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2. Fluorescent image-guided surgery in breast cancer by intravenous application of a quenched fluorescence activity-based probe for cysteine cathepsins in a syngeneic mouse model

Author

Frans V. Suurs, Si-Qi Qiu, Joshua J. Yim, Carolien P. Schröder, Hetty Timmer-Bosscha, Eric S. Bensen, John T. Santini, Elisabeth G. E. de Vries, Matthew Bogyo, and Gooitzen M. van Dam

Subjects
Image-guided surgery (IGS), Quenched fluorescent activity-based probe (qABP), Cathepsin targeting, Indocyanine green (ICG), Breast cancer, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Abstract Purpose The reoperation rate for breast-conserving surgery is as high as 15–30% due to residual tumor in the surgical cavity after surgery. In vivo tumor-targeted optical molecular imaging may serve as a red-flag technique to improve intraoperative surgical margin assessment and to reduce reoperation rates. Cysteine cathepsins are overexpressed in most solid tumor types, including breast cancer. We developed a cathepsin-targeted, quenched fluorescent activity-based probe, VGT-309, and evaluated whether it could be used for tumor detection and image-guided surgery in syngeneic tumor-bearing mice. Methods Binding specificity of the developed probe was evaluated in vitro. Next, fluorescent imaging in BALB/c mice bearing a murine breast tumor was performed at different time points after VGT-309 administration. Biodistribution of VGT-309 after 24 h in tumor-bearing mice was compared to control mice. Image-guided surgery was performed at multiple time points tumors with different clinical fluorescent camera systems and followed by ex vivo analysis. Results The probe was specifically activated by cathepsins X, B/L, and S. Fluorescent imaging revealed an increased tumor-to-background contrast over time up to 15.1 24 h post probe injection. In addition, VGT-309 delineated tumor tissue during image-guided surgery with different optical fluorescent imaging camera systems. Conclusion These results indicate that optical fluorescent molecular imaging using the cathepsin-targeted probe, VGT-309, may improve intraoperative tumor detection, which could translate to more complete tumor resection when coupled with commercially available surgical tools and techniques.

Published
2020
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3. Trypanosoma brucei Acyl-Protein Thioesterase-like (TbAPT-L) Is a Lipase with Esterase Activity for Short and Medium-Chain Fatty Acids but Has No Depalmitoylation Activity

Author

Robert W. B. Brown, Aabha I. Sharma, Miguel Rey Villanueva, Xiaomo Li, Ouma Onguka, Leeor Zilbermintz, Helen Nguyen, Ben A. Falk, Cheryl L. Olson, Joann M. Taylor, Conrad L. Epting, Rahul S. Kathayat, Neri Amara, Bryan C. Dickinson, Matthew Bogyo, and David M. Engman

Subjects
trypanosome, Trypanosoma brucei, post-translational modification, palmitoylation, depalmitoylation, alpha/beta hydrolase, Medicine
Abstract

Dynamic post-translational modifications allow the rapid, specific, and tunable regulation of protein functions in eukaryotic cells. S-acylation is the only reversible lipid modification of proteins, in which a fatty acid, usually palmitate, is covalently attached to a cysteine residue of a protein by a zDHHC palmitoyl acyltransferase enzyme. Depalmitoylation is required for acylation homeostasis and is catalyzed by an enzyme from the alpha/beta hydrolase family of proteins usually acyl-protein thioesterase (APT1). The enzyme responsible for depalmitoylation in Trypanosoma brucei parasites is currently unknown. We demonstrate depalmitoylation activity in live bloodstream and procyclic form trypanosomes sensitive to dose-dependent inhibition with the depalmitoylation inhibitor, palmostatin B. We identified a homologue of human APT1 in Trypanosoma brucei which we named TbAPT-like (TbAPT-L). Epitope-tagging of TbAPT-L at N- and C- termini indicated a cytoplasmic localization. Knockdown or over-expression of TbAPT-L in bloodstream forms led to robust changes in TbAPT-L mRNA and protein expression but had no effect on parasite growth in vitro, or cellular depalmitoylation activity. Esterase activity in cell lysates was also unchanged when TbAPT-L was modulated. Unexpectedly, recombinant TbAPT-L possesses esterase activity with specificity for short- and medium-chain fatty acid substrates, leading to the conclusion, TbAPT-L is a lipase, not a depalmitoylase.

Published
2022
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5. The glucosyltransferase activity of C. difficile Toxin B is required for disease pathogenesis.

