Your search keyword '"Paul M. Selzer"' showing total 23 results

1. Inference of Essential Genes of the Parasite Haemonchus contortus via Machine Learning

Author

Túlio L. Campos, Pasi K. Korhonen, Neil D. Young, Tao Wang, Jiangning Song, Richard Marhoefer, Bill C. H. Chang, Paul M. Selzer, and Robin B. Gasser

Subjects

Haemonchus, Caenorhabditis, Drosophila, essential genes, prediction/prioritisation, Eukaryota, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Over the years, comprehensive explorations of the model organisms Caenorhabditis elegans (elegant worm) and Drosophila melanogaster (vinegar fly) have contributed substantially to our understanding of complex biological processes and pathways in multicellular organisms generally. Extensive functional genomic–phenomic, genomic, transcriptomic, and proteomic data sets have enabled the discovery and characterisation of genes that are crucial for life, called ‘essential genes’. Recently, we investigated the feasibility of inferring essential genes from such data sets using advanced bioinformatics and showed that a machine learning (ML)-based workflow could be used to extract or engineer features from DNA, RNA, protein, and/or cellular data/information to underpin the reliable prediction of essential genes both within and between C. elegans and D. melanogaster. As these are two distantly related species within the Ecdysozoa, we proposed that this ML approach would be particularly well suited for species that are within the same phylum or evolutionary clade. In the present study, we cross-predicted essential genes within the phylum Nematoda (evolutionary clade V)—between C. elegans and the pathogenic parasitic nematode H. contortus—and then ranked and prioritised H. contortus proteins encoded by these genes as intervention (e.g., drug) target candidates. Using strong, validated predictors, we inferred essential genes of H. contortus that are involved predominantly in crucial biological processes/pathways including ribosome biogenesis, translation, RNA binding/processing, and signalling and which are highly transcribed in the germline, somatic gonad precursors, sex myoblasts, vulva cell precursors, various nerve cells, glia, or hypodermis. The findings indicate that this in silico workflow provides a promising avenue to identify and prioritise panels/groups of drug target candidates in parasitic nematodes for experimental validation in vitro and/or in vivo.

Published

2024

2. Heartworm disease – Overview, intervention, and industry perspective

Author

Sandra Noack, John Harrington, Douglas S. Carithers, Ronald Kaminsky, and Paul M. Selzer

Subjects

Heartworm disease, Dirofilaria immitis, Macrocyclic lactones, Mechanism of action, Anthelmintic resistance, Animal health, Infectious and parasitic diseases, RC109-216

Abstract

Dirofilaria immitis, also known as heartworm, is a major parasitic threat for dogs and cats around the world. Because of its impact on the health and welfare of companion animals, heartworm disease is of huge veterinary and economic importance especially in North America, Europe, Asia and Australia. Within the animal health market many different heartworm preventive products are available, all of which contain active components of the same drug class, the macrocyclic lactones. In addition to compliance issues, such as under-dosing or irregular treatment intervals, the occurrence of drug-resistant heartworms within the populations in the Mississippi River areas adds to the failure of preventive treatments. The objective of this review is to provide an overview of the disease, summarize the current disease control measures and highlight potential new avenues and best practices for treatment and prevention.

Published

2021

3. Antimicrobial Preservatives for Protein and Peptide Formulations: An Overview

Author

Luisa Stroppel, Torsten Schultz-Fademrecht, Martin Cebulla, Michaela Blech, Richard J. Marhöfer, Paul M. Selzer, and Patrick Garidel

Subjects

antimicrobial preservative, protein formulation, multi-dose, m-cresol, phenol, benzyl alcohol, Pharmacy and materia medica, RS1-441

Abstract

Biological drugs intended for multi-dose application require the presence of antimicrobial preservatives to avoid microbial growth. As the presence of certain preservatives has been reported to increase protein and peptide particle formation, it is essential to choose a preservative compatible with the active pharmaceutical ingredient in addition to its preservation function. Thus, this review describes the current status of the use of antimicrobial preservatives in biologic formulations considering (i) appropriate preservatives for protein and peptide formulations, (ii) their physico-chemical properties, (iii) their in-/compatibilities with other excipients or packaging material, and (iv) their interactions with the biological compound. Further, (v) we present an overview of licensed protein and peptide formulations.

Published

2023

4. Blocking transmission of vector-borne diseases

Author

Sandra Schorderet-Weber, Sandra Noack, Paul M. Selzer, and Ronald Kaminsky

Subjects

Vector-borne diseases, Transmission blocking, Drug discovery, Speed of kill, Infectious and parasitic diseases, RC109-216

Abstract

Vector-borne diseases are responsible for significant health problems in humans, as well as in companion and farm animals. Killing the vectors with ectoparasitic drugs before they have the opportunity to pass on their pathogens could be the ideal way to prevent vector borne diseases. Blocking of transmission might work when transmission is delayed during blood meal, as often happens in ticks. The recently described systemic isoxazolines have been shown to successfully prevent disease transmission under conditions of delayed pathogen transfer. However, if the pathogen is transmitted immediately at bite as it is the case with most insects, blocking transmission becomes only possible if ectoparasiticides prevent the vector from landing on or, at least, from biting the host. Chemical entities exhibiting repellent activity in addition to fast killing, like pyrethroids, could prevent pathogen transmission even in cases of immediate transfer. Successful blocking depends on effective action in the context of the extremely diverse life-cycles of vectors and vector-borne pathogens of medical and veterinary importance which are summarized in this review. This complexity leads to important parameters to consider for ectoparasiticide research and when considering the ideal drug profile for preventing disease transmission.

Published

2017

5. Human and Animal Filariases: Landscape, Challenges, and Control

Author

Paul M. Selzer

Published

2022

6. Comprehensive Analysis of Parasite Biology: From Metabolism to Drug Discovery

Author

Paul M. Selzer

Published

2016

7. Heartworm disease – Overview, intervention, and industry perspective

Author

Ronald Kaminsky, Paul M. Selzer, Doug Carithers, Sandra Noack, and John Harrington

Subjects

0301 basic medicine, Best practice, Dirofilaria immitis, 030231 tropical medicine, Active components, Infectious and parasitic diseases, RC109-216, Disease, Mechanism of action, Cat Diseases, Heartworm disease, 03 medical and health sciences, Lactones, 0302 clinical medicine, Dogs, Intervention (counseling), Environmental health, Medicine, Animals, Pharmacology (medical), Dog Diseases, Anthelmintic resistance, Pharmacology, Macrocyclic lactones, Invited Review, Animal health, biology, business.industry, biology.organism_classification, Disease control, 030104 developmental biology, Infectious Diseases, Cats, Parasitology, Dirofilariasis, business

Abstract

Dirofilaria immitis, also known as heartworm, is a major parasitic threat for dogs and cats around the world. Because of its impact on the health and welfare of companion animals, heartworm disease is of huge veterinary and economic importance especially in North America, Europe, Asia and Australia. Within the animal health market many different heartworm preventive products are available, all of which contain active components of the same drug class, the macrocyclic lactones. In addition to compliance issues, such as under-dosing or irregular treatment intervals, the occurrence of drug-resistant heartworms within the populations in the Mississippi River areas adds to the failure of preventive treatments. The objective of this review is to provide an overview of the disease, summarize the current disease control measures and highlight potential new avenues and best practices for treatment and prevention., Graphical abstract Image 1

Published

2021

8. Parasitic Helminths: Targets, Screens, Drugs and Vaccines

Author

Paul M. Selzer

Published

2012

9. Apicomplexan Parasites: Molecular Approaches toward Targeted Drug Development

Author

Paul M. Selzer

Published

2011

10. Trypanothione reductase: a target protein for a combined in vitro and in silico screening approach.

Author

Mathias Beig, Frank Oellien, Linnéa Garoff, Sandra Noack, R Luise Krauth-Siegel, and Paul M Selzer

