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4. The Environmental Aspect of Denmark’s Foreign Policy at the Present Stage

Author

Soloveva, V. A.

Subjects
ДАНИЯ, КИТАЙ, ARCTIC COUNCIL, ECOLOGY, GREENLAND, CHINA, ГРЕНЛАНДИЯ, США, РОССИЯ, DENMARK, АРКТИЧЕСКИЙ СОВЕТ, ЭКОЛОГИЯ, RUSSIA, USA
Abstract

This article describes Danish government interaction with other countries in environmental issues. The article examines countries which have the closest cooperation with Denmark in environmental matters, and describes the main directions of their interaction. The article describes in which organizations Denmark has the most active environmental policy. В данной статье описывается взаимодействие Дании с другими государствами в вопросах экологии в рамках ее внешней политики. Рассматриваются страны, с которыми Дания имеет наиболее тесное сотрудничество в вопросах экологии, а также анализируются основные направления их взаимодействия. Описываются основные организации, в которых Дания наиболее ведет наиболее активную экологическую деятельность.

Published
2020

5. Экологический аспект внешней политики Дании на современном этапе

Author

Soloveva, V. A., Соловьева, В. А., Soloveva, V. A., and Соловьева, В. А.

Abstract

This article describes Danish government interaction with other countries in environmental issues. The article examines countries which have the closest cooperation with Denmark in environmental matters, and describes the main directions of their interaction. The article describes in which organizations Denmark has the most active environmental policy., В данной статье описывается взаимодействие Дании с другими государствами в вопросах экологии в рамках ее внешней политики. Рассматриваются страны, с которыми Дания имеет наиболее тесное сотрудничество в вопросах экологии, а также анализируются основные направления их взаимодействия. Описываются основные организации, в которых Дания наиболее ведет наиболее активную экологическую деятельность.

Published
2020

7. Supplementary data for article: Selaković, Ž.; Tran, J. P.; Kota, K. P.; Lazić, M.; Retterer, C.; Besh, R.; Panchal, R. G.; Soloveva, V.; Sean, V. A.; Jay, W. B.; et al. Second Generation of Diazachrysenes: Protection of Ebola Virus Infected Mice and Mechanism of Action. European Journal of Medicinal Chemistry 2019, 162, 32–50. https://doi.org/10.1016/j.ejmech.2018.10.061

Author

Selaković, Života, Tran, J.P., Kota, K.P., Lazić, Marija, Retterer, C., Besh, R., Panchal, R.G., Soloveva, V., Sean, V.A., Jay, W.B., Pavić, A., Verbić, Tatjana, Vasiljević, Branka, Kuehl, K., Duplantier, A.J., Bavari, S., Mudhasani, R., Šolaja, Bogdan A., Selaković, Života, Tran, J.P., Kota, K.P., Lazić, Marija, Retterer, C., Besh, R., Panchal, R.G., Soloveva, V., Sean, V.A., Jay, W.B., Pavić, A., Verbić, Tatjana, Vasiljević, Branka, Kuehl, K., Duplantier, A.J., Bavari, S., Mudhasani, R., and Šolaja, Bogdan A.

Published
2019

8. Second generation of diazachrysenes: Protection of Ebola virus infected mice and mechanism of action

Author

Selaković, Života, Tran, J.P., Kota, K.P., Lazić, Marija, Retterer, C., Besh, R., Panchal, R.G., Soloveva, V., Sean, V.A., Jay, W.B., Pavić, A., Verbić, Tatjana, Vasiljević, Branka, Kuehl, K., Duplantier, A.J., Bavari, S., Mudhasani, R., Šolaja, Bogdan A., Selaković, Života, Tran, J.P., Kota, K.P., Lazić, Marija, Retterer, C., Besh, R., Panchal, R.G., Soloveva, V., Sean, V.A., Jay, W.B., Pavić, A., Verbić, Tatjana, Vasiljević, Branka, Kuehl, K., Duplantier, A.J., Bavari, S., Mudhasani, R., and Šolaja, Bogdan A.

Abstract

Ebola virus (EBOV) causes a deadly hemorrhagic fever in humans and non-human primates. There is currently no FDA-approved vaccine or medication to counter this disease. Here, we report on the design, synthesis and anti-viral activities of two classes of compounds which show high potency against EBOV in both in vitro cell culture assays and in vivo mouse models Ebola viral disease. These compounds incorporate the structural features of cationic amphiphilic drugs (CAD), i.e they possess both a hydrophobic domain and a hydrophilic domain consisting of an ionizable amine functional group. These structural features enable easily diffusion into cells but once inside an acidic compartment their amine groups became protonated, ionized and remain trapped inside the acidic compartments such as late endosomes and lysosomes. These compounds, by virtue of their lysomotrophic functions, blocked EBOV entry. However, unlike other drugs containing a CAD moiety including chloroquine and amodiaquine, compounds reported in this study display faster kinetics of accumulation in the lysosomes, robust expansion of late endosome/lysosomes, relatively more potent suppression of lysosome fusion with other vesicular compartments and inhibition of cathepsins activities, all of which play a vital role in anti-EBOV activity. Furthermore, the diazachrysene 2 (ZSML08) that showed most potent activity against EBOV in in vitro cell culture assays also showed significant survival benefit with 100% protection in mouse models of Ebola virus disease, at a low dose of 10 mg/kg/day. Lastly, toxicity studies in vivo using zebrafish models suggest no developmental defects or toxicity associated with these compounds. Overall, these studies describe two new pharmacophores that by virtue of being potent lysosomotrophs, display potent anti-EBOV activities both in vitro and in vivo animal models of EBOV disease. © 2018 Elsevier Masson SAS

Published
2019

14. When robots are good: fully automated Thermo LAS robotic assay system with dual FLIPR TETRA and TAP SelecT robotic cell culture system.

Author

Soloveva V, LaRocque J, and McKillip E

Abstract

Cell-based assays for identification of biologically active small molecules from chemical libraries are becoming increasingly popular for HTS aimed at a variety of drug targets. Functional assays require good coordination between several independent processes during the run. This article describes our custom designed, fully automated Thermo LAS robotic system with integrated FLIPR[TETRA] and several additional peripheral elements such as a BioTek ELX washer unit, a PE Evolution pipettor, and PE FlexDrop dispenser. The Thermo LAS robotic control software, Polara, ensures that each and every plate of sensitive cells in a large batch experiences the same procedure as an individual plate assayed in the hands of a scientist. Such robotic systems can process hundreds of plates a day and require large-scale automated support for cell preparation. The TAP SelecT is an automated robotic system that can plate 100-300 plates of cells per day with defined accuracy and precision. In addition to plating cells, SelecT can also pass and expand cell lines. Here, we present a case study of a GPCR-mediated Ca-flux assay, where this robotic team enables high-throughput logistics even for an extremely sensitive cell-based assay. [ABSTRACT FROM AUTHOR]

Published
2006
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15. Investigating child sexual abuse material availability, searches, and users on the anonymous Tor network for a public health intervention strategy.

Author

Nurmi J, Paju A, Brumley BB, Insoll T, Ovaska AK, Soloveva V, Vaaranen-Valkonen N, Aaltonen M, and Arroyo D

Subjects
Child, Humans, Adult, Public Health, Search Engine, Health Behavior, Child Abuse, Sexual, Self-Injurious Behavior
Abstract

Tor is widely used for staying anonymous online and accessing onion websites; unfortunately, Tor is popular for distributing and viewing illicit child sexual abuse material (CSAM). From 2018 to 2023, we analyse 176,683 onion domains and find that one-fifth share CSAM. We find that CSAM is easily available using 21 out of the 26 most-used Tor search engines. We analyse 110,133,715 search sessions from the Ahmia.fi search engine and discover that 11.1% seek CSAM. When searching CSAM by age, 40.5% search for 11-year-olds and younger; 11.0% for 12-year-olds; 8.2% for 13-year-olds; 11.6% for 14-year-olds; 10.9% for 15-year-olds; and 12.7% for 16-year-olds. We demonstrate accurate filtering for search engines, introduce intervention, show a questionnaire for CSAM users, and analyse 11,470 responses. 65.3% of CSAM users first saw the material when they were children themselves, and half of the respondents first saw the material accidentally, demonstrating the availability of CSAM. 48.1% want to stop using CSAM. Some seek help through Tor, and self-help websites are popular. Our survey finds commonalities between CSAM use and addiction. Help-seeking correlates with increasing viewing duration and frequency, depression, anxiety, self-harming thoughts, guilt, and shame. Yet, 73.9% of help seekers have not been able to receive it., (© 2024. The Author(s).)

Published
2024
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16. Transcriptomics and cell painting analysis reveals molecular and morphological features associated with fed-batch production performance in CHO recombinant clones.