Author

Terry W Bilverstone, Megan Garland, Rory J Cave, Michelle L Kelly, Martina Tholen, Donna M Bouley, Philip Kaye, Nigel P Minton, Matthew Bogyo, Sarah A Kuehne, and Roman A Melnyk

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

Enzymatic inactivation of Rho-family GTPases by the glucosyltransferase domain of Clostridioides difficile Toxin B (TcdB) gives rise to various pathogenic effects in cells that are classically thought to be responsible for the disease symptoms associated with C. difficile infection (CDI). Recent in vitro studies have shown that TcdB can, under certain circumstances, induce cellular toxicities that are independent of glucosyltransferase (GT) activity, calling into question the precise role of GT activity. Here, to establish the importance of GT activity in CDI disease pathogenesis, we generated the first described mutant strain of C. difficile producing glucosyltransferase-defective (GT-defective) toxin. Using allelic exchange (AE) technology, we first deleted tcdA in C. difficile 630Δerm and subsequently introduced a deactivating D270N substitution in the GT domain of TcdB. To examine the role of GT activity in vivo, we tested each strain in two different animal models of CDI pathogenesis. In the non-lethal murine model of infection, the GT-defective mutant induced minimal pathology in host tissues as compared to the profound caecal inflammation seen in the wild-type and 630ΔermΔtcdA (ΔtcdA) strains. In the more sensitive hamster model of CDI, whereas hamsters in the wild-type or ΔtcdA groups succumbed to fulminant infection within 4 days, all hamsters infected with the GT-defective mutant survived the 10-day infection period without primary symptoms of CDI or evidence of caecal inflammation. These data demonstrate that GT activity is indispensable for disease pathogenesis and reaffirm its central role in disease and its importance as a therapeutic target for small-molecule inhibition.

Published
2020
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6. The Clinical Drug Ebselen Attenuates Inflammation and Promotes Microbiome Recovery in Mice after Antibiotic Treatment for CDI

Author

Megan Garland, Andrew J. Hryckowian, Martina Tholen, Kristina Oresic Bender, William W. Van Treuren, Sebastian Loscher, Justin L. Sonnenburg, and Matthew Bogyo

Subjects
ebselen, microbiome diversity, antibitoic treatment, vancomycin, clostridium difficile, microbiome recovery, Medicine (General), R5-920
Abstract

Summary: Clostridium difficile infection (CDI) is an enteric bacterial disease that is increasing in prevalence worldwide. C. difficile capitalizes on gut inflammation and microbiome dysbiosis to establish infection, with symptoms ranging from watery diarrhea to toxic megacolon. We reported that the safe-in-human clinical drug ebselen (ClinicalTrials.gov: NCT03013400, NCT01452607, NCT00762671, and NCT02603081) has biochemical, cell-based, and in vivo efficacy against the toxins of C. difficile. Here, we show that ebselen treatment reduces recurrence rates and decreases colitis in a hamster model of relapsing CDI. Furthermore, ebselen treatment does not alter microbiome diversity and promotes recovery back to that of healthy controls after antibiotic-induced dysbiosis in healthy and C. difficile-infected mice. This increased microbiome recovery upon ebselen treatment correlates with a decrease in host-derived inflammatory markers, suggesting that the anti-inflammatory properties of ebselen, combined with its anti-toxin function, help to mitigate the major clinical challenges of CDI, including recurrence, microbial dysbiosis, and colitis.

Published
2020
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7. Reactive-site-centric chemoproteomics identifies a distinct class of deubiquitinase enzymes

Author

David S. Hewings, Johanna Heideker, Taylur P. Ma, Andrew P. AhYoung, Farid El Oualid, Alessia Amore, Gregory T. Costakes, Daniel Kirchhofer, Bradley Brasher, Thomas Pillow, Nataliya Popovych, Till Maurer, Carsten Schwerdtfeger, William F. Forrest, Kebing Yu, John Flygare, Matthew Bogyo, and Ingrid E. Wertz

Subjects
Science
Abstract

Deubiquitinases are proteases that cleave after the C-terminus of ubiquitin to hydrolyze ubiquitin chains and cleave ubiquitin from substrates. Here the authors describe a reactive-site-centric chemoproteomics approach to studying deubiquitinase activity, and expand the repertoire of known deubiquitinases.

Published
2018
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8. TGF-ß Regulates Cathepsin Activation during Normal and Pathogenic Development

Author

Heather Flanagan-Steet, Courtney Christian, Po-Nien Lu, Megan Aarnio-Peterson, Laura Sanman, Stephanie Archer-Hartmann, Parastoo Azadi, Matthew Bogyo, and Richard A. Steet

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Cysteine cathepsins play roles during development and disease beyond their function in lysosomal protein turnover. Here, we leverage a fluorescent activity-based probe (ABP), BMV109, to track cysteine cathepsins in normal and diseased zebrafish embryos. Using this probe in a model of mucolipidosis II, we show that loss of carbohydrate-dependent lysosomal sorting alters the activity of several cathepsin proteases. The data support a pathogenic mechanism where TGF-ß signals enhance the proteolytic processing of pro-Ctsk by modulating the expression of chondroitin 4-sulfate (C4-S). In MLII, elevated C4-S corresponds with TGF-ß-mediated increases in chst11 expression. Inhibiting chst11 impairs the proteolytic activation of Ctsk and alleviates the MLII phenotypes. These findings uncover a regulatory loop between TGF-ß signaling and Ctsk activation that is altered in the context of lysosomal disease. This work highlights the power of ABPs to identify mechanisms underlying pathogenic development in living animals. : Chondroitin sulfate is a known regulator of cathepsin protease activity. Flanagan-Steet et al. identify a positive feedback mechanism whereby cathepsins secreted from chondrocytes upon loss of lysosomal targeting activate TGF-ß signaling in developing cartilage. This increased signaling, in turn, stimulates chondroitin-4 sulfation and enhances cathepsin activity. Keywords: activity-based profiling, cathepsin proteases, lysosomes, cartilage, zebrafish, mucolipidosis, glycosylation, glycosaminoglycans

Published
2018
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9. Inhibition of NGLY1 Inactivates the Transcription Factor Nrf1 and Potentiates Proteasome Inhibitor Cytotoxicity

Author

Frederick M. Tomlin, Ulla I. M. Gerling-Driessen, Yi-Chang Liu, Ryan A. Flynn, Janakiram R. Vangala, Christian S. Lentz, Sandra Clauder-Muenster, Petra Jakob, William F. Mueller, Diana Ordoñez-Rueda, Malte Paulsen, Naoko Matsui, Deirdre Foley, Agnes Rafalko, Tadashi Suzuki, Matthew Bogyo, Lars M. Steinmetz, Senthil K. Radhakrishnan, and Carolyn R. Bertozzi

Subjects
Chemistry, QD1-999
Published
2017
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10. The lysosomal protein cathepsin L is a progranulin protease

Author

Chris W. Lee, Jeannette N. Stankowski, Jeannie Chew, Casey N. Cook, Ying-Wai Lam, Sandra Almeida, Yari Carlomagno, Kwok-Fai Lau, Mercedes Prudencio, Fen-Biao Gao, Matthew Bogyo, Dennis W. Dickson, and Leonard Petrucelli

Subjects
Progranulin, Lysosome, Cathepsin L, Neutrophil elastase, Frontotemporal lobar degeneration, Neuronal ceroid lipofuscinosis, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Abstract Haploinsufficiency of GRN, the gene encoding progranulin (PGRN), causes frontotemporal lobar degeneration (FTLD), the second most common cause of early-onset dementia. Receptor-mediated lysosomal targeting has been shown to regulate brain PGRN levels, and complete deficiency of PGRN is a direct cause of neuronal ceroid lipofuscinosis (NCL), a lysosomal storage disease. Here we show that the lysosomal cysteine protease cathepsin L (Cat L) can mediate the proteolytic cleavage of intracellular PGRN into poly-granulin and granulin fragments. Further, PGRN and Cat L co-localize in lysosomes of HEK293 cells, iPSC-derived neurons and human cortical neurons from human postmortem tissue. These data identify Cat L as a key intracellular lysosomal PGRN protease, and provides an intriguing new link between lysosomal dysfunction and FTLD.

Published
2017
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11. Covalent Plasmodium falciparum-selective proteasome inhibitors exhibit a low propensity for generating resistance in vitro and synergize with multiple antimalarial agents.

Author

Barbara H Stokes, Euna Yoo, James M Murithi, Madeline R Luth, Pavel Afanasyev, Paula C A da Fonseca, Elizabeth A Winzeler, Caroline L Ng, Matthew Bogyo, and David A Fidock

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

Therapeutics with novel modes of action and a low risk of generating resistance are urgently needed to combat drug-resistant Plasmodium falciparum malaria. Here, we report that the peptide vinyl sulfones WLL-vs (WLL) and WLW-vs (WLW), highly selective covalent inhibitors of the P. falciparum proteasome, potently eliminate genetically diverse parasites, including K13-mutant, artemisinin-resistant lines, and are particularly active against ring-stage parasites. Selection studies reveal that parasites do not readily acquire resistance to WLL or WLW and that mutations in the β2, β5 or β6 subunits of the 20S proteasome core particle or in components of the 19S proteasome regulatory particle yield only hundred-fold decreases in susceptibility. We observed no cross-resistance between WLL and WLW. Moreover, most mutations that conferred a modest loss of parasite susceptibility to one inhibitor significantly increased sensitivity to the other. These inhibitors potently synergized multiple chemically diverse classes of antimalarial agents, implicating a shared disruption of proteostasis in their modes of action. These results underscore the potential of targeting the Plasmodium proteasome with covalent small molecule inhibitors as a means of combating multidrug-resistant malaria.

Published
2019
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12. Abstract OR-12: Cryo-EM of Human and Parasite Proteasomes for Structure-Based Drug Design

Author

Pavel Afanasyev, Euna Yoo, Matthew Bogyo, and Paula C.A. da Fonseca

Subjects
proteasome inhibition, cryo-EM, Plasmodium falciparum, structure-based drug design, Medicine
Abstract

Background: The increasing spread of Plasmodium falciparum resistance to current antimalarials, including the frontline artemisinin and its derivatives, represents a major global threat to human health and urges the development of novel medicaments. For many years, proteasomal inhibition by specific chemical compounds has been considered for use in medicine. Using cryo-electron microscopy (cryo-EM), we previously demonstrated functional and structural differences between the human and the Plasmodium proteasomes that are sufficient to allow specific inhibition, particularly by the vinyl sulfone compound WLW-vs (H. Li, et al. Nature 530(7589): 233-236 2016). However, a detailed description of the molecular basis for the parasite proteasome specific targeting is still missing. Methods and Results: Here we present a structural cryo-EM analysis of the Plasmodium 20S proteasome in the presence of the novel EY-3-123 Plasmodium proteasome inhibitor (compound 21 in E. Yoo, et al. J. Am. Chem. Soc. 140, 36, 11424-11437 (2018)). This compound has been shown to be the most potent Plasmodium specific inhibitor within a library of novel vinyl-sulfone compounds. Single-particle analysis of this sample by extensive image classification allowed solving two high resolution proteasome structures, at about 3 Å, corresponding to Plasmodium and human complexes with inhibitor bound. Direct comparison of the active sites in these proteasome structures reveals the molecular basis for the Plasmodium proteasome specific inhibition. Conclusion: The new structural information can be directly used for further development of proteasome inhibitors as potential antimalarials. This work demonstrates the high potential of cryo-EM in modern structure-based drug design.

Published
2019
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13. Identification of Plasmodium dipeptidyl aminopeptidase allosteric inhibitors by high throughput screening.

Author

Mateo I Sanchez, Laura E de Vries, Christine Lehmann, Jeong T Lee, Kenny K Ang, Christopher Wilson, Steven Chen, Michelle R Arkin, Matthew Bogyo, and Edgar Deu

Subjects
Medicine, Science
Abstract

Dipeptidyl aminopeptidases (DPAPs) are cysteine proteases that cleave dipeptides from the N-terminus of protein substrates and have been shown to play important roles in many pathologies including parasitic diseases such as malaria, toxoplasmosis and Chagas's disease. Inhibitors of the mammalian homologue cathepsin C have been used in clinical trials as potential drugs to treat chronic inflammatory disorders, thus proving that these enzymes are druggable. In Plasmodium species, DPAPs play important functions at different stages of parasite development, thus making them potential antimalarial targets. Most DPAP inhibitors developed to date are peptide-based or peptidomimetic competitive inhibitors. Here, we used a high throughput screening approach to identify novel inhibitor scaffolds that block the activity of Plasmodium falciparum DPAP1. Most of the hits identified in this screen also inhibit Plasmodium falciparum DPAP3, cathepsin C, and to a lesser extent other malarial clan CA proteases, indicating that these might be general DPAP inhibitors. Interestingly, our mechanism of inhibition studies indicate that most hits are allosteric inhibitors, which opens a completely new strategy to inhibit these enzymes, study their biological function, and potentially develop new inhibitors as starting points for drug development.

Published
2019
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15. Pre-Trained Deep Convolutional Neural Network for Clostridioides Difficile Bacteria Cytotoxicity Classification Based on Fluorescence Images

Author

Andrzej Brodzicki, Joanna Jaworek-Korjakowska, Pawel Kleczek, Megan Garland, and Matthew Bogyo

Subjects
clostridioides difficile, fluorescence images, image analysis, classification, deep neural networks, convolutional neural networks, Chemical technology, TP1-1185
Abstract

Clostridioides difficile infection (CDI) is an enteric bacterial disease that is increasing in incidence worldwide. Symptoms of CDI range from mild diarrhea to severe life-threatening inflammation of the colon. While antibiotics are standard-of-care treatments for CDI, they are also the biggest risk factor for development of CDI and recurrence. Therefore, novel therapies that successfully treat CDI and protect against recurrence are an unmet clinical need. Screening for novel drug leads is often tested by manual image analysis. The process is slow, tedious and is subject to human error and bias. So far, little work has focused on computer-aided screening for drug leads based on fluorescence images. Here, we propose a novel method to identify characteristic morphological changes in human fibroblast cells exposed to C. difficile toxins based on computer vision algorithms supported by deep learning methods. Classical image processing algorithms for the pre-processing stage are used together with an adjusted pre-trained deep convolutional neural network responsible for cell classification. In this study, we take advantage of transfer learning methodology by examining pre-trained VGG-19, ResNet50, Xception, and DenseNet121 convolutional neural network (CNN) models with adjusted, densely connected classifiers. We compare the obtained results with those of other machine learning algorithms and also visualize and interpret them. The proposed models have been evaluated on a dataset containing 369 images with 6112 cases. DenseNet121 achieved the highest results with a 93.5% accuracy, 92% sensitivity, and 95% specificity, respectively.

Published
2020
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16. The Toxoplasma gondii Active Serine Hydrolase 4 Regulates Parasite Division and Intravacuolar Parasite Architecture

Author

Ian T. Foe, Ouma Onguka, Katherine Amberg-Johnson, Rikki M. Garner, Neri Amara, Wandy Beatty, Ellen Yeh, and Matthew Bogyo

Subjects
ASH proteins, serine hydrolase, cell division, intravacuolar organization, Microbiology, QR1-502
Abstract

ABSTRACT Hydrolase are enzymes that regulate diverse biological processes, including posttranslational protein modifications. Recent work identified four active serine hydrolases (ASHs) in Toxoplasma gondii as candidate depalmitoylases. However, only TgPPT1 (ASH1) has been confirmed to remove palmitate from proteins. ASH4 (TgME49_264290) was reported to be refractory to genetic disruption. We demonstrate that recombinant ASH4 is an esterase that processes short acyl esters but not palmitoyl thioesters. Genetic disruption of ASH4 causes defects in cell division and premature scission of parasites from residual bodies. These defects lead to the presence of vacuoles with a disordered intravacuolar architecture, with parasites arranged in pairs around multiple residual bodies. Importantly, we found that the deletion of ASH4 correlates with a defect in radial dispersion from host cells after egress. This defect in dispersion of parasites is a general phenomenon that is observed for disordered vacuoles that occur at low frequency in wild-type parasites, suggesting a possible general link between intravacuolar organization and dispersion after egress. IMPORTANCE This work defines the function of an enzyme in the obligate intracellular parasite Toxoplasma gondii. We show that this previously uncharacterized enzyme is critical for aspects of cellular division by the parasite and that loss of this enzyme leads to parasites with cell division defects and which also are disorganized inside their vacuoles. This leads to defects in the ability of the parasite to disseminate from the site of an infection and may have a significant impact on the parasite's overall infectivity of a host organism.

Published
2018
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18. Validation of near infrared fluorescence (NIRF) probes in vivo with dual laser NIRF endoscope.

Author

Manisha Shrivastav, Elias Gounaris, Mohammad W Khan, Jeffrey Ko, Stacy H Ryu, Matthew Bogyo, Andrew Larson, Terrence A Barret, and David J Bentrem

Subjects
Medicine, Science
Abstract

PURPOSE:The development of NIRF cathepsin activity probes offered the ability to visualize tumor associated tumor reaction and act as a surrogate marker to delineate the dysplastic lesions. One major type is a NIRF substrate of cathepsins (SBP), which is involved in catalytic way to produce high levels of fluorescence emission. The other major type (ABP) reacts with active cathepsins in stoichiometric manner since they bind covalently with their active center. Little is known about the sensitivity and the specificity of the NIRF probes to detect autochthonous developed dysplastic lesions. Dual laser NIRF endoscope provides a good tool to determine the efficiency of various NIRF probes in vivo in the same lesions. EXPERIMENTAL DESIGN:In the current study, we validated both types of NIRF probes by using the dual laser NIRF endoscope to detect lesions colon cancer mouