selectivity towards matriptase and TMPRSS2 over the blood clotting proteases thrombin and FXa. Our in vitro pharmacokinetic screening with these inhibitors helps to select the compounds with the best selectivity and safety profile suitable for a further preclinical characterization without animal sacrifice., 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 © 2023 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2023
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33. Assessment of vestibulo-ocular reflex and its adaptation during stop-and-go car rides in motion sickness susceptible passengers.

Author

Ramaioli C, Steinmetzer T, Brietzke A, Meyer P, Pham Xuan R, Schneider E, and Gorges M

Subjects
Humans, Automobiles, Bayes Theorem, Disease Susceptibility, Head Impulse Test, Reflex, Vestibulo-Ocular physiology, Motion Sickness etiology
Abstract

Motion sickness is a physiological condition that negatively impacts a person's comfort and will be an emerging condition in autonomous vehicles without proper countermeasures. The vestibular system plays a key role in the origin of motion sickness. Understanding the susceptibility and (mal) adaptive mechanisms of the highly integrated vestibular system is a prerequisite for the development of countermeasures. We hypothesize a differential association between motion sickness and vestibular function in healthy individuals with and without susceptibility for motion sickness. We quantified vestibular function by measuring the high-frequency vestibulo-ocular reflex (VOR) using video head impulse testing (vHIT) in 17 healthy volunteers before and after a 11 min motion sickness-inducing naturalistic stop-and-go car ride on a test track (Dekra Test Oval, Klettwitz, Germany). The cohort was classified as motion sickness susceptible (n = 11) and non-susceptible (n = 6). Six (out of 11) susceptible participants developed nausea symptoms, while a total of nine participants were free of these symptoms. The VOR gain (1) did not differ significantly between participant groups with (n = 8) and without motion sickness symptoms (n = 9), (2) did not differ significantly in the factor time before and after the car ride, and showed no interaction between symptom groups and time, as indicated by a repeated measures ANOVA (F(1,15) = 2.19, p = 0.16. Bayesian inference confirmed that there was "anecdotal evidence" for equality of gain rather than difference across groups and time (BF 10  < 0.77). Our results suggest that individual differences in VOR measures or adaptation to motion sickness provocative stimuli during naturalistic stop-and-go driving cannot predict motion sickness susceptibility or the likelihood of developing motion sickness., (© 2023. The Author(s).)

Published
2023
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34. Binocular video head impulse test: Normative data study.

Author

Striteska M, Chovanec M, Steinmetzer T, Chrobok V, Profant O, Schneider E, Kremlacek J, and Valis M

Abstract

Introduction: The video head impulse test (vHIT) evaluates the vestibulo-ocular reflex (VOR). It's usually recorded from only one eye. Newer vHIT devices allow a binocular quantification of the VOR., Purpose Aim: To investigate the advantages of simultaneously recorded binocular vHIT (bvHIT) to detect the differences between the VOR gains of the adducting and the abducting eye, to define the most precise VOR measure, and to assess gaze dys/conjugacy. We aimed to establish normative values for bvHIT adducting/abducting eye VOR gains and to introduce the VOR dysconjugacy ratio (vorDR) between adducting and abducting eyes for bvHIT., Methods: We enrolled 44 healthy adult participants in a cross-sectional, prospective study using a repeated-measures design to assess test-retest reliability. A binocular EyeSeeCam Sci 2 device was used to simultaneously record bvHIT from both eyes during impulsive head stimulation in the horizontal plane., Results: Pooled bvHIT retest gains of the adducting eye significantly exceeded those of the abducting eye (mean (SD): 1.08 (SD = 0.06), 0.95 (SD = 0.06), respectively). Both adduction and abduction gains showed similar variability, suggesting comparable precision and therefore equal suitability for VOR asymmetry assessment. The pooled vorDR here introduced to bvHIT was 1.13 (SD = 0.05). The test-retest repeatability coefficient was 0.06., Conclusion: Our study provides normative values reflecting the conjugacy of eye movement responses to horizontal bvHIT in healthy participants. The results were similar to a previous study using the gold-standard scleral search coil, which also reported greater VOR gains in the adducting than in the abducting eye. In analogy to the analysis of saccade conjugacy, we propose the use of a novel bvHIT dysconjugacy ratio to assess dys/conjugacy of VOR-induced eye movements. In addition, to accurately assess VOR asymmetry, and to avoid directional gain preponderance between adduction and abduction VOR-induced eye movements leading to monocular vHIT bias, we recommend using a binocular ductional VOR asymmetry index that compares the VOR gains of only the abduction or only the adduction movements of both eyes., Competing Interests: ES is the general manager and a shareholder of EyeSeeTec GmbH. The remaining 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., (Copyright © 2023 Striteska, Chovanec, Steinmetzer, Chrobok, Profant, Schneider, Kremlacek and Valis.)

Published
2023
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35. Thermodynamic characterization of a macrocyclic Zika virus NS2B/NS3 protease inhibitor and its acyclic analogs.

Author

Hammerschmidt SJ, Huber S, Braun NJ, Lander M, Steinmetzer T, and Kersten C

Subjects
Humans, Ligands, Viral Nonstructural Proteins, Protein Conformation, Structure-Activity Relationship, Serine Endopeptidases chemistry, Serine Endopeptidases metabolism, Serine Endopeptidases pharmacology, Thermodynamics, Protease Inhibitors pharmacology, Protease Inhibitors chemistry, Zika Virus metabolism, Zika Virus Infection
Abstract

Cyclization of small molecules is a widely applied strategy in drug design for ligand optimization to improve affinity, as it eliminates the putative need for structural preorganization of the ligand before binding, or to improve pharmacokinetic properties. In this work, we provide a deeper insight into the binding thermodynamics of a macrocyclic Zika virus NS2B/NS3 protease inhibitor and its linear analogs. Characterization of the thermodynamic binding profiles by isothermal titration calorimetry experiments revealed an unfavorable entropy of the macrocycle compared to the open linear reference ligands. Molecular dynamic simulations and X-ray crystal structure analysis indicated only minor benefits from macrocyclization to fixate a favorable conformation, while linear ligands retained some flexibility even in the protein-bound complex structure, possibly explaining the initially surprising effect of a higher entropic penalty for the macrocyclic ligand., (© 2022 The Authors. Archiv der Pharmazie published by Wiley-VCH GmbH on behalf of Deutsche Pharmazeutische Gesellschaft.)

Published
2023
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36. Synthesis and Structural Characterization of Macrocyclic Plasmin Inhibitors.

Author

Wiedemeyer SJA, Wu G, Pham TLP, Lang-Henkel H, Perez Urzua B, Whisstock JC, Law RHP, and Steinmetzer T

Subjects
Trypsin chemistry, Protein Binding, Serine Proteinase Inhibitors pharmacology, Serine Proteinase Inhibitors chemistry, Fibrinolysin chemistry, Fibrinolysin metabolism, Antifibrinolytic Agents chemistry, Antifibrinolytic Agents pharmacology
Abstract

Two series of macrocyclic plasmin inhibitors with a C-terminal benzylamine group were synthesized. The substitution of the N-terminal phenylsulfonyl group of a previously described inhibitor provided two analogues with sub-nanomolar inhibition constants. Both compounds possess a high selectivity against all other tested trypsin-like serine proteases. Furthermore, a new approach was used to selectively introduce asymmetric linker segments. Two of these compounds inhibit plasmin with K i values close to 2 nM. For the first time, four crystal structures of these macrocyclic inhibitors could be determined in complex with a Ser195Ala microplasmin mutant. The macrocyclic core segment of the inhibitors binds to the open active site of plasmin without any steric hindrance. This binding mode is incompatible with other trypsin-like serine proteases containing a sterically demanding 99-hairpin loop. The crystal structures obtained experimentally explain the excellent selectivity of this inhibitor type as previously hypothesized., (© 2023 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published
2023
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37. In Vitro Pharmacokinetic Behavior of Antiviral 3-Amidinophenylalanine Derivatives in Rat, Dog and Monkey Hepatocytes.

Author

Lányi K, Monostory K, Steinmetzer T, Jerzsele Á, and Pászti-Gere E

Abstract

Type II transmembrane serine proteases represent pharmacological targets for blocking entry and spread of influenza or coronaviruses. In this study, the depletion rates of the 3-amidinophenylalanine (3-APhA)-derived matriptase/TMPRSS2 inhibitors MI-463, MI-472, MI-485 or MI-1900 were determined by LC-MS/MS measurements over a period of 300 min using suspensions of rat, dog and cynomolgus monkey primary hepatocytes. From these in vitro pharmacokinetic (PK) experiments, intrinsic clearance values (Cl int ) were evaluated, and in vivo pharmacokinetic parameters (hepatic clearance, hepatic extraction ratio and bioavailability) were predicted. It was found that rat hepatocytes were the most active in the metabolism of 3-APhA derivatives (Cl int 31.9-37.8 mL/min/kg), whereas dog and monkey cells displayed somewhat lower clearance of these compounds (Cl int 6.6-26.7 mL/min/kg). These data support elucidation of important PK properties of anti-TMPRSS2/anti-matriptase 3-APhAs using mammalian hepatocyte models and thus contribute to the optimization of lead compounds.

Published
2023
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38. Boroleucine-Derived Covalent Inhibitors of the ZIKV Protease.

Author

Braun NJ, Huber S, Schmacke LC, Heine A, and Steinmetzer T

Subjects
Humans, Leucine chemistry, Leucine pharmacology, Peptide Hydrolases metabolism, Protein Binding drug effects, Serine Endopeptidases metabolism, Viral Nonstructural Proteins metabolism, Antiviral Agents pharmacology, Antiviral Agents chemistry, Protease Inhibitors chemistry, Protease Inhibitors pharmacology, Zika Virus drug effects, Zika Virus metabolism, Zika Virus Infection metabolism
Abstract

The Zika virus (ZIKV) remains a potential threat to the public health due to the lack of both an approved vaccination or a specific treatment. In this work, a series of peptidic inhibitors of the ZIKV protease with boroleucine as P1 residue was synthesized. The highest affinities with K i values down to 8 nM were observed for compounds with basic residues in both P2 and P3 position and at the N-terminus. The low potency of reference compounds containing leucine, leucine-amide or isopentylamide as P1 residue suggested a covalent binding mode of the boroleucine-derived inhibitors. This was finally proven by crystal structure determination of the most potent inhibitor from this series in complex with the ZIKV protease., (© 2022 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published
2023
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39. Design, synthesis, and characterization of novel fluorogenic substrates of the proprotein convertases furin, PC1/3, PC2, PC5/6, and PC7.

Author

Lam van TV, Ivanova T, Lindberg I, Böttcher-Friebertshäuser E, Steinmetzer T, and Hardes K

Subjects
Amino Acid Sequence, Carbamates, Fluorescent Dyes, Oligopeptides, Proteins, Subtilisins metabolism, Furin, Proprotein Convertases
Abstract

Proprotein convertases (PCs) are involved in the pathogenesis of various diseases, making them promising drug targets. Most assays for PCs have been performed with few standard substrates, regardless of differences in cleavage efficiencies. Derived from studies on substrate-analogue inhibitors, 11 novel substrates were synthesized and characterized with five PCs. H-Arg-Arg-Tle-Lys-Arg-AMC is the most efficiently cleaved furin substrate based on its k cat /K M value. Due to its higher k cat value, acetyl-Arg-Arg-Tle-Arg-Arg-AMC was selected for further measurements to demonstrate the benefit of this improved substrate. Compared to our standard conditions, its use allowed a 10-fold reduction of the furin concentration, which enabled K i value determinations of previously described tight-binding inhibitors under classical conditions. Under these circumstances, a slow-binding behavior was observed for the first time with inhibitor MI-1148. In addition to furin, four additional PCs were used to characterize these substrates. The most efficiently cleaved PC1/3 substrate was acetyl-Arg-Arg-Arg-Tle-Lys-Arg-AMC. The highest k cat /K M values for PC2 and PC7 were found for the N-terminally unprotected analogue of this substrate, although other substrates possess higher k cat values. The highest efficiency for PC5/6A was observed for the substrate acetyl-Arg-Arg-Tle-Lys-Arg-AMC. In summary, we have identified new substrates for furin, PC1/3, PC2, and PC7 suitable for improved enzyme-kinetic measurements., Competing Interests: Declaration of competing interest None., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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40. Improving the selectivity of 3-amidinophenylalanine-derived matriptase inhibitors.

Author

Pilgram O, Keils A, Benary GE, Müller J, Merkl S, Ngaha S, Huber S, Chevillard F, Harbig A, Magdolen V, Heine A, Böttcher-Friebertshäuser E, and Steinmetzer T

Subjects
Factor Xa Inhibitors pharmacology, Serine Endopeptidases, Serine Proteinase Inhibitors chemistry, Serine Proteinase Inhibitors pharmacology, Structure-Activity Relationship, Thrombin, Factor Xa metabolism, Influenza A Virus, H9N2 Subtype metabolism, Phenylalanine chemistry
Abstract

A rational structure-based approach was employed to develop novel 3-amidinophenylalanine-derived matriptase inhibitors with improved selectivity against thrombin and factor Xa. Of all 23 new derivatives, several monobasic inhibitors exhibit high matriptase affinities and strong selectivity against thrombin. Some inhibitors also possess selectivity against factor Xa, although less pronounced as found for thrombin. A crystal structure of a selective monobasic matriptase inhibitor in complex with matriptase and three crystal structures of related compounds in trypsin and thrombin have been determined. The structures offer an explanation for the different selectivity profiles of these inhibitors and contribute to a more detailed understanding of the observed structure-activity relationship. Selected compounds were tested in vitro against a matriptase-dependent H9N2 influenza virus strain and demonstrated a concentration-dependent inhibition of virus replication in MDCK(II) cells., (Copyright © 2022 Elsevier Masson SAS. All rights reserved.)

Published
2022
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41. Transfer mechanism of cell-free synthesized membrane proteins into mammalian cells.

Author

Umbach S, Levin R, Neumann S, Steinmetzer T, Dötsch V, and Bernhard F

Abstract

Nanodiscs are emerging to serve as transfer vectors for the insertion of recombinant membrane proteins into membranes of living cells. In combination with cell-free expression technologies, this novel process opens new perspectives to analyze the effects of even problematic targets such as toxic, hard-to-express, or artificially modified membrane proteins in complex cellular environments of different cell lines. Furthermore, transferred cells must not be genetically engineered and primary cell lines or cancer cells could be implemented as well. We have systematically analyzed the basic parameters of the nanotransfer approach and compared the transfer efficiencies from nanodiscs with that from Salipro particles. The transfer of five membrane proteins was analyzed: the prokaryotic proton pump proteorhodopsin, the human class A family G-protein coupled receptors for endothelin type B, prostacyclin, free fatty acids type 2, and the orphan GPRC5B receptor as a class C family member. The membrane proteins were cell-free synthesized with a detergent-free strategy by their cotranslational insertion into preformed nanoparticles containing defined lipid environments. The purified membrane protein/nanoparticles were then incubated with mammalian cells. We demonstrate that nanodiscs disassemble and only lipids and membrane proteins, not the scaffold protein, are transferred into cell membranes. The process is detectable within minutes, independent of the nanoparticle lipid composition, and the transfer efficiency directly correlates with the membrane protein concentration in the transfer mixture and with the incubation time. Transferred membrane proteins insert in both orientations, N-terminus in and N-terminus out, in the cell membrane, and the ratio can be modulated by engineering. The viability of cells is not notably affected by the transfer procedure, and transferred membrane proteins stay detectable in the cell membrane for up to 3 days. Transferred G-protein coupled receptors retained their functionality in the cell environment as shown by ligand binding, induction of internalization, and specific protein interactions. In comparison to transfection, the cellular membrane protein concentration is better controllable and more uniformly distributed within the analyzed cell population. A further notable difference to transfection is the accumulation of transferred membrane proteins in clusters, presumably determined by microdomain structures in the cell membranes., 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., (Copyright © 2022 Umbach, Levin, Neumann, Steinmetzer, Dötsch and Bernhard.)

Published
2022
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42. In vitro characterization of the furin inhibitor MI-1851: Albumin binding, interaction with cytochrome P450 enzymes and cytotoxicity.

Author

Pászti-Gere E, Szentkirályi-Tóth A, Szabó P, Steinmetzer T, Fliszár-Nyúl E, and Poór M

Subjects
Humans, Albumins pharmacology, COVID-19 Drug Treatment, Cytochrome P-450 CYP3A metabolism, Cytochrome P-450 Enzyme System drug effects, Cytochrome P-450 Enzyme System metabolism, Microsomes, Liver, SARS-CoV-2 drug effects, Serum Albumin, Human metabolism, Spike Glycoprotein, Coronavirus, Cytochrome P-450 Enzyme Inhibitors metabolism, Cytochrome P-450 Enzyme Inhibitors pharmacology, Cytochrome P-450 Enzyme Inhibitors toxicity, Furin antagonists & inhibitors, Furin metabolism, Furin pharmacology
Abstract

The substrate-analog furin inhibitor MI-1851 can suppress the cleavage of SARS-CoV-2 spike protein and consequently produces significant antiviral effect on infected human airway epithelial cells. In this study, the interaction of inhibitor MI-1851 was examined with human serum albumin using fluorescence spectroscopy and ultrafiltration techniques. Furthermore, the impacts of MI-1851 on human microsomal hepatic cytochrome P450 (CYP) 1A2, 2C9, 2C19, 2D6 and 3A4 activities were assessed based on fluorometric assays. The inhibitory action was also examined on human recombinant CYP3A4 enzyme and on hepatocytes. In addition, microsomal stability (60 min) and cytotoxicity were tested as well. MI-1851 showed no relevant interaction with human serum albumin and was significantly depleted by human microsomes. Furthermore, it did not inhibit CYP1A2, 2C9, 2C19 and 2D6 enzymes. In human hepatocytes, CYP3A4 was significantly suppressed by MI-1851 and weak inhibition was noticed in regard to human microsomes and human recombinant CYP3A4. Finally, MI-1851 did not impair the viability and the oxidative status of primary human hepatocytes (up to 100 μM concentration). Based on these observations, furin inhibitor MI-1851 appears to be potential drug candidates in the treatment of COVID-19, due to the involvement of furin in S protein priming and thus activation of the pandemic SARS-CoV-2., (Copyright © 2022 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2022
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43. Structure-Based Optimization and Characterization of Macrocyclic Zika Virus NS2B-NS3 Protease Inhibitors.

Author

Huber S, Braun NJ, Schmacke LC, Quek JP, Murra R, Bender D, Hildt E, Luo D, Heine A, and Steinmetzer T

Subjects
Antiviral Agents chemistry, Antiviral Agents pharmacology, Humans, Peptide Hydrolases metabolism, Protease Inhibitors chemistry, Protease Inhibitors pharmacology, Viral Nonstructural Proteins antagonists & inhibitors, Zika Virus drug effects, Zika Virus enzymology, Zika Virus Infection drug therapy
Abstract

Zika virus (ZIKV) is a human pathogenic arbovirus. So far, neither a specific treatment nor a vaccination against ZIKV infections has been approved. Starting from our previously described lead structure, a series of 29 new macrocyclic inhibitors of the Zika virus protease containing different linker motifs have been synthesized. By selecting hydrophobic d-amino acids as part of the linker, numerous inhibitors with K i values < 5 nM were obtained. For 12 inhibitors, crystal structures in complex with the ZIKV protease up to 1.30 Å resolution were determined, which contribute to the understanding of the observed structure-activity relationship (SAR). In immunofluorescence assays, an antiviral effect was observed for compound 26 containing a d-homocyclohexylalanine residue in its linker segment. Due to its excellent selectivity profile and low cytotoxicity, this inhibitor scaffold could be a suitable starting point for the development of peptidic drugs against the Zika virus and related flaviviruses.

Published
2022
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44. Interspecies Comparisons of the Effects of Potential Antiviral 3-Amidinophenylalanine Derivatives on Cytochrome P450 1A2 Isoenzyme.

Author

Fedor Z, Szentkirályi-Tóth A, Nagy G, Szimrók Z, Varga E, Pászti A, Pászti Z, Jerzsele Á, Pilgram O, Steinmetzer T, Mátis G, Neogrády Z, and Pászti-Gere E

Abstract

In vitro models of animals vulnerable to SARS-CoV-2 infection can support the characterization of effective antiviral drugs, such as synthetic inhibitors of the transmembrane protease serine 2 (TMPRSS2). Changes in cytochrome P450 (CYP) 1A2 activities in the presence of the potential TMPRSS2/matriptase inhibitors (MI) were measured using fluorometric and luminescent assays. Furthermore, the cytotoxicity of these inhibitors was evaluated using the MTS method. In addition, 60 min-long microsomal stability assays were performed using an UPLC-MS/MS procedure to elucidate depletion rates of the inhibitors. CYP1A2 was influenced significantly by MI-463 and MI-1900 in rat microsomes, by MI-432 and MI-482 in beagle microsomes, and by MI-432, MI-463, MI-482, and MI-1900 in cynomolgus monkey microsomes. The IC50 values in monkey microsomes were 1.30 ± 0.14 µM, 2.4 ± 1.4 µM, 0.21 ± 0.09 µM, and 1.1 ± 0.8 µM for inhibitors MI-432, MI-463, MI-482, and MI-1900, respectively. The depletion rates of the parent compounds were lower than 50%, independently of the investigated animal species. The host cell factor TMPRSS2 is of key importance for the cross-species spread of SARS-CoV-2. Studies of the in vitro biotransformation of TMPRSS2 inhibitors provide additional information for the development of new antiviral drugs.

Published
2022
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45. In vitro interaction of potential antiviral TMPRSS2 inhibitors with human serum albumin and cytochrome P 450 isoenzymes.

Author

Pászti-Gere E, Szentkirályi A, Fedor Z, Nagy G, Szimrók Z, Pászti Z, Pászti A, Pilgram O, Steinmetzer T, Bodnárová S, Fliszár-Nyúl E, and Poór M

Subjects
Antiviral Agents analysis, Antiviral Agents pharmacology, Dose-Response Relationship, Drug, Humans, Isoenzymes metabolism, Microsomes, Liver drug effects, Microsomes, Liver metabolism, Protease Inhibitors analysis, Protease Inhibitors pharmacology, Protein Binding physiology, Serine Endopeptidases analysis, Spectrometry, Fluorescence methods, Tandem Mass Spectrometry methods, Antiviral Agents metabolism, Cytochrome P-450 Enzyme System metabolism, Protease Inhibitors metabolism, Serine Endopeptidases metabolism, Serum Albumin, Human metabolism
Abstract

The interactions of four sulfonylated Phe(3-Am)-derived inhibitors (MI-432, MI-463, MI-482 and MI-1900) of type II transmembrane serine proteases (TTSP) such as transmembrane protease serine 2 (TMPRSS2) were examined with serum albumin and cytochrome P450 (CYP) isoenzymes. Complex formation with albumin was investigated using fluorescence spectroscopy. Furthermore, microsomal hepatic CYP1A2, 2C9, 2C19 and 3A4 activities in presence of these inhibitors were determined using fluorometric assays. The inhibitory effects of these compounds on human recombinant CYP3A4 enzyme were also examined. In addition, microsomal stability assays (60-min long) were performed using an UPLC-MS/MS method to determine depletion percentage values of each compound. The inhibitors showed no or only weak interactions with albumin, and did not inhibit CYP1A2, 2C9 and 2C19. However, the compounds tested proved to be potent inhibitors of CYP3A4 in both assays performed. Within one hour, 20%, 12%, 14% and 25% of inhibitors MI-432, MI-463, MI-482 and MI-1900, respectively, were degraded. As essential host cell factor for the replication of the pandemic SARS-CoV-2, the TTSP TMPRSS2 emerged as an important target in drug design. Our study provides further preclinical data on the characterization of this type of inhibitors for numerous trypsin-like serine proteases., (Copyright © 2021 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2022
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46. Exposure of human intestinal epithelial cells and primary human hepatocytes to trypsin-like serine protease inhibitors with potential antiviral effect.

Author

Pászti-Gere E, Pomothy J, Jerzsele Á, Pilgram O, and Steinmetzer T

Subjects
Cell Line, Cell Survival drug effects, Epithelial Cells cytology, Epithelial Cells enzymology, Gene Expression Regulation drug effects, Hepatocytes cytology, Hepatocytes enzymology, Humans, Hydrogen Peroxide metabolism, Interleukin-6 genetics, Interleukin-6 metabolism, Interleukin-8 genetics, Interleukin-8 metabolism, Intestinal Mucosa cytology, Intestinal Mucosa drug effects, Intestinal Mucosa enzymology, Occludin genetics, Occludin metabolism, Oxidation-Reduction drug effects, Phenylalanine analogs & derivatives, Primary Cell Culture, Serine Endopeptidases genetics, Antiviral Agents pharmacology, Epithelial Cells drug effects, Hepatocytes drug effects, Phenylalanine pharmacology, Protease Inhibitors pharmacology, Serine Endopeptidases metabolism
Abstract

Human intestinal epithelial cell line-6 (HIEC-6) cells and primary human hepatocytes (PHHs) were treated with 3-amidinophenylalanine-derived inhibitors of trypsin-like serine proteases for 24 hours. It was proven that treatment with MI-1900 and MI-1907 was tolerated up to 50 μM in HIEC-6. These inhibitors did not cause elevations in extracellular H 2 O 2 levels and in the concentrations of interleukin (IL)-6 and IL-8 and did not alter occludin distribution in HIEC-6. It was also found that MI-1900 and MI-1907 up to 50 μM did not affect cell viability, IL-6 and IL-8 and occludin levels of PHH. Based on our findings, these inhibitors could be safely applicable at 50 μM in HIEC-6 and in PHH; however, redox status was disturbed in case of PHH. Moreover, it has recently been demonstrated that MI-1900 prevents the replication and spread of the new SARS-CoV-2 in infected Calu-3 cells, most-likely via an inhibition of the membrane-bound host protease TMPRSS2.

Published
2021
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47. OFF-State-Specific Inhibition of the Proprotein Convertase Furin.

Author

Dahms SO, Haider T, Klebe G, Steinmetzer T, and Brandstetter H

Subjects
Antiviral Agents chemistry, Catalytic Domain, Crystallography, X-Ray, Enzyme Assays, Furin chemistry, Furin metabolism, Guanidines chemistry, HEK293 Cells, Humans, Hydrazones chemistry, Kinetics, Proprotein Convertase 5 antagonists & inhibitors, Proprotein Convertase 5 chemistry, Protein Binding, Protein Conformation, Serine Proteinase Inhibitors chemistry, Subtilisins antagonists & inhibitors, Subtilisins chemistry, Antiviral Agents metabolism, Furin antagonists & inhibitors, Guanidines metabolism, Hydrazones metabolism, Serine Proteinase Inhibitors metabolism
Abstract

The pro-protein convertase furin is a highly specific serine protease involved in the proteolytic maturation of many proteins in the secretory pathway. It also activates surface proteins of many viruses including the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Furin inhibitors effectively suppress viral replication and thus are promising antiviral therapeutics with broad application potential. Polybasic substrate-like ligands typically trigger conformational changes shifting furin's active site cleft from the OFF-state to the ON-state. Here, we solved the X-ray structures of furin in complex with four different arginine mimetic compounds with reduced basicity. These guanylhydrazone-based inhibitor complexes showed for the first time an active site-directed binding mode to furin's OFF-state conformation. The compounds undergo unique interactions within the S1 pocket, largely different compared to substrate-like ligands. A second binding site was identified at the S4/S5 pocket of furin. Crystallography-based titration experiments confirmed the S1 site as the primary binding pocket. We also tested the proprotein convertases PC5/6 and PC7 for inhibition by guanylhydrazones and found an up to 7-fold lower potency for PC7. Interestingly, the observed differences in the K i values correlated with the sequence conservation of the PCs at the allosteric sodium binding site. Therefore, OFF-state-specific targeting of furin can serve as a valuable strategy for structure-based development of PC-selective small-molecule inhibitors.

Published
2021
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48. RNase P Inhibitors Identified as Aggregators.

Author

Schencking I, Schäfer EM, Scanlan JHW, Wenzel BM, Emmerich RE, Steinmetzer T, Diederich WE, Schlitzer M, and Hartmann RK

Subjects
Bacillus subtilis metabolism, High-Throughput Screening Assays, Humans, RNA, Bacterial, Staphylococcus aureus genetics, Ribonuclease P metabolism, Staphylococcal Infections
Abstract

RNase P is an essential enzyme responsible for tRNA 5'-end maturation. In most bacteria, the enzyme is a ribonucleoprotein consisting of a catalytic RNA subunit and a small protein cofactor termed RnpA. Several studies have reported small-molecule inhibitors directed against bacterial RNase P that were identified by high-throughput screenings. Using the bacterial RNase P enzymes from Thermotoga maritima, Bacillus subtilis, and Staphylococcus aureus as model systems, we found that such compounds, including RNPA2000 (and its derivatives), iriginol hexaacetate, and purpurin, induce the formation of insoluble aggregates of RnpA rather than acting as specific inhibitors. In the case of RNPA2000, aggregation was induced by Mg 2+ ions. These findings were deduced from solubility analyses by microscopy and high-performance liquid chromatography (HPLC), RnpA-inhibitor co-pulldown experiments, detergent addition, and RnpA titrations in enzyme activity assays. Finally, we used a B. subtilis RNase P depletion strain, whose lethal phenotype could be rescued by a protein-only RNase P of plant origin, for inhibition zone analyses on agar plates. These cell-based experiments argued against RNase P-specific inhibition of bacterial growth by RNPA2000. We were also unable to confirm the previously reported nonspecific RNase activity of S. aureus RnpA itself. Our results indicate that high-throughput screenings searching for bacterial RNase P inhibitors are prone to the identification of "false positives" that are also termed p an- a ssay in terference compound s (PAINS).

Published
2021
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49. How a Fragment Draws Attention to Selectivity Discriminating Features between the Related Proteases Trypsin and Thrombin.

Author

Sandner A, Ngo K, Schiebel J, Pizarroso AIM, Schmidt L, Wenzel B, Steinmetzer T, Ostermann A, Heine A, and Klebe G

Subjects
Binding Sites, Conserved Sequence, Crystallography, X-Ray, Humans, Hydrogen Bonding, Kinetics, Ligands, Models, Molecular, Mutagenesis, Site-Directed, Mutation, Structure-Activity Relationship, Substrate Specificity, Thrombin genetics, Trypsin genetics, Peptide Fragments chemistry, Peptide Fragments pharmacology, Thrombin chemistry, Trypsin chemistry
Abstract

In the S 1 pocket, the serine proteases thrombin and trypsin commonly feature Asp189 and a Ala190Ser and Glu192Gln exchange. Nevertheless, thrombin cleaves peptide chains solely after Arg, and trypsin after Lys and Arg. Thrombin exhibits a Na+-binding site next to Asp189, which is missing in trypsin. The fragment benzylamine shows direct H-bonding to Asp189 in trypsin, while in thrombin, it forms an H-bond to Glu192. A series of fragments and expanded ligands were studied against both enzymes and mutated variants by crystallography and ITC. The selectivity-determining features of both S 1 pockets are difficult to assign to one dominating factor. The Ala190Ser and Glu192Gln replacements may be regarded as highly conserved as no structural and affinity changes are observed between both proteases. With respect to charge distribution, Glu192, together with the thrombin-specific sodium ion, helps in creating an electrostatic gradient across the S 1 pocket. This feature is definitely absent in trypsin but important for selectivity along with solvation-pattern differences in the S 1 pocket.

Published
2021
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50. The Basicity Makes the Difference: Improved Canavanine-Derived Inhibitors of the Proprotein Convertase Furin.

Author

Lam van TV, Heindl MR, Schlutt C, Böttcher-Friebertshäuser E, Bartenschlager R, Klebe G, Brandstetter H, Dahms SO, and Steinmetzer T

Abstract

Furin activates numerous viral glycoproteins, and its inhibition prevents virus replication and spread. Through the replacement of arginine by the less basic canavanine, new inhibitors targeting furin in the trans-Golgi network were developed. These inhibitors exert potent antiviral activity in cell culture with much lower toxicity than arginine-derived analogues, most likely due to their reduced protonation in the blood circulation. Thus, despite its important physiological functions, furin might be a suitable antiviral drug target., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published
2021
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