Author

Nelson L, Veling M, Farhangdoust F, Cai X, Huhn S, Soloveva V, and Chang M

Subjects
Cricetinae, Animals, Cricetulus, CHO Cells, Clone Cells, Recombinant Proteins genetics, Batch Cell Culture Techniques methods, Epigenesis, Genetic, Transcriptome genetics
Abstract

Stable, highly productive mammalian cells are critical for manufacturing affordable and effective biological medicines. Establishing a rational design of optimal biotherapeutic expression systems requires understanding how cells support the high demand for efficient biologics production. To that end, we performed transcriptomics and high-throughput imaging studies to identify putative genes and morphological features that underpin differences in antibody productivity among clones from a Chinese hamster ovary cell line. During log phase growth, we found that the expression of genes involved in biological processes related to cellular morphology varied significantly between clones with high specific productivity (qP > 35 pg/cell/day) and low specific productivity (qP < 20 pg/cell/day). At Day 10 of a fed-batch production run, near peak viable cell density, differences in gene expression related to metabolism, epigenetic regulation, and proliferation became prominent. Furthermore, we identified a subset of genes whose expression predicted overall productivity, including glutathione synthetase (Gss) and lactate dehydrogenase A (LDHA). Finally, we demonstrated the feasibility of cell painting coupled with high-throughput imaging to assess the morphological properties of intracellular organelles in relation to growth and productivity in fed-batch production. Our efforts lay the groundwork for systematic elucidation of clone performance using a multiomics approach that can guide future process design strategies., (© 2023 The Authors. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published
2023
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17. In Silico Screening of Inhibitors of the Venezuelan Equine Encephalitis Virus Nonstructural Protein 2 Cysteine Protease.

Author

Hu X, Morazzani E, Compton JR, Harmon M, Soloveva V, Glass PJ, Garcia AD, Marugan JJ, and Legler PM

Subjects
Animals, Horses, Virus Replication, Cysteine Proteinase Inhibitors pharmacology, Encephalitis Virus, Venezuelan Equine, Cysteine Proteases
Abstract

The Venezuelan equine encephalitis virus (VEEV) nonstructural protein 2 (nsP2) cysteine protease (EC 3.4.22.B79) is essential for viral replication. High throughput in silico/in vitro screening using a focused set of known cysteine protease inhibitors identified two epoxysuccinyl prodrugs, E64d and CA074 methyl ester (CA074me) and a reversible oxindole inhibitor. Here, we determined the X-ray crystal structure of the CA074-inhibited nsP2 protease and compared it with our E64d-inhibited structure. We found that the two inhibitors occupy different locations in the protease. We designed hybrid inhibitors with improved potency. Virus yield reduction assays confirmed that the viral titer was reduced by >5 logs with CA074me. Cell-based assays showed reductions in viral replication for CHIKV, VEEV, and WEEV, and weaker inhibition of EEEV by the hybrid inhibitors. The most potent was NCGC00488909-01 which had an EC 50 of 1.76 µM in VEEV-Trd-infected cells; the second most potent was NCGC00484087 with an EC 50 = 7.90 µM. Other compounds from the NCATS libraries such as the H1 antihistamine oxatomide (>5-log reduction), emetine, amsacrine an intercalator (NCGC0015113), MLS003116111-01, NCGC00247785-13, and MLS00699295-01 were found to effectively reduce VEEV viral replication in plaque assays. Kinetic methods demonstrated time-dependent inhibition by the hybrid inhibitors of the protease with NCGC00488909-01 (K i = 3 µM) and NCGC00484087 (K i = 5 µM). Rates of inactivation by CA074 in the presence of 6 mM CaCl 2 , MnCl 2 , or MgCl 2 were measured with varying concentrations of inhibitor, Mg 2+ and Mn 2+ slightly enhanced inhibitor binding (3 to 6-fold). CA074 inhibited not only the VEEV nsP2 protease but also that of CHIKV and WEEV.

Published
2023
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18. On-Demand Patient-Specific Phenotype-to-Genotype Ebola Virus Characterization.

Author

Beitzel BF, Radoshitzky SR, Di Paola N, Brannan JM, Kimmel D, Caviness K, Soloveva V, Yu S, Postnikova EN, Finch CL, Liu H, Prugar L, Bakken R, Dye JM, Kugelman JR, Cunningham JM, Sanchez-Lockhart M, Kuhn JH, and Palacios G

Subjects
Cell Line, Disease Outbreaks, Ebolavirus immunology, Ebolavirus pathogenicity, Genome, Viral genetics, Genotype, Hemorrhagic Fever, Ebola metabolism, Hemorrhagic Fever, Ebola virology, Humans, Medical Countermeasures, Phenotype, Phylogeny, Ebolavirus genetics, Hemorrhagic Fever, Ebola genetics, Reverse Genetics methods
Abstract

Biosafety, biosecurity, logistical, political, and technical considerations can delay or prevent the wide dissemination of source material containing viable virus from the geographic origin of an outbreak to laboratories involved in developing medical countermeasures (MCMs). However, once virus genome sequence information is available from clinical samples, reverse-genetics systems can be used to generate virus stocks de novo to initiate MCM development. In this study, we developed a reverse-genetics system for natural isolates of Ebola virus (EBOV) variants Makona, Tumba, and Ituri, which have been challenging to obtain. These systems were generated starting solely with in silico genome sequence information and have been used successfully to produce recombinant stocks of each of the viruses for use in MCM testing. The antiviral activity of MCMs targeting viral entry varied depending on the recombinant virus isolate used. Collectively, selecting and synthetically engineering emerging EBOV variants and demonstrating their efficacy against available MCMs will be crucial for answering pressing public health and biosecurity concerns during Ebola disease (EBOD) outbreaks.

Published
2021
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19. Intensive Care Unit-Like Care of Nonhuman Primates with Ebola Virus Disease.

Author

Blair PW, Kortepeter MG, Downey LG, Madar CS, Downs IL, Martins KA, Rossi F, Williams JA, Madar A, Schellhase CW, Bearss JJ, Zeng X, Bavari S, Soloveva V, Wells JB, Stuthman KS, Garza NL, Vantongeren SA, Donnelly GC, Steffens J, Kalapaca J, Wiseman P, Henry J, Marko S, Chappell M, Lugo-Roman L, Ramos-Rivera E, Hofer C, Blue E, Moore J, Fiallos J, Wetzel D, Pratt WD, Unangst T, Miller A, Sola JJ, Reisler RB, and Cardile AP

Subjects
Animals, Disease Models, Animal, Ebolavirus, Macaca mulatta, Primates, Retrospective Studies, Critical Care, Hemorrhagic Fever, Ebola therapy, Intensive Care Units
Abstract

Background: Ebola virus disease (EVD) supportive care strategies are largely guided by retrospective observational research. This study investigated the effect of EVD supportive care algorithms on duration of survival in a controlled nonhuman primate (NHP) model., Methods: Fourteen rhesus macaques were challenged intramuscularly with a target dose of Ebola virus (1000 plaque-forming units; Kikwit). NHPs were allocated to intensive care unit (ICU)-like algorithms (n = 7), intravenous fluids plus levofloxacin (n = 2), or a control group (n = 5). The primary outcome measure was duration of survival, and secondary outcomes included changes in clinical laboratory values., Results: Duration of survival was not significantly different between the pooled ICU-like algorithm and control groups (8.2 vs 6.9 days of survival; hazard ratio; 0.50; P = .25). Norepinephrine was effective in transiently maintaining baseline blood pressure. NHPs treated with ICU-like algorithms had delayed onset of liver and kidney injury., Conclusions: While an obvious survival difference was not observed with ICU-like care, clinical observations from this model may aid in EVD supportive care NHP model refinement., (Published by Oxford University Press for the Infectious Diseases Society of America 2020.)

Published
2021
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20. The DHODH inhibitor PTC299 arrests SARS-CoV-2 replication and suppresses induction of inflammatory cytokines.

Author

Luban J, Sattler RA, Mühlberger E, Graci JD, Cao L, Weetall M, Trotta C, Colacino JM, Bavari S, Strambio-De-Castillia C, Suder EL, Wang Y, Soloveva V, Cintron-Lue K, Naryshkin NA, Pykett M, Welch EM, O'Keefe K, Kong R, Goodwin E, Jacobson A, Paessler S, and Peltz SW

Subjects
Animals, Chlorocebus aethiops, Cytokine Release Syndrome drug therapy, Cytokines immunology, Dihydroorotate Dehydrogenase, HeLa Cells, Humans, Inflammation drug therapy, Inflammation virology, Vero Cells, COVID-19 Drug Treatment, Antiviral Agents pharmacology, Carbamates pharmacology, Carbazoles pharmacology, Cytokines antagonists & inhibitors, Oxidoreductases Acting on CH-CH Group Donors antagonists & inhibitors, SARS-CoV-2 drug effects, Virus Replication drug effects
Abstract

The coronavirus disease 2019 (COVID-19) pandemic has created an urgent need for therapeutics that inhibit the SARS-COV-2 virus and suppress the fulminant inflammation characteristic of advanced illness. Here, we describe the anti-COVID-19 potential of PTC299, an orally bioavailable compound that is a potent inhibitor of dihydroorotate dehydrogenase (DHODH), the rate-limiting enzyme of the de novo pyrimidine nucleotide biosynthesis pathway. In tissue culture, PTC299 manifests robust, dose-dependent, and DHODH-dependent inhibition of SARS-COV-2 replication (EC 50 range, 2.0-31.6 nM) with a selectivity index >3,800. PTC299 also blocked replication of other RNA viruses, including Ebola virus. Consistent with known DHODH requirements for immunomodulatory cytokine production, PTC299 inhibited the production of interleukin (IL)-6, IL-17A (also called IL-17), IL-17 F, and vascular endothelial growth factor (VEGF) in tissue culture models. The combination of anti-SARS-CoV-2 activity, cytokine inhibitory activity, and previously established favorable pharmacokinetic and human safety profiles render PTC299 a promising therapeutic for COVID-19., (Copyright © 2020. Published by Elsevier B.V.)

Published
2021
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21. Vinyl Sulfone-Based Inhibitors of Nonstructural Protein 2 Block the Replication of Venezuelan Equine Encephalitis Virus.

Author

Zhang H, Harmon M, Radoshitzky SR, Soloveva V, Kane CD, Duplantier AJ, and Ogungbe IV

Abstract

Emerging infectious diseases like those caused by arboviruses such as Venezuelan equine encephalitis virus (VEEV) pose a serious threat to public health systems. Development of medical countermeasures against emerging infectious diseases are of utmost importance. In this work, an acrylate and vinyl sulfone-based chemical series was investigated as promising starting scaffolds against VEEV and as inhibitors of the cysteine protease domain of VEEV's nonstructural protein 2 (nsP2). Primary screen and dose response studies were performed to evaluate the potency and cytotoxicity of the compounds. The results provide structural insights into a new class of potent nonpeptidic covalent inhibitors of nsP2 cysteine protease represented by compound 11 (VEEV TrD, EC 50 = 2.4 μM (HeLa), 1.6 μM (Vero E6)). These results may facilitate the evolution of the compounds into selective and broad-spectrum anti-alphaviral drug leads., Competing Interests: The authors declare no competing financial interest.

Published
2020
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22. The DHODH Inhibitor PTC299 Arrests SARS-CoV-2 Replication and Suppresses Induction of Inflammatory Cytokines.

Author

Luban J, Sattler R, Mühlberger E, Graci JD, Cao L, Weetall M, Trotta C, Colacino JM, Bavari S, Strambio-De-Castillia C, Suder EL, Wang Y, Soloveva V, Cintron-Lue K, Naryshkin NA, Pykett M, Welch EM, O'Keefe K, Kong R, Goodwin E, Jacobson A, Paessler S, and Peltz S

Abstract

The coronavirus disease 2019 (COVID-19) pandemic has created an urgent need for therapeutics that inhibit the SARS-CoV-2 virus and suppress the fulminant inflammation characteristic of advanced illness. Here, we describe the anti-COVID-19 potential of PTC299, an orally available compound that is a potent inhibitor of dihydroorotate dehydrogenase (DHODH), the rate-limiting enzyme of the de novo pyrimidine biosynthesis pathway. In tissue culture, PTC299 manifests robust, dose-dependent, and DHODH-dependent inhibition of SARS CoV-2 replication (EC 50 range, 2.0 to 31.6 nM) with a selectivity index >3,800. PTC299 also blocked replication of other RNA viruses, including Ebola virus. Consistent with known DHODH requirements for immunomodulatory cytokine production, PTC299 inhibited the production of interleukin (IL)-6, IL-17A (also called IL-17), IL-17F, and vascular endothelial growth factor (VEGF) in tissue culture models. The combination of anti-SARS-CoV-2 activity, cytokine inhibitory activity, and previously established favorable pharmacokinetic and human safety profiles render PTC299 a promising therapeutic for COVID-19.

Published
2020
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23. Selective Targeting of Virus Replication by Proton Pump Inhibitors.

Author

Watanabe SM, Ehrlich LS, Strickland M, Li X, Soloveva V, Goff AJ, Stauft CB, Bhaduri-McIntosh S, Tjandra N, and Carter C

Subjects
HeLa Cells, Humans, 2-Pyridinylmethylsulfinylbenzimidazoles pharmacology, HIV-1 physiology, Proton Pump Inhibitors pharmacology, Virus Replication drug effects
Abstract

Two proton pump inhibitors, tenatoprazole and esomeprazole, were previously shown to inhibit HIV-1 egress by blocking the interaction between Tsg101, a member of the ESCRT-I complex, and ubiquitin. Here, we deepen our understanding of prazole budding inhibition by studying a range of viruses in the presence of tenatoprazole. Furthermore, we investigate the relationship between the chemistry of prodrug activation and HIV-1 inhibition for diverse prazoles currently on the market. We report that tenatoprazole is capable of inhibiting the replication of members of the enveloped filo, alpha, and herpes virus families but not the flavivirus group and not the non-enveloped poliovirus. Another key finding is that prazole prodrugs must be activated inside the cell, while their rate of activation in vitro correlated to their efficacy in cells. Our study lays the groundwork for future efforts to repurpose prazole-based compounds as antivirals that are both broad-spectrum and selective in nature.

Published
2020
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24. Cholesterol-conjugated stapled peptides inhibit Ebola and Marburg viruses in vitro and in vivo.

Author

Pessi A, Bixler SL, Soloveva V, Radoshitzky S, Retterer C, Kenny T, Zamani R, Gomba G, Gharabeih D, Wells J, Wetzel KS, Warren TK, Donnelly G, Van Tongeren SA, Steffens J, Duplantier AJ, Kane CD, Vicat P, Couturier V, Kester KE, Shiver J, Carter K, and Bavari S

Subjects
Amino Acid Sequence, Animals, Antiviral Agents chemistry, Cell Line, Cholesterol chemistry, Disease Models, Animal, Hemorrhagic Fever, Ebola virology, Marburg Virus Disease virology, Mice, Microbial Sensitivity Tests, Models, Molecular, Peptides chemistry, Protein Conformation, Structure-Activity Relationship, Antiviral Agents pharmacology, Ebolavirus drug effects, Marburgvirus drug effects, Peptides pharmacology
Abstract

Filoviridae currently includes five official and one proposed genera. Genus Ebolavirus includes five established and one proposed ebolavirus species for Bombali virus (BOMV), Bundibugyo virus (BDBV), Ebola virus (EBOV), Reston virus (RESTV), Sudan virus (SUDV) and Taï Forest virus (TAFV), and genus Marburgvirus includes a single species for Marburg virus (MARV) and Ravn virus (RAVV). Ebola virus (EBOV) has emerged as a significant public health concern since the 2013-2016 Ebola Virus Disease outbreak in Western Africa. Currently, there are no therapeutics approved and the need for Ebola-specific therapeutics remains a gap. In search for anti-Ebola therapies we tested the idea of using inhibitory properties of peptides corresponding to the C-terminal heptad-repeat (HR2) domains of class I fusion proteins against EBOV infection. The fusion protein GP 2 of EBOV belongs to class I, suggesting that a similar strategy to HIV may be applied to inhibit EBOV infection. The serum half-life of peptides was expanded by cholesterol conjugation to allow daily dosing. The peptides were further constrained to stabilize a helical structure to increase the potency of inhibition. The EC 50 s of lead peptides were in low micromolar range, as determined by a high-content imaging test of EBOV-infected cells. Lead peptides were tested in an EBOV lethal mouse model and efficacy of the peptides were determined following twice-daily administration of peptides for 9 days. The most potent peptide was able to protect mice from lethal challenge of mouse-adapted Ebola virus. These data show that engineered peptides coupled with cholesterol can inhibit viral production, protect mice against lethal EBOV infection, and may be used to build novel therapeutics against EBOV., (Published by Elsevier B.V.)

Published
2019
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25. The FDA-Approved Oral Drug Nitazoxanide Amplifies Host Antiviral Responses and Inhibits Ebola Virus.

Author

Jasenosky LD, Cadena C, Mire CE, Borisevich V, Haridas V, Ranjbar S, Nambu A, Bavari S, Soloveva V, Sadukhan S, Cassell GH, Geisbert TW, Hur S, and Goldfeld AE

Abstract

Here, we show that the US Food and Drug Administration-approved oral drug nitazoxanide (NTZ) broadly amplifies the host innate immune response to viruses and inhibits Ebola virus (EBOV) replication. We find that NTZ enhances retinoic-acid-inducible protein I (RIG-I)-like-receptor, mitochondrial antiviral signaling protein, interferon regulatory factor 3, and interferon activities and induces transcription of the antiviral phosphatase GADD34. NTZ significantly inhibits EBOV replication in human cells through its effects on RIG-I and protein kinase R (PKR), suggesting that it counteracts EBOV VP35 protein's ability to block RIG-I and PKR sensing of EBOV. NTZ also inhibits a second negative-strand RNA virus, vesicular stomatitis virus (VSV), through RIG-I and GADD34, but not PKR, consistent with VSV's distinct host innate immune evasion mechanisms. Thus, NTZ counteracts varied virus-specific immune evasion strategies by generally enhancing the RNA sensing and interferon axis that is triggered by foreign cytoplasmic RNA exposure, and holds promise as an oral therapy against EBOV., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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26. Second generation of diazachrysenes: Protection of Ebola virus infected mice and mechanism of action.

Author

Selaković Ž, Tran JP, Kota KP, Lazić M, Retterer C, Besch R, Panchal RG, Soloveva V, Sean VA, Jay WB, Pavić A, Verbić T, Vasiljević B, Kuehl K, Duplantier AJ, Bavari S, Mudhasani R, and Šolaja BA

Subjects
Animals, Antiviral Agents pharmacology, Antiviral Agents toxicity, Chrysenes pharmacology, Chrysenes toxicity, Lysosomes metabolism, Mice, Surface-Active Agents, Virus Internalization drug effects, Zebrafish, Antiviral Agents chemistry, Chrysenes chemistry, Ebolavirus drug effects, Hemorrhagic Fever, Ebola drug therapy
Abstract

Ebola virus (EBOV) causes a deadly hemorrhagic fever in humans and non-human primates. There is currently no FDA-approved vaccine or medication to counter this disease. Here, we report on the design, synthesis and anti-viral activities of two classes of compounds which show high potency against EBOV in both in vitro cell culture assays and in vivo mouse models Ebola viral disease. These compounds incorporate the structural features of cationic amphiphilic drugs (CAD), i.e they possess both a hydrophobic domain and a hydrophilic domain consisting of an ionizable amine functional group. These structural features enable easily diffusion into cells but once inside an acidic compartment their amine groups became protonated, ionized and remain trapped inside the acidic compartments such as late endosomes and lysosomes. These compounds, by virtue of their lysomotrophic functions, blocked EBOV entry. However, unlike other drugs containing a CAD moiety including chloroquine and amodiaquine, compounds reported in this study display faster kinetics of accumulation in the lysosomes, robust expansion of late endosome/lysosomes, relatively more potent suppression of lysosome fusion with other vesicular compartments and inhibition of cathepsins activities, all of which play a vital role in anti-EBOV activity. Furthermore, the diazachrysene 2 (ZSML08) that showed most potent activity against EBOV in in vitro cell culture assays also showed significant survival benefit with 100% protection in mouse models of Ebola virus disease, at a low dose of 10 mg/kg/day. Lastly, toxicity studies in vivo using zebrafish models suggest no developmental defects or toxicity associated with these compounds. Overall, these studies describe two new pharmacophores that by virtue of being potent lysosomotrophs, display potent anti-EBOV activities both in vitro and in vivo animal models of EBOV disease., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published
2019
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27. Triterpenoids manipulate a broad range of virus-host fusion via wrapping the HR2 domain prevalent in viral envelopes.

Author

Si L, Meng K, Tian Z, Sun J, Li H, Zhang Z, Soloveva V, Li H, Fu G, Xia Q, Xiao S, Zhang L, and Zhou D

Subjects
Amino Acid Sequence, HEK293 Cells, HeLa Cells, Hemorrhagic Fever, Ebola metabolism, Hemorrhagic Fever, Ebola virology, Humans, Protein Conformation, Protein Domains, Viral Envelope Proteins chemistry, Ebolavirus drug effects, Hemorrhagic Fever, Ebola drug therapy, Membrane Fusion, Repetitive Sequences, Amino Acid, Triterpenes pharmacology, Viral Envelope Proteins metabolism, Virus Internalization drug effects
Abstract

A trimer-of-hairpins motif has been identified in triggering virus-cell fusion within a variety of viral envelopes. Chemically manipulating such a motif represents current repertoire of viral fusion inhibitors. Here, we report that triterpenoids, a class of natural products, antagonize this trimer-of-hairpins via its constitutive heptad repeat-2 (HR2), a prevalent α-helical coil in class I viral fusion proteins. Triterpenoids inhibit the entry of Ebola, Marburg, HIV, and influenza A viruses with distinct structure-activity relationships. Specifically, triterpenoid probes capture the viral envelope via photocrosslinking HR2. Profiling the Ebola HR2-triterpenoid interactions using amino acid substitution, surface plasmon resonance, and nuclear magnetic resonance revealed six residues accessible to triterpenoids, leading to wrapping of the hydrophobic helix and blocking of the HR1-HR2 interaction critical in the trimer-of-hairpins formation. This finding was also observed in the envelopes of HIV and influenza A viruses and might potentially extend to a broader variety of viruses, providing a mechanistic insight into triterpenoid-mediated modulation of viral fusion.

Published
2018
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28. Repurposing potential of 1st generation H 1 -specific antihistamines as anti-filovirus therapeutics.

Author

Schafer A, Cheng H, Xiong R, Soloveva V, Retterer C, Mo F, Bavari S, Thatcher G, and Rong L

Subjects
A549 Cells, Diphenhydramine pharmacology, Drug Evaluation, Preclinical, HEK293 Cells, Humans, Inhibitory Concentration 50, Microbial Sensitivity Tests, Molecular Docking Simulation, Piperazines pharmacology, Virus Internalization drug effects, Antiviral Agents pharmacology, Drug Repositioning, Filoviridae drug effects, Histamine Antagonists pharmacology
Abstract

Ebola and Marburg are filoviruses and biosafety level 4 pathogens responsible for causing severe hemorrhagic fevers in humans with mortality rates up to 90%. The most recent outbreak in West Africa resulted in approximately 11,310 deaths in 28,616 reported cases. Currently there are no FDA-approved vaccines or therapeutics to treat infections of these deadly viruses. Recently we screened an FDA-approved drug library and identified numerous G protein-coupled receptor (GPCR) antagonists including antihistamines possessing anti-filovirus properties. Antihistamines are attractive targets for drug repurposing because of their low cost and ease of access due to wide use. In this report we identify common over the counter antihistamines, such as diphenhydramine (Benadryl) and chlorcyclizine (Ahist) as potential candidates for repurposing as anti-filovirus agents. Furthermore, we demonstrate that this potential is wide-spread through the 1st generation of H 1 -specific antihistamines but is not present in newer drugs or drugs targeting H 2 , H 3 and H 4 receptors. We showed that the filovirus entry inhibition is not dependent on the classical antagonism of cell surface histamine or muscarinic acetylcholine receptors but occurs in the endosome, like the cathepsin inhibitor CA-074. Finally, using extensive docking studies we showed the potential for these drugs to bind directly to the EBOV-GP at the same site as toremifene. These findings suggest that the 1st generation antihistamines are excellent candidates for repurposing as anti-filovirus therapeutics and can be further optimized for removal of unwanted histamine or muscarinic receptor interactions without loss of anti-filovirus efficacy., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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29. Identification of Potent Ebola Virus Entry Inhibitors with Suitable Properties for in Vivo Studies.

Author

Liu H, Tian Y, Lee K, Krishnan P, Wang MK, Whelan S, Mevers E, Soloveva V, Dedic B, Liu X, and Cunningham JM

Subjects
Animals, Chlorocebus aethiops, Drug Evaluation, Preclinical, Esters chemistry, Esters pharmacology, Humans, Hydrophobic and Hydrophilic Interactions, Vero Cells, Ebolavirus drug effects, Ebolavirus physiology, Virus Internalization drug effects
Abstract

Previous studies identified an adamantane dipeptide piperazine 3.47 that inhibits Ebola virus (EBOV) infection by targeting the essential receptor Niemann-Pick C1 (NPC1). The physicochemical properties of 3.47 limit its potential for testing in vivo. Optimization by improving potency, reducing hydrophobicity, and replacing labile moieties identified 3.47 derivatives with improved in vitro ADME properties that are also highly active against EBOV infection, including when tested in the presence of 50% normal human serum (NHS). In addition, 3A4 was identified as the major cytochrome P450 isoform that metabolizes these compounds, and accordingly, mouse microsome stability was significantly improved when tested in the presence of the CYP3A4 inhibitor ritonavir that is approved for clinical use as a booster of anti-HIV drugs. Oral administration of the EBOV inhibitors with ritonavir resulted in a pharmacokinetic profile that supports a b.i.d. dosing regimen for efficacy studies in mice.

Published
2018
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30. A novel sheet-like virus particle array is a hallmark of Zika virus infection.

Author

Liu J, Kline BA, Kenny TA, Smith DR, Soloveva V, Beitzel B, Pang S, Lockett S, Hess HF, Palacios G, Kuhn JH, Sun MG, and Zeng X

Subjects
Animals, Brain cytology, Brain virology, Cell Membrane virology, Chlorocebus aethiops, Host-Pathogen Interactions, Humans, Mice, Microscopy instrumentation, Microscopy methods, RNA, Viral genetics, RNA, Viral isolation & purification, Vero Cells, Virus Assembly, Virus Internalization, Virus Release, Virus Replication, Zika Virus physiology, Zika Virus Infection physiopathology, Cell Membrane ultrastructure, Virion ultrastructure, Zika Virus chemistry, Zika Virus ultrastructure, Zika Virus Infection virology
Abstract

Zika virus (ZIKV) is an emerging flavivirus that caused thousands of human infections in recent years. Compared to other human flaviviruses, ZIKV replication is not well understood. Using fluorescent, transmission electron, and focused ion beam-scanning electron microscopy, we examined ZIKV replication dynamics in Vero 76 cells and in the brains of infected laboratory mice. We observed the progressive development of a perinuclear flaviviral replication factory both in vitro and in vivo. In vitro, we illustrated the ZIKV lifecycle from particle cell entry to egress. ZIKV particles assembled and aggregated in an induced convoluted membrane structure and ZIKV strain-specific membranous vesicles. While most mature virus particles egressed via membrane budding, some particles also likely trafficked through late endosomes and egressed through membrane abscission. Interestingly, we consistently observed a novel sheet-like virus particle array consisting of a single layer of ZIKV particles. Our study further defines ZIKV replication and identifies a novel hallmark of ZIKV infection.

Published
2018
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31. Intracellular conversion and in vivo dose response of favipiravir (T-705) in rodents infected with Ebola virus.

Author

Bixler SL, Bocan TM, Wells J, Wetzel KS, Van Tongeren SA, Garza NL, Donnelly G, Cazares LH, Soloveva V, Welch L, Epstein C, Liang LF, Giesing D, Lenk R, Bavari S, and Warren TK

Subjects
Amides metabolism, Animals, Antiviral Agents metabolism, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Cell Line, Cell Survival drug effects, Cytoplasm metabolism, Disease Models, Animal, Dose-Response Relationship, Drug, Humans, Marburgvirus drug effects, Mice, Inbred C57BL, Pyrazines metabolism, Survival Analysis, Virus Replication drug effects, Amides pharmacology, Amides therapeutic use, Ebolavirus drug effects, Hemorrhagic Fever, Ebola drug therapy, Pyrazines pharmacology, Pyrazines therapeutic use
Abstract

During the 2013-2016 Ebola virus (EBOV) outbreak in West Africa, our team at USAMRIID evaluated the antiviral activity of a number of compounds, including favipiravir (T-705), in vitro and in mouse and nonhuman primate (NHP) models of Ebola virus disease. In this short communication, we present our findings for favipiravir in cell culture and in mice, while an accompanying paper presents the results of NHP studies. We confirmed previous reports that favipiravir has anti-EBOV activity in mice. Additionally, we found that the active form of favipiravir is generated in mice in tissues relevant for the pathogenesis of EBOV infection. Finally, we observed that protection can be achieved in mice down to 8 mg/kg/day, which is lower than the dosing regimens previously reported. An accompanying paper reports the results of treating nonhuman primates infected with EBOV or with Marburg virus with oral or intravenous favipiravir., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2018
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32. Efficacy of favipiravir (T-705) in nonhuman primates infected with Ebola virus or Marburg virus.

Author

Bixler SL, Bocan TM, Wells J, Wetzel KS, Van Tongeren SA, Dong L, Garza NL, Donnelly G, Cazares LH, Nuss J, Soloveva V, Koistinen KA, Welch L, Epstein C, Liang LF, Giesing D, Lenk R, Bavari S, and Warren TK

Subjects
Animals, Antiviral Agents administration & dosage, Antiviral Agents pharmacology, Disease Models, Animal, Dose-Response Relationship, Drug, Female, Hemorrhagic Fever, Ebola pathology, Hemorrhagic Fever, Ebola virology, Male, Marburg Virus Disease pathology, Marburg Virus Disease virology, Primates, RNA, Viral blood, Survival Analysis, Viral Load drug effects, Amides administration & dosage, Amides pharmacology, Ebolavirus drug effects, Hemorrhagic Fever, Ebola drug therapy, Marburg Virus Disease drug therapy, Marburgvirus drug effects, Pyrazines administration & dosage, Pyrazines pharmacology
Abstract

Favipiravir is a broad-spectrum antiviral agent that has demonstrated efficacy against Ebola virus (EBOV) in rodents. However, there are no published reports of favipiravir efficacy for filovirus infection of nonhuman primates (NHPs). Here we evaluated the pharmacokinetic profile of favipiravir in NHPs, as well as in vivo efficacy against two filoviruses, EBOV and Marburg virus (MARV). While no survival benefit was observed in two studies employing once- or twice-daily oral dosing of favipiravir during EBOV infection of NHPs, an antiviral effect was observed in terms of extended time-to-death and reduced levels of viral RNA. However, oral dosing in biosafety level-4 (BSL-4) presents logistical and technical challenges, and repeated anesthesia events may potentially worsen survival outcome in animals. For the third study of treatment of MARV infection, we therefore made use of catheters, jackets, and tethers for intravenous (IV) dosing and blood collection, which minimized the requirement for repeated anesthesia events. When MARV infection was treated with IV favipiravir, five of six animals (83%) survived infection, while all untreated NHPs succumbed. An accompanying report presents the results of favipiravir treatment of EBOV infection in mice., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2018
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33. Enhancing the antiviral potency of ER α-glucosidase inhibitor IHVR-19029 against hemorrhagic fever viruses in vitro and in vivo.

Author

Ma J, Zhang X, Soloveva V, Warren T, Guo F, Wu S, Lu H, Guo J, Su Q, Shen H, Solon E, Comunale MA, Mehta A, Guo JT, Bavari S, Du Y, Block TM, and Chang J

Subjects
Animals, Antiviral Agents pharmacokinetics, Cell Line, Cells, Cultured, Disease Models, Animal, Dose-Response Relationship, Drug, Drug Synergism, Glycoside Hydrolase Inhibitors pharmacokinetics, Hemorrhagic Fever, Ebola drug therapy, Hemorrhagic Fever, Ebola metabolism, Humans, Mice, Virus Replication drug effects, alpha-Glucosidases genetics, alpha-Glucosidases metabolism, Antiviral Agents pharmacology, Ebolavirus drug effects, Glycoside Hydrolase Inhibitors pharmacology, Hemorrhagic Fever, Ebola virology
Abstract

Targeting host functions essential for viral replication has been considered as a broad spectrum and resistance-refractory antiviral approach. However, only a few host functions have, thus far, been validated as broad-spectrum antiviral targets in vivo. ER α-glucosidases I and II have been demonstrated to be essential for the morphogenesis of many enveloped viruses, including members from four families of viruses causing hemorrhagic fever. In vivo antiviral efficacy of various iminosugar-based ER α-glucosidase inhibitors has been reported in animals infected with Dengue, Japanese encephalitis, Ebola, Marburg and influenza viruses. Herein, we established Huh7.5-derived cell lines with ER α-glucosidase I or II knockout using CRISPR/Cas9 and demonstrated that the replication of Dengue, Yellow fever and Zika viruses was reduced by only 1-2 logs in the knockout cell lines. The results clearly indicate that only a partial suppression of viral replication can possibly be achieved with a complete inhibition of ER-α-glucosidases I or II by their inhibitors. We therefore explore to improve the antiviral efficacy of a lead iminosugar IHVR-19029 through combination with another broad-spectrum antiviral agent, favipiravir (T-705). Indeed, combination of IHVR-19029 and T-705 synergistically inhibited the replication of Yellow fever and Ebola viruses in cultured cells. Moreover, in a mouse model of Ebola virus infection, combination of sub-optimal doses of IHVR-19029 and T-705 significantly increased the survival rate of infected animals. We have thus proved the concept of combinational therapeutic strategy for the treatment of viral hemorrhagic fevers with broad spectrum host- and viral- targeting antiviral agents., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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34. Retrovirus-Based Surrogate Systems for BSL-2 High-Throughput Screening of Antivirals Targeting BSL-3/4 Hemorrhagic Fever-Causing Viruses.

Author

Radoshitzky SR, Soloveva V, Gharaibeh D, Kuhn JH, and Bavari S

Subjects
Antiviral Agents therapeutic use, Hemorrhagic Fevers, Viral drug therapy, Humans, Retroviridae drug effects, Retroviridae genetics, Virus Internalization drug effects, Hemorrhagic Fevers, Viral virology
Abstract

The majority of viruses causing hemorrhagic fever in humans are Risk Group 3 or 4 pathogens and, therefore, can only be handled in biosafety level 3 or 4 (BSL-3/4) containment laboratories. The restricted number of such laboratories, the substantial financial requirements to maintain them, and safety concerns for the laboratory workers pose formidable challenges for rapid medical countermeasure discovery and evaluation. BSL-2 surrogate systems are a less challenging, cheap, and fast alternative to the use of live high-consequence viruses for dissecting and targeting individual steps of viral lifecycles with a diminished threat to the laboratory worker. Typical surrogate systems are virion-like particles (VLPs), transcriptionally active ("infectious") VLPs, minigenome systems, recombinant heterotypic viruses encoding proteins of target viruses, and vesiculoviral or retroviral pseudotype systems. Here, we outline the use of retroviral pseudotypes for identification of antivirals against BSL-4 pathogens.

Published
2018
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35. Countering Zika Virus: The USAMRIID Response.

Author

Lowen RG, Bocan TM, Kane CD, Cazares LH, Kota KP, Ladner JT, Nasar F, Pitt L, Smith DR, Soloveva V, Sun MG, Zeng X, and Bavari S

Subjects
Animals, Biomedical Research, Humans, Zika Virus genetics, Academies and Institutes trends, Zika Virus physiology, Zika Virus Infection virology
Abstract

The United States Army Medical Research Institute of Infectious Diseases (USAMRIID) possesses an array of expertise in diverse capabilities for the characterization of emerging infectious diseases from the pathogen itself to human or animal infection models. The recent Zika virus (ZIKV) outbreak was a challenge and an opportunity to put these capabilities to work as a cohesive unit to quickly respond to a rapidly developing threat. Next-generation sequencing was used to characterize virus stocks and to understand the introduction and spread of ZIKV in the United States. High Content Imaging was used to establish a High Content Screening process to evaluate antiviral therapies. Functional genomics was used to identify critical host factors for ZIKV infection. An animal model using the temporal blockade of IFN-I in immunocompetent laboratory mice was investigated in conjunction with Positron Emission Tomography to study ZIKV. Correlative light and electron microscopy was used to examine ZIKV interaction with host cells in culture and infected animals. A quantitative mass spectrometry approach was used to examine the protein and metabolite type or concentration changes that occur during ZIKV infection in blood, cells, and tissues. Multiplex fluorescence in situ hybridization was used to confirm ZIKV replication in mouse and NHP tissues. The integrated rapid response approach developed at USAMRIID presented in this review was successfully applied and provides a new template pathway to follow if a new biological threat emerges. This streamlined approach will increase the likelihood that novel medical countermeasures could be rapidly developed, evaluated, and translated into the clinic.

Published
2018
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36. Identification of a coumarin-based antihistamine-like small molecule as an anti-filoviral entry inhibitor.

Author

Cheng H, Schafer A, Soloveva V, Gharaibeh D, Kenny T, Retterer C, Zamani R, Bavari S, Peet NP, and Rong L

Subjects
Animals, Antiviral Agents chemistry, Cell Line, Cell Line, Tumor, Coumarins analysis, Drug Discovery, Hemorrhagic Fever, Ebola drug therapy, High-Throughput Screening Assays, Histamine Antagonists chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Marburg Virus Disease drug therapy, Small Molecule Libraries, Structure-Activity Relationship, Antiviral Agents pharmacology, Coumarins chemistry, Coumarins pharmacology, Ebolavirus drug effects, Histamine Antagonists pharmacology, Marburgvirus drug effects, Virus Internalization drug effects
Abstract

Filoviruses, consisting of Ebola virus, Marburg virus and Cuevavirus, cause severe hemorrhagic fevers in humans with high mortality rates up to 90%. Currently, there is no approved vaccine or therapy available for the prevention and treatment of filovirus infection in humans. The recent 2013-2015 West African Ebola epidemic underscores the urgency to develop antiviral therapeutics against these infectious diseases. Our previous study showed that GPCR antagonists, particularly histamine receptor antagonists (antihistamines) inhibit Ebola and Marburg virus entry. In this study, we screened a library of 1220 small molecules with predicted antihistamine activity, identified multiple compounds with potent inhibitory activity against entry of both Ebola and Marburg viruses in human cancer cell lines, and confirmed their anti-Ebola activity in human primary cells. These small molecules target a late-stage of Ebola virus entry. Further structure-activity relationship studies around one compound (cp19) reveal the importance of the coumarin fused ring structure, especially the hydrophobic substituents at positions 3 and/or 4, for its antiviral activity, and this identified scaffold represents a favorable starting point for the rapid development of anti-filovirus therapeutic agents., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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37. Flex-nucleoside analogues - Novel therapeutics against filoviruses.

Author

Yates MK, Raje MR, Chatterjee P, Spiropoulou CF, Bavari S, Flint M, Soloveva V, and Seley-Radtke KL

Subjects
Antiviral Agents chemical synthesis, Antiviral Agents chemistry, Cell Line, Dose-Response Relationship, Drug, Humans, Microbial Sensitivity Tests, Molecular Structure, Nucleosides chemical synthesis, Nucleosides chemistry, Structure-Activity Relationship, Antiviral Agents pharmacology, Ebolavirus drug effects, Nucleosides pharmacology
Abstract

Fleximers, a novel type of flexible nucleoside that have garnered attention due to their unprecedented activity against human coronaviruses, have now exhibited highly promising levels of activity against filoviruses. The Flex-nucleoside was the most potent against recombinant Ebola virus in Huh7 cells with an EC 50 =2μM, while the McGuigan prodrug was most active against Sudan virus-infected HeLa cells with an EC 50 of 7μM., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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38. Discovery of Novel Small-Molecule Inhibitors of LIM Domain Kinase for Inhibiting HIV-1.

Author

Yi F, Guo J, Dabbagh D, Spear M, He S, Kehn-Hall K, Fontenot J, Yin Y, Bibian M, Park CM, Zheng K, Park HJ, Soloveva V, Gharaibeh D, Retterer C, Zamani R, Pitt ML, Naughton J, Jiang Y, Shang H, Hakami RM, Ling B, Young JAT, Bavari S, Xu X, Feng Y, and Wu Y

Subjects
Antiviral Agents chemical synthesis, Antiviral Agents isolation & purification, Cells, Cultured, Ebolavirus drug effects, Encephalitis Virus, Venezuelan Equine drug effects, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors isolation & purification, HIV-1 physiology, Herpesvirus 1, Human drug effects, Humans, Microbial Sensitivity Tests, Molecular Docking Simulation, Rift Valley fever virus drug effects, Antiviral Agents pharmacology, Enzyme Inhibitors pharmacology, HIV-1 drug effects, Lim Kinases antagonists & inhibitors, Virus Release drug effects, Virus Replication drug effects
Abstract

A dynamic actin cytoskeleton is necessary for viral entry, intracellular migration, and virion release. For HIV-1 infection, during entry, the virus triggers early actin activity by hijacking chemokine coreceptor signaling, which activates a host dependency factor, cofilin, and its kinase, the LIM domain kinase (LIMK). Although knockdown of human LIM domain kinase 1 (LIMK1) with short hairpin RNA (shRNA) inhibits HIV infection, no specific small-molecule inhibitor of LIMK has been available. Here, we describe the design and discovery of novel classes of small-molecule inhibitors of LIMK for inhibiting HIV infection. We identified R10015 as a lead compound that blocks LIMK activity by binding to the ATP-binding pocket. R10015 specifically blocks viral DNA synthesis, nuclear migration, and virion release. In addition, R10015 inhibits multiple viruses, including Zaire ebolavirus (EBOV), Rift Valley fever virus (RVFV), Venezuelan equine encephalitis virus (VEEV), and herpes simplex virus 1 (HSV-1), suggesting that LIMK inhibitors could be developed as a new class of broad-spectrum antiviral drugs. IMPORTANCE The actin cytoskeleton is a structure that gives the cell shape and the ability to migrate. Viruses frequently rely on actin dynamics for entry and intracellular migration. In cells, actin dynamics are regulated by kinases, such as the LIM domain kinase (LIMK), which regulates actin activity through phosphorylation of cofilin, an actin-depolymerizing factor. Recent studies have found that LIMK/cofilin are targeted by viruses such as HIV-1 for propelling viral intracellular migration. Although inhibiting LIMK1 expression blocks HIV-1 infection, no highly specific LIMK inhibitor is available. This study describes the design, medicinal synthesis, and discovery of small-molecule LIMK inhibitors for blocking HIV-1 and several other viruses and emphasizes the feasibility of developing LIMK inhibitors as broad-spectrum antiviral drugs., (Copyright © 2017 Yi et al.)

Published
2017
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39. Discovery and Synthesis of a Phosphoramidate Prodrug of a Pyrrolo[2,1-f][triazin-4-amino] Adenine C-Nucleoside (GS-5734) for the Treatment of Ebola and Emerging Viruses.

Author

Siegel D, Hui HC, Doerffler E, Clarke MO, Chun K, Zhang L, Neville S, Carra E, Lew W, Ross B, Wang Q, Wolfe L, Jordan R, Soloveva V, Knox J, Perry J, Perron M, Stray KM, Barauskas O, Feng JY, Xu Y, Lee G, Rheingold AL, Ray AS, Bannister R, Strickley R, Swaminathan S, Lee WA, Bavari S, Cihlar T, Lo MK, Warren TK, and Mackman RL

Subjects
Adenosine Monophosphate analogs & derivatives, Alanine chemistry, Cell Line, Drug Discovery, Humans, Microbial Sensitivity Tests, Prodrugs chemical synthesis, Structure-Activity Relationship, Alanine analogs & derivatives, Amides chemistry, Hemorrhagic Fever, Ebola drug therapy, Phosphoric Acids chemistry, Prodrugs chemistry, Prodrugs pharmacology, Ribonucleotides chemistry, Virus Diseases drug therapy
Abstract

The recent Ebola virus (EBOV) outbreak in West Africa was the largest recorded in history with over 28,000 cases, resulting in >11,000 deaths including >500 healthcare workers. A focused screening and lead optimization effort identified 4b (GS-5734) with anti-EBOV EC 50 = 86 nM in macrophages as the clinical candidate. Structure activity relationships established that the 1'-CN group and C-linked nucleobase were critical for optimal anti-EBOV potency and selectivity against host polymerases. A robust diastereoselective synthesis provided sufficient quantities of 4b to enable preclinical efficacy in a non-human-primate EBOV challenge model. Once-daily 10 mg/kg iv treatment on days 3-14 postinfection had a significant effect on viremia and mortality, resulting in 100% survival of infected treated animals [ Nature 2016 , 531 , 381 - 385 ]. A phase 2 study (PREVAIL IV) is currently enrolling and will evaluate the effect of 4b on viral shedding from sanctuary sites in EBOV survivors.

Published
2017
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40. Bithionol blocks pathogenicity of bacterial toxins, ricin, and Zika virus.

Author

Leonardi W, Zilbermintz L, Cheng LW, Zozaya J, Tran SH, Elliott JH, Polukhina K, Manasherob R, Li A, Chi X, Gharaibeh D, Kenny T, Zamani R, Soloveva V, Haddow AD, Nasar F, Bavari S, Bassik MC, Cohen SN, Levitin A, and Martchenko M

Abstract

Diverse pathogenic agents often utilize overlapping host networks, and hub proteins within these networks represent attractive targets for broad-spectrum drugs. Using bacterial toxins, we describe a new approach for discovering broad-spectrum therapies capable of inhibiting host proteins that mediate multiple pathogenic pathways. This approach can be widely used, as it combines genetic-based target identification with cell survival-based and protein function-based multiplex drug screens, and concurrently discovers therapeutic compounds and their protein targets. Using B-lymphoblastoid cells derived from the HapMap Project cohort of persons of African, European, and Asian ancestry we identified host caspases as hub proteins that mediate the lethality of multiple pathogenic agents. We discovered that an approved drug, Bithionol, inhibits host caspases and also reduces the detrimental effects of anthrax lethal toxin, diphtheria toxin, cholera toxin, Pseudomonas aeruginosa exotoxin A, Botulinum neurotoxin, ricin, and Zika virus. Our study reveals the practicality of identifying host proteins that mediate multiple disease pathways and discovering broad-spectrum therapies that target these hub proteins.

Published
2016
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41. Therapeutic efficacy of the small molecule GS-5734 against Ebola virus in rhesus monkeys.

Author

Warren TK, Jordan R, Lo MK, Ray AS, Mackman RL, Soloveva V, Siegel D, Perron M, Bannister R, Hui HC, Larson N, Strickley R, Wells J, Stuthman KS, Van Tongeren SA, Garza NL, Donnelly G, Shurtleff AC, Retterer CJ, Gharaibeh D, Zamani R, Kenny T, Eaton BP, Grimes E, Welch LS, Gomba L, Wilhelmsen CL, Nichols DK, Nuss JE, Nagle ER, Kugelman JR, Palacios G, Doerffler E, Neville S, Carra E, Clarke MO, Zhang L, Lew W, Ross B, Wang Q, Chun K, Wolfe L, Babusis D, Park Y, Stray KM, Trancheva I, Feng JY, Barauskas O, Xu Y, Wong P, Braun MR, Flint M, McMullan LK, Chen SS, Fearns R, Swaminathan S, Mayers DL, Spiropoulou CF, Lee WA, Nichol ST, Cihlar T, and Bavari S

Subjects
Adenosine Monophosphate analogs & derivatives, Alanine pharmacokinetics, Alanine pharmacology, Alanine therapeutic use, Amino Acid Sequence, Animals, Antiviral Agents pharmacokinetics, Antiviral Agents pharmacology, Cell Line, Tumor, Ebolavirus drug effects, Female, HeLa Cells, Hemorrhagic Fever, Ebola prevention & control, Humans, Male, Molecular Sequence Data, Organ Specificity, Prodrugs pharmacokinetics, Prodrugs pharmacology, Prodrugs therapeutic use, Ribonucleotides pharmacokinetics, Ribonucleotides pharmacology, Alanine analogs & derivatives, Antiviral Agents therapeutic use, Hemorrhagic Fever, Ebola drug therapy, Macaca mulatta virology, Ribonucleotides therapeutic use
Abstract

The most recent Ebola virus outbreak in West Africa, which was unprecedented in the number of cases and fatalities, geographic distribution, and number of nations affected, highlights the need for safe, effective, and readily available antiviral agents for treatment and prevention of acute Ebola virus (EBOV) disease (EVD) or sequelae. No antiviral therapeutics have yet received regulatory approval or demonstrated clinical efficacy. Here we report the discovery of a novel small molecule GS-5734, a monophosphoramidate prodrug of an adenosine analogue, with antiviral activity against EBOV. GS-5734 exhibits antiviral activity against multiple variants of EBOV and other filoviruses in cell-based assays. The pharmacologically active nucleoside triphosphate (NTP) is efficiently formed in multiple human cell types incubated with GS-5734 in vitro, and the NTP acts as an alternative substrate and RNA-chain terminator in primer-extension assays using a surrogate respiratory syncytial virus RNA polymerase. Intravenous administration of GS-5734 to nonhuman primates resulted in persistent NTP levels in peripheral blood mononuclear cells (half-life, 14 h) and distribution to sanctuary sites for viral replication including testes, eyes, and brain. In a rhesus monkey model of EVD, once-daily intravenous administration of 10 mg kg(-1) GS-5734 for 12 days resulted in profound suppression of EBOV replication and protected 100% of EBOV-infected animals against lethal disease, ameliorating clinical disease signs and pathophysiological markers, even when treatments were initiated three days after virus exposure when systemic viral RNA was detected in two out of six treated animals. These results show the first substantive post-exposure protection by a small-molecule antiviral compound against EBOV in nonhuman primates. The broad-spectrum antiviral activity of GS-5734 in vitro against other pathogenic RNA viruses, including filoviruses, arenaviruses, and coronaviruses, suggests the potential for wider medical use. GS-5734 is amenable to large-scale manufacturing, and clinical studies investigating the drug safety and pharmacokinetics are ongoing.

Published
2016
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42. Identification of agents effective against multiple toxins and viruses by host-oriented cell targeting.

Author

Zilbermintz L, Leonardi W, Jeong SY, Sjodt M, McComb R, Ho CL, Retterer C, Gharaibeh D, Zamani R, Soloveva V, Bavari S, Levitin A, West J, Bradley KA, Clubb RT, Cohen SN, Gupta V, and Martchenko M

Subjects
Amodiaquine chemistry, Amodiaquine pharmacology, Animals, Cathepsin B metabolism, Cell Death drug effects, Cytosol drug effects, Cytosol metabolism, Drug Approval, Ebolavirus drug effects, Endosomes drug effects, Endosomes metabolism, HeLa Cells, Humans, Metabolome drug effects, Mice, Models, Biological, RAW 264.7 Cells, United States, United States Food and Drug Administration, Antigens, Bacterial pharmacology, Bacterial Toxins pharmacology, Host-Pathogen Interactions drug effects, Viruses drug effects
Abstract

A longstanding and still-increasing threat to the effective treatment of infectious diseases is resistance to antimicrobial countermeasures. Potentially, the targeting of host proteins and pathways essential for the detrimental effects of pathogens offers an approach that may discover broad-spectrum anti-pathogen countermeasures and circumvent the effects of pathogen mutations leading to resistance. Here we report implementation of a strategy for discovering broad-spectrum host-oriented therapies against multiple pathogenic agents by multiplex screening of drugs for protection against the detrimental effects of multiple pathogens, identification of host cell pathways inhibited by the drug, and screening for effects of the agent on other pathogens exploiting the same pathway. We show that a clinically used antimalarial drug, Amodiaquine, discovered by this strategy, protects host cells against infection by multiple toxins and viruses by inhibiting host cathepsin B. Our results reveal the practicality of discovering broadly acting anti-pathogen countermeasures that target host proteins exploited by pathogens.

Published
2015
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43. Anti-Ebola Activity of Diazachrysene Small Molecules.

Author

Selaković Ž, Soloveva V, Gharaibeh DN, Wells J, Šegan S, Panchal RG, and Šolaja BA

Abstract

Herein we report on a diazachrysene class of small molecules that exhibit potent antiviral activity against the Ebola (EBOV) virus. The antiviral compounds are easily synthesized, and the most active compounds have excellent in vitro activity (0.34-0.70 μM) and are significantly less lipophilic than their predecessors. The three most potent diazachrysene antivirals do not exhibit any toxicity in vivo and protected 70-90% of the mice at 10 mg/kg following EBOV challenge. Together, these studies suggest that diazachrysenes are a promising class of compounds for hit to lead optimization and as potential Ebola therapeutics.

Published
2015
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44. A high content imaging assay for identification of Botulinum neurotoxin inhibitors.

Author

Kota KP, Soloveva V, Wanner LM, Gomba G, Kiris E, Panchal RG, Kane CD, and Bavari S

Subjects
Animals, Botulinum Toxins, Type A metabolism, Cells, Cultured, Fluorescent Antibody Technique methods, Mice, Motor Neurons chemistry, Motor Neurons metabolism, Reproducibility of Results, Synaptosomal-Associated Protein 25 metabolism, Botulinum Toxins, Type A antagonists & inhibitors, Synaptosomal-Associated Protein 25 analysis
Abstract

Synaptosomal-associated protein-25 (SNAP-25) is a component of the soluble NSF attachment protein receptor (SNARE) complex that is essential for synaptic neurotransmitter release. Botulinum neurotoxin serotype A (BoNT/A) is a zinc metalloprotease that blocks exocytosis of neurotransmitter by cleaving the SNAP-25 component of the SNARE complex. Currently there are no licensed medicines to treat BoNT/A poisoning after internalization of the toxin by motor neurons. The development of effective therapeutic measures to counter BoNT/A intoxication has been limited, due in part to the lack of robust high-throughput assays for screening small molecule libraries. Here we describe a high content imaging (HCI) assay with utility for identification of BoNT/A inhibitors. Initial optimization efforts focused on improving the reproducibility of inter-plate results across multiple, independent experiments. Automation of immunostaining, image acquisition, and image analysis were found to increase assay consistency and minimize variability while enabling the multiparameter evaluation of experimental compounds in a murine motor neuron system.

Published
2014
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45. Recent developments in cell-based assays and stem cell technologies for botulinum neurotoxin research and drug discovery.

Author

Kiris E, Kota KP, Burnett JC, Soloveva V, Kane CD, and Bavari S

Subjects
Animals, Antitoxins chemistry, Biomarkers analysis, Cell Differentiation, Cell Line, Cells, Cultured, Drug Design, Enzyme-Linked Immunosorbent Assay, Humans, Immunoassay, Microscopy, Fluorescence, Biological Assay trends, Botulinum Toxins antagonists & inhibitors, Botulinum Toxins chemistry, Drug Discovery trends, Neurons metabolism, Stem Cells cytology
Abstract

Botulinum neurotoxins (BoNTs) are exceptionally potent inhibitors of neurotransmission, causing muscle paralysis and respiratory failure associated with the disease botulism. Currently, no drugs are available to counter intracellular BoNT poisoning. To develop effective medical treatments, cell-based assays provide a valuable system to identify novel inhibitors in a time- and cost-efficient manner. Consequently, cell-based systems including immortalized cells, primary neurons and stem cell-derived neurons have been established. Stem cell-derived neurons are highly sensitive to BoNT intoxication and represent an ideal model to study the biological effects of BoNTs. Robust immunoassays are used to quantify BoNT activity and play a central role during inhibitor screening. In this review, we examine recent progress in physiologically relevant cell-based assays and high-throughput screening approaches for the identification of both direct and indirect BoNT inhibitors.

Published
2014
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46. Anti-obesity phenotypic screening looking to increase OBR cell surface expression.

Author

Kim TH, Choi DH, Vauthier V, Dam J, Li X, Nam YJ, Ko Y, Kwon HJ, Shin SH, Cechetto J, Soloveva V, and Jockers R

Subjects
Cell Line, Drug Discovery methods, Gene Expression, Genes, Reporter, High-Throughput Screening Assays, Humans, Obesity drug therapy, Obesity genetics, Receptors, Leptin genetics, Recombinant Fusion Proteins, Small Molecule Libraries, Drug Evaluation, Preclinical methods, Obesity metabolism, Phenotype, Receptors, Leptin metabolism
Abstract

The leptin receptor, OBR, is involved in the regulation of whole-body energy homeostasis. Most obese people are resistant to leptin and do not respond to the hormone. The prevention and reversal of leptin resistance is one of the major current goals of obesity research. We showed previously that increased OBR cell surface expression concomitantly increases cellular leptin signaling and prevents obesity development in mice. Improvement of OBR cell surface expression can thus be considered as an interesting anti-obesity therapeutic strategy. To identify compounds that increase the surface expression of OBR, we developed a cell-based, phenotypic assay to perform a high-content screen (HCS) against a library of 50,000 chemical compounds. We identified 67 compounds that increased OBR cell surface expression with AC50 values in the low micromolar range and no effect on total OBR expression and cellular toxicity. Compounds were classified into 16 chemical clusters, of which 4 potentiated leptin-promoted signaling through the JAK2/STAT3 pathway. In conclusion, development of a robust phenotypic screening approach resulted in the discovery of four new scaffolds that demonstrate the desired biological activity and could constitute an original therapeutic solution against obesity and associated disorders.

Published
2014
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47. Phenotypic MicroRNA Microarrays.

Author

Kwon YJ, Heo JY, Kim HC, Kim JY, Liuzzi M, and Soloveva V

Abstract

Microarray technology has become a very popular approach in cases where multiple experiments need to be conducted repeatedly or done with a variety of samples. In our lab, we are applying our high density spots microarray approach to microscopy visualization of the effects of transiently introduced siRNA or cDNA on cellular morphology or phenotype. In this publication, we are discussing the possibility of using this micro-scale high throughput process to study the role of microRNAs in the biology of selected cellular models. After reverse-transfection of microRNAs and siRNA, the cellular phenotype generated by microRNAs regulated NF-κB expression comparably to the siRNA. The ability to print microRNA molecules for reverse transfection into cells is opening up the wide horizon for the phenotypic high content screening of microRNA libraries using cellular disease models.

Published
2013
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48. Antitumor efficacy profile of PKI-402, a dual phosphatidylinositol 3-kinase/mammalian target of rapamycin inhibitor.

Author

Mallon R, Hollander I, Feldberg L, Lucas J, Soloveva V, Venkatesan A, Dehnhardt C, Delos Santos E, Chen Z, Dos Santos O, Ayral-Kaloustian S, and Gibbons J

Subjects
Animals, Biomarkers, Tumor metabolism, Caspases metabolism, Cell Line, Tumor, Cell Proliferation drug effects, Enzyme Activation drug effects, Enzyme Assays, Forkhead Transcription Factors metabolism, Green Fluorescent Proteins metabolism, Humans, Inhibitory Concentration 50, Mice, Phenylurea Compounds blood, Phenylurea Compounds chemistry, Poly(ADP-ribose) Polymerases metabolism, Protein Kinase Inhibitors blood, Protein Kinase Inhibitors chemistry, Proto-Oncogene Proteins c-akt metabolism, Pyrimidines blood, Pyrimidines chemistry, TOR Serine-Threonine Kinases, Intracellular Signaling Peptides and Proteins antagonists & inhibitors, Phenylurea Compounds pharmacology, Phosphoinositide-3 Kinase Inhibitors, Protein Kinase Inhibitors pharmacology, Protein Serine-Threonine Kinases antagonists & inhibitors, Pyrimidines pharmacology, Xenograft Model Antitumor Assays
Abstract

PKI-402 is a selective, reversible, ATP-competitive, equipotent inhibitor of class I phosphatidylinositol 3-kinases (PI3K), including PI3K-alpha mutants, and mammalian target of rapamycin (mTOR; IC(50) versus PI3K-alpha = 2 nmol/L). PKI-402 inhibited growth of human tumor cell lines derived from breast, brain (glioma), pancreas, and non-small cell lung cancer tissue and suppressed phosphorylation of PI3K and mTOR effector proteins (e.g., Akt at T308) at concentrations that matched those that inhibited cell growth. In MDA-MB-361 [breast: Her2(+) and PIK3CA mutant (E545K)], 30 nmol/L PKI-402 induced cleaved poly(ADP-ribose) polymerase (PARP), a marker for apoptosis. In vivo, PKI-402 inhibited tumor growth in MDA-MB-361, glioma (U87MG), and lung (A549) xenograft models. In MDA-MB-361, PKI-402 at 100 mg/kg (daily for 5 days, one round) reduced initial tumor volume of 260 mm(3) to 129 mm(3) and prevented tumor regrowth for 70 days. In MDA-MB-361 tumors, PKI-402 (100 mg/kg, single dose) suppressed Akt phosphorylation (at T308) and induced cleaved PARP. Suppression of phosphorylated Akt (p-Akt) was complete at 8 hours and still evident at 24 hours. Cleaved PARP was evident at 8 and 24 hours. In normal tissue (heart and lung), PKI-402 (100 mg/kg) had minimal effect on p-Akt, with no detectable cleaved PARP. Preferential accumulation of PKI-402 in tumor tissue was observed. Complete, sustained suppression of Akt phosphorylation may cause tumor regression in MDA-MB-361 and other xenograft models. We are testing whether dual PI3K/mTOR inhibitors can durably suppress p-Akt, induce cleaved PARP, and cause tumor regression in a diverse set of human tumor xenograft models. Mol Cancer Ther; 9(4); 976-84. (c)2010 AACR.

Published
2010
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49. High-throughput screening for Kv1.3 channel blockers using an improved FLIPR-based membrane-potential assay.

Author

Liu K, Samuel M, Tillett J, Hennan JK, Mekonnen B, Soloveva V, Harrison RK, Paslay JW, and Larocque J

Subjects
Animals, CHO Cells, Cricetinae, Cricetulus, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical, Electrophysiology, Fluorometry, Inhibitory Concentration 50, Patch-Clamp Techniques, Sodium Azide pharmacology, Biological Assay, High-Throughput Screening Assays, Kv1.3 Potassium Channel antagonists & inhibitors, Membrane Potentials physiology, Potassium Channel Blockers pharmacology
Abstract

Voltage-gated K(+) channels are potential drug targets for an increasing number of disease indications. Searching for compounds that modulate K(+) channel activities by high-throughput screening (HTS) is becoming a standard approach in the drug discovery effort. Here the authors report an improved fluorometric imaging plate reader (FLIPR) membrane potential assay for Kv1.3 K(+) channel HTS. They have found that the Chinese hamster ovary (CHO) cells have endogenous membrane electrogenic transporters that contribute to maintaining membrane potential. Blocking the recombinant K(+) channels in the overexpressing CHO cell line hardly changed the membrane potential. Inhibition of the endogenous transporters is essential to achieve the required assay robustness. The authors identified the optimal assay conditions and designed a simple assay format. After an HTS campaign using this assay, various chemical series of Kv1.3 channel blockers have been identified and confirmed by the automated electrophysiological IonWorks assay. The correlation in dose response between FLIPR and IonWorks was established by biophysical modeling and experimental data. After characterization using patch-clamp recording, both use-dependent and use-independent compounds were identified. Some compounds possess nanomolar potency, indicating that the FLIPR assay is effective for successfully identifying K(+) channel blockers as novel drug candidates.

Published
2010
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50. A novel high-throughput screening assay for HCN channel blocker using membrane potential-sensitive dye and FLIPR.

Author

Vasilyev DV, Shan QJ, Lee YT, Soloveva V, Nawoschik SP, Kaftan EJ, Dunlop J, Mayer SC, and Bowlby MR

Subjects
Animals, Biological Assay instrumentation, Cell Line, Cyclic Nucleotide-Gated Cation Channels metabolism, Drug Design, Electrophysiology, High-Throughput Screening Assays instrumentation, Humans, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels, Potassium Channels metabolism, Biological Assay methods, Cyclic Nucleotide-Gated Cation Channels antagonists & inhibitors, Fluorescent Dyes chemistry, Fluorescent Dyes metabolism, High-Throughput Screening Assays methods, Membrane Potentials physiology
Abstract

Hyperpolarization-activated cation nonselective (HCN) channels represent an interesting group of targets for drug development. In this study, the authors report the development of a novel membrane potential-sensitive dye (MPSD) assay for HCN channel modulators that has been miniaturized into 384-well fluorescent imaging plate reader (FLIPR) high-throughput screening (HTS) format. When optimized (by cell plating density, plate type, cell recovery from cryopreservation), the well-to-well signal variability was low, with a Z' = 0.73 and coefficient of variation = 6.4%, whereas the MPSD fluorescence signal amplitude was -23,700 +/- 1500 FLIPR(3) relative fluorescence units (a linear relationship was found between HCN1 MPSD fluorescence signal and the cell plating density) and was completely blocked by 30 microM ZD7288. The assay tolerated up to 1% DMSO, inclusion of which did not significantly change the signal kinetics or amplitude. A single-concentration screening of an ion channel-focused library composed of 4855 compounds resulted in 89 HCN1 blocker hits, 51 of which were subsequently analyzed with an 8-point concentration-response analysis on the IonWorks HT electrophysiology platform. The correlation between MPSD and the electrophysiology assay was moderate, as shown by the linear regression analysis (r(2) = 0.56) between the respective IC(50)s obtained using these 2 assays. The reported HTS-compatible HCN channel blocker assay can serve as a tool in drug discovery in the pursuit of HCN channel isoform-selective small molecules that could be used in the development of clinically relevant compounds.

Published
2009
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