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

With the goal to identify novel trypanothione reductase (TR) inhibitors, we performed a combination of in vitro and in silico screening approaches. Starting from a highly diverse compound set of 2,816 compounds, 21 novel TR inhibiting compounds could be identified in the initial in vitro screening campaign against T. cruzi TR. All 21 in vitro hits were used in a subsequent similarity search-based in silico screening on a database containing 200,000 physically available compounds. The similarity search resulted in a data set containing 1,204 potential TR inhibitors, which was subjected to a second in vitro screening campaign leading to 61 additional active compounds. This corresponds to an approximately 10-fold enrichment compared to the initial pure in vitro screening. In total, 82 novel TR inhibitors with activities down to the nM range could be identified proving the validity of our combined in vitro/in silico approach. Moreover, the four most active compounds, showing IC50 values of

Published

2015

11. Anticoccidial drugs of the livestock industry

Author

H. David Chapman, Paul M. Selzer, and Sandra Noack

Subjects

Livestock, Protozoology - Review, Resistance, Biology, Poultry, parasitic diseases, medicine, Animals, Available drugs, Anticoccidials, Poultry Diseases, General Veterinary, Ionophores, business.industry, Coccidiosis, General Medicine, Research needs, medicine.disease, Biotechnology, Coccidia, Infectious Diseases, Mode of action, Insect Science, Parasitic disease, Coccidiostats, Parasitology, Chemicals, business

Abstract

Coccidiosis is a parasitic disease of a wide variety of animals caused by coccidian protozoa. The coccidia are responsible for major economic losses of the livestock industry. For example, the annual cost due to coccidiosis to the global poultry industry has been estimated to exceed US$ 3 billion annually. Currently available drugs for the control of this disease are either polyether ionophorous antibiotics that are derived from fermentation products, or synthetic compounds, produced by chemical synthesis. Unfortunately, no new drugs in either category have been approved for use for decades. Resistance has been documented for all those of the drugs currently employed and therefore the discovery of novel drugs with unique modes of action is imperative if chemotherapy is to remain the principal means to control this disease. This chapter aims to give an overview of the efficacy and mode of action of the current compounds used to control coccidiosis in livestock and provides a brief outlook of research needs for the future.

Published

2019

12. Applied Bioinformatics : An Introduction

Author

Paul M. Selzer, Richard J. Marhöfer, Oliver Koch, Paul M. Selzer, Richard J. Marhöfer, and Oliver Koch

Subjects

Biology-xData processing, Bioinformatics--Problems, exercises, etc, Bioinformatics

Abstract

This book introduces readers to the basic principles of bioinformatics and the practical application and utilization of computational tools, without assuming any prior background in programming or informatics. It provides a coherent overview of the complex field and focuses on the implementation of online tools, genome databases and software that can benefit scientists and students in the life sciences. Training tutorials with practical bioinformatics exercises and solutions facilitate the understanding and application of such tools and interpretation of results. In addition, a glossary explains terminology that is widely used in the field. This straightforward introduction to applied bioinformatics offers an essential resource for students, as well as scientists seeking to understand the basis of sequencing analysis, functional genomics and protein structure predictions.

Published

2018

13. High-throughput screening with the Eimeria tenella CDC2-related kinase2/cyclin complex EtCRK2/EtCYC3a

Author

Paul M. Selzer, Kristin Engels, Richard J. Marhöfer, Michael Gassel, Jeremy C. Mottram, Maria L. Suárez Fernández, and Frank Bender

Subjects

In silico, Plasmodium falciparum, Antiprotozoal Agents, Drug Evaluation, Preclinical, Protozoan Proteins, Microbiology, Eimeria, 03 medical and health sciences, 0302 clinical medicine, Cyclin-dependent kinase, Cyclins, parasitic diseases, CDC2 Protein Kinase, Animals, Enzyme Inhibitors, 030304 developmental biology, Cyclin, 0303 health sciences, Cyclin-dependent kinase 1, biology, Kinase, Computational Biology, Cell cycle, biology.organism_classification, Virology, Standard, 3. Good health, High-Throughput Screening Assays, 030220 oncology & carcinogenesis, Cell and Molecular Biology of Microbes, biology.protein, Eimeria tenella

Abstract

The poultry disease coccidiosis, caused by infection with Eimeria spp. apicomplexan parasites, is responsible for enormous economic losses to the global poultry industry. The rapid increase of resistance to therapeutic agents, as well as the expense of vaccination with live attenuated vaccines, requires the development of new effective treatments for coccidiosis. Because of their key regulatory function in the eukaryotic cell cycle, cyclin-dependent kinases (CDKs) are prominent drug targets. The Eimeria tenella CDC2-related kinase 2 (EtCRK2) is a validated drug target that can be activated in vitro by the CDK activator XlRINGO (Xenopus laevis rapid inducer of G2/M progression in oocytes). Bioinformatics analyses revealed four putative E. tenella cyclins (EtCYCs) that are closely related to cyclins found in the human apicomplexan parasite Plasmodium falciparum. EtCYC3a was cloned, expressed in Escherichia coli and purified in a complex with EtCRK2. Using the non-radioactive time-resolved fluorescence energy transfer (TR-FRET) assay, we demonstrated the ability of EtCYC3a to activate EtCRK2 as shown previously for XlRINGO. The EtCRK2/EtCYC3a complex was used for a combined in vitro and in silico high-throughput screening approach, which resulted in three lead structures, a naphthoquinone, an 8-hydroxyquinoline and a 2-pyrimidinyl-aminopiperidine-propane-2-ol. This constitutes a promising starting point for the subsequent lead optimization phase and the development of novel anticoccidial drugs.

Published

2012

14. Trypanothione reductase: a target protein for a combined in vitro and in silico screening approach

Author

Frank Oellien, Paul M. Selzer, Sandra Noack, Linnéa Garoff, Mathias Beig, and R. Luise Krauth-Siegel

Subjects

Models, Molecular, lcsh:Arctic medicine. Tropical medicine, Spermidine, lcsh:RC955-962, High-throughput screening, In silico, Trypanosoma cruzi, Drug Evaluation, Preclinical, Protozoan Proteins, Biology, Inhibitory Concentration 50, Chagas Disease, Computer Simulation, NADH, NADPH Oxidoreductases, Enzyme kinetics, Enzyme Inhibitors, Trypanocidal agent, Drug discovery, lcsh:Public aspects of medicine, Chlorhexidine, Public Health, Environmental and Occupational Health, lcsh:RA1-1270, biology.organism_classification, Molecular biology, Glutathione, Trypanocidal Agents, In vitro, 3. Good health, Kinetics, Infectious Diseases, Biochemistry, Quinacrine, Target protein, Research Article

Abstract

With the goal to identify novel trypanothione reductase (TR) inhibitors, we performed a combination of in vitro and in silico screening approaches. Starting from a highly diverse compound set of 2,816 compounds, 21 novel TR inhibiting compounds could be identified in the initial in vitro screening campaign against T. cruzi TR. All 21 in vitro hits were used in a subsequent similarity search-based in silico screening on a database containing 200,000 physically available compounds. The similarity search resulted in a data set containing 1,204 potential TR inhibitors, which was subjected to a second in vitro screening campaign leading to 61 additional active compounds. This corresponds to an approximately 10-fold enrichment compared to the initial pure in vitro screening. In total, 82 novel TR inhibitors with activities down to the nM range could be identified proving the validity of our combined in vitro/in silico approach. Moreover, the four most active compounds, showing IC50 values of, Author Summary Trypanosomatidae are responsible for approximately half a million human fatalities per annum and the situation is compounded by substantial economic losses due to affecting live stock as well. Trypanothione reductase (TR) is an essential key enzyme of the unique trypanothione-based thiol metabolism of the trypanosomatidae and TR is a promising target for the development of selective inhibitors. However, TR is a very hard to attack target in standard drug discovery approaches. Therefore, we developed a combined and iterative in vitro and in silico screening approach, which led to a high number of novel TR inhibitors. 82 of those showed activities down to the nM range against T. cruzi TR. Moreover, the four most active compounds were selected for determining the inhibitor constant. In first on parasite efficacy studies, three of those compounds inhibited the proliferation of bloodstream T. brucei cell line 449 with EC50 values down to 2 μM.

Published

2015

15. Genlight: Interactive high-throughput sequence analysis and comparative genomics

Author

Robert Giegerich, Alexander Sczyrba, Enno Ohlebusch, Paul M. Selzer, Jens T. Mailänder, Richard J. Marhöfer, and Michael Beckstette

Subjects

Comparative genomics, Flexibility (engineering), Sequence, Sequence analysis, Suite, Data processing, computer science, computer systems, General Medicine, Object-relational database, Biology, computer.software_genre, External Data Representation, Software system, Data mining, computer, TP248.13-248.65, Biotechnology

Abstract

With rising numbers of fully sequenced genomes the importance of comparative genomics is constantly increasing. Although several software systems for genome comparison analyses do exist, their functionality and flexibility is still limited, compared to the manifold possible applications. Therefore, we developed Genlight, a Client/Server based program suite for large scale sequence analysis and comparative genomics. Genlight uses the object relational database system PostgreSQL together with a state of the art data representation and a distributed execution approach for large scale analysis tasks. The system includes a wide variety of comparison and sequence manipulation methods and supports the management of nucleotide sequences as well as protein sequences. The comparison methods are complemented by a large variety of visualization methods for the assessment of the generated results. In order to demonstrate the suitability of the system for the treatment of biological questions, Genlight was used to identify potential drug and vaccine targets of the pathogen Helicobacter pylori. Availability: The Genlight system is publicly available for non-commercial use on http://piranha.techfak.uni-bielefeld.de. To retrieve a personal user account, please use the contact address mentioned on this page.

Published

2004

16. Antiparasitic and Antibacterial Drug Discovery : From Molecular Targets to Drug Candidates

Author

Paul M. Selzer and Paul M. Selzer

Subjects

Communicable diseases--Treatment, Antibacterial agents--Therapeutic use--Research, Anthelmintics--Therapeutic use--Research

Abstract

Addressing parasitic diseases and those caused by bacteria, this much needed reference and handbook provides a unique insight into the approach adopted by commercial science towards infectious diseases, including the work of medicinal chemists. Many of the authors are scientists with hands-on experience of drug discovery units within the pharmaceutical industry. In addition, the text covers efforts towards drug development in infectious diseases from academic groups and non profit organizations.

Published

2009

17. Cysteine protease inhibitors as chemotherapy: Lessons from a parasite target

Author

James H. McKerrow, Bernhard Ugele, Ivy Hsieh, David G. Russell, Victor J. Chan, Judy A. Sakanari, Paul M. Selzer, Juan C. Engel, Sabine Pingel, and Matthew Bogyo

Subjects

Proteases, medicine.medical_treatment, Antiprotozoal Agents, Leishmaniasis, Cutaneous, Biology, Cysteine Proteinase Inhibitors, chemistry.chemical_compound, Mice, Lysosome, Colloquium Paper, medicine, Animals, Leishmania major, Cells, Cultured, Mice, Inbred BALB C, Multidisciplinary, Protease, biology.organism_classification, Leishmania, Cysteine protease, Papain, Microscopy, Electron, medicine.anatomical_structure, Biochemistry, chemistry, Female

Abstract

Papain family cysteine proteases are key factors in the pathogenesis of cancer invasion, arthritis, osteoporosis, and microbial infections. Targeting this enzyme family is therefore one strategy in the development of new chemotherapy for a number of diseases. Little is known, however, about the efficacy, selectivity, and safety of cysteine protease inhibitors in cell culture orin vivo. We now report that specific cysteine protease inhibitors killLeishmaniaparasitesin vitro, at concentrations that do not overtly affect mammalian host cells. Inhibition ofLeishmaniacysteine protease activity was accompanied by defects in the parasite’s lysosome/endosome compartment resembling those seen in lysosomal storage diseases. Colocalization of anti-protease antibodies with biotinylated surface proteins and accumulation of undigested debris and protease in the flagellar pocket of treated parasites were consistent with a pathway of protease trafficking from flagellar pocket to the lysosome/endosome compartment. The inhibitors were sufficiently absorbed and stablein vivoto ameliorate the pathology associated with a mouse model ofLeishmaniainfection.

Published

1999

18. Virtual screening using structure-based consensus pharmacophore models and ensemble docking based on MD-generated conformations

Author

Oliver Koch, Christoph A. Sotriffer, Monika Nocker, Daniel Cappel, Paul M. Selzer, Timo Jaeger, and Leopold Flohé

Subjects

Virtual screening, lcsh:T58.5-58.64, lcsh:Information technology, Computational biology, Biology, Library and Information Sciences, Combinatorial chemistry, Computer Graphics and Computer-Aided Design, Leishmania sp, Computer Science Applications, lcsh:Chemistry, Molecular dynamics, Trypanothione biosynthesis, lcsh:QD1-999, Docking (molecular), Searching the conformational space for docking, Oral Presentation, Structure based, Pharmacophore, Physical and Theoretical Chemistry

Abstract

The protozoan parasites of the genus Trypanosoma sp. and Leishmania sp. are responsible for neglected diseases like Chagas’ disease, African sleeping sickness or Leishmaniasis. The trypanothione synthetase (TryS) is an attractive new drug target for the development of trypanocidal and antileishmanial drugs [1]. In our virtual screening campaign for targeting the trypanothione synthetase (TryS) we used representative protein conformations derived from a computational analysis using molecular dynamics (MD) simulations of this key component of trypanothione biosynthesis. The publicly available crystal structure lacks a variable loop region that is known to be important for trypanothione biosynthesis. MD simulations turned out to be a good tool to model this loop region and obtain a more complete set of protein conformations for subsequent use in virtual screening [2]. For creating a structure-based consensus pharmacophore model, Superstar [3] was deployed to generate favourable non-bonded interaction maps of different functional groups (probes) for all representative protein conformations. The pharmacophore model was then created for the rigid part of the binding pocket based on high- propensity peaks of these maps. The variable loop region was left out since it can not be depicted by this approach. To include also multiple conformations of the variable loop region, the new ensemble docking feature of Gold was used [4]. After a pharmacophore search within the ZINC database the retrieved molecules were simultaneously docked to the different protein conformations to identify the best combination of ligand pose and protein conformer. Finally, several high-scoring molecules were selected for further testing. We will discuss in detail this combined pharmacophore/ensemble docking approach based on MD simulations and will present the results of the compound selection for testing.

19. Filarial DAF-12 sense the host serum to resume iL3 development during infection.

Author

Rémy Bétous, Anthony Emile, Hua Che, Eva Guchen, Didier Concordet, Thavy Long, Sandra Noack, Paul M Selzer, Roger Prichard, and Anne Lespine

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Nematode parasites enter their definitive host at the developmentally arrested infectious larval stage (iL3), and the ligand-dependent nuclear receptor DAF-12 contributes to trigger their development to adulthood. Here, we characterized DAF-12 from the filarial nematodes Brugia malayi and Dirofilaria immitis and compared them with DAF-12 from the non-filarial nematodes Haemonchus contortus and Caenorhabditis elegans. Interestingly, Dim and BmaDAF-12 exhibit high sequence identity and share a striking higher sensitivity than Hco and CelDAF-12 to the natural ligands Δ4- and Δ7-dafachronic acids (DA). Moreover, sera from different mammalian species activated specifically Dim and BmaDAF-12 while the hormone-depleted sera failed to activate the filarial DAF-12. Accordingly, hormone-depleted serum delayed the commencement of development of D. immitis iL3 in vitro. Consistent with these observations, we show that spiking mouse charcoal stripped-serum with Δ4-DA at the concentration measured in normal mouse serum restores its capacity to activate DimDAF-12. This indicates that DA present in mammalian serum participate in filarial DAF-12 activation. Finally, analysis of publicly available RNA sequencing data from B. malayi showed that, at the time of infection, putative gene homologs of the DA synthesis pathways are coincidently downregulated. Altogether, our data suggest that filarial DAF-12 have evolved to specifically sense and survive in a host environment, which provides favorable conditions to quickly resume larval development. This work sheds new light on the regulation of filarial nematodes development while entering their definitive mammalian host and may open the route to novel therapies to treat filarial infections.

Published

2023

20. Imatinib treatment causes substantial transcriptional changes in adult Schistosoma mansoni in vitro exhibiting pleiotropic effects.

Author

Christin Buro, Svenja Beckmann, Katia C Oliveira, Colette Dissous, Katia Cailliau, Richard J Marhöfer, Paul M Selzer, Sergio Verjovski-Almeida, and Christoph G Grevelding

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Schistosome parasites cause schistosomiasis, one of the most important infectious diseases worldwide. For decades Praziquantel (PZQ) is the only drug widely used for controlling schistosomiasis. The absence of a vaccine and fear of PZQ resistance have motivated the search for alternatives. Studies on protein kinases (PKs) demonstrated their importance for diverse physiological processes in schistosomes. Among others two Abl tyrosine kinases, SmAbl1 and SmAbl2, were identified in Schistosoma mansoni and shown to be transcribed in the gonads and the gastrodermis. SmAbl1 activity was blocked by Imatinib, a known Abl-TK inhibitor used in human cancer therapy (Gleevec/Glivec). Imatinib exhibited dramatic effects on the morphology and physiology of adult schistosomes in vitro causing the death of the parasites.Here we show modeling data supporting the targeting of SmAbl1/2 by Imatinib. A biochemical assay confirmed that SmAbl2 activity is also inhibited by Imatinib. Microarray analyses and qRT-PCR experiments were done to unravel transcriptional processes influenced by Imatinib in adult schistosomes in vitro demonstrating a wide influence on worm physiology. Surface-, muscle-, gut and gonad-associated processes were affected as evidenced by the differential transcription of e.g. the gynecophoral canal protein gene GCP, paramyosin, titin, hemoglobinase, and cathepsins. Furthermore, transcript levels of VAL-7 and egg formation-associated genes such as tyrosinase 1, p14, and fs800-like were affected as well as those of signaling genes including a ribosomal protein S6 kinase and a glutamate receptor. Finally, a comparative in silico analysis of the obtained microarray data sets and previous data analyzing the effect of a TGFβR1 inhibitor on transcription provided first evidence for an association of TGFβ and Abl kinase signaling. Among others GCP and egg formation-associated genes were identified as common targets.The data affirm broad negative effects of Imatinib on worm physiology substantiating the role of PKs as interesting targets.

Published

2014

21. Molecular dynamics reveal binding mode of glutathionylspermidine by trypanothione synthetase.

Author

Oliver Koch, Daniel Cappel, Monika Nocker, Timo Jäger, Leopold Flohé, Christoph A Sotriffer, and Paul M Selzer

Subjects

Medicine, Science

Abstract

The trypanothione synthetase (TryS) catalyses the two-step biosynthesis of trypanothione from spermidine and glutathione and is an attractive new drug target for the development of trypanocidal and antileishmanial drugs, especially since the structural information of TryS from Leishmania major has become available. Unfortunately, the TryS structure was solved without any of the substrates and lacks loop regions that are mechanistically important. This contribution describes docking and molecular dynamics simulations that led to further insights into trypanothione biosynthesis and, in particular, explains the binding modes of substrates for the second catalytic step. The structural model essentially confirm previously proposed binding sites for glutathione, ATP and two Mg(2+) ions, which appear identical for both catalytic steps. The analysis of an unsolved loop region near the proposed spermidine binding site revealed a new pocket that was demonstrated to bind glutathionylspermidine in an inverted orientation. For the second step of trypanothione synthesis glutathionylspermidine is bound in a way that preferentially allows N(1)-glutathionylation of N(8)-glutathionylspermidine, classifying N(8)-glutathionylspermidine as the favoured substrate. By inhibitor docking, the binding site for N(8)-glutathionylspermidine was characterised as druggable.

Published

2013

22. Identification of semicarbazones, thiosemicarbazones and triazine nitriles as inhibitors of Leishmania mexicana cysteine protease CPB.

Author

Jörg Schröder, Sandra Noack, Richard J Marhöfer, Jeremy C Mottram, Graham H Coombs, and Paul M Selzer

Subjects

Medicine, Science

Abstract

Cysteine proteases of the papain superfamily are present in nearly all eukaryotes. They play pivotal roles in the biology of parasites and inhibition of cysteine proteases is emerging as an important strategy to combat parasitic diseases such as sleeping sickness, Chagas' disease and leishmaniasis. Homology modeling of the mature Leishmania mexicana cysteine protease CPB2.8 suggested that it differs significantly from bovine cathepsin B and thus could be a good drug target. High throughput screening of a compound library against this enzyme and bovine cathepsin B in a counter assay identified four novel inhibitors, containing the warhead-types semicarbazone, thiosemicarbazone and triazine nitrile, that can be used as leads for antiparasite drug design. Covalent docking experiments confirmed the SARs of these lead compounds in an effort to understand the structural elements required for specific inhibition of CPB2.8. This study has provided starting points for the design of selective and highly potent inhibitors of L. mexicana cysteine protease CPB that may also have useful efficacy against other important cysteine proteases.

Published

2013

23. A comparative chemogenomics strategy to predict potential drug targets in the metazoan pathogen, Schistosoma mansoni.

Author

Conor R Caffrey, Andreas Rohwer, Frank Oellien, Richard J Marhöfer, Simon Braschi, Guilherme Oliveira, James H McKerrow, and Paul M Selzer

Subjects

Medicine, Science

Abstract

Schistosomiasis is a prevalent and chronic helmintic disease in tropical regions. Treatment and control relies on chemotherapy with just one drug, praziquantel and this reliance is of concern should clinically relevant drug resistance emerge and spread. Therefore, to identify potential target proteins for new avenues of drug discovery we have taken a comparative chemogenomics approach utilizing the putative proteome of Schistosoma mansoni compared to the proteomes of two model organisms, the nematode, Caenorhabditis elegans and the fruitfly, Drosophila melanogaster. Using the genome comparison software Genlight, two separate in silico workflows were implemented to derive a set of parasite proteins for which gene disruption of the orthologs in both the model organisms yielded deleterious phenotypes (e.g., lethal, impairment of motility), i.e., are essential genes/proteins. Of the 67 and 68 sequences generated for each workflow, 63 were identical in both sets, leading to a final set of 72 parasite proteins. All but one of these were expressed in the relevant developmental stages of the parasite infecting humans. Subsequent in depth manual curation of the combined workflow output revealed 57 candidate proteins. Scrutiny of these for 'druggable' protein homologs in the literature identified 35 S. mansoni sequences, 18 of which were homologous to proteins with 3D structures including co-crystallized ligands that will allow further structure-based drug design studies. The comparative chemogenomics strategy presented generates a tractable set of S. mansoni proteins for experimental validation as drug targets against this insidious human pathogen.

Published

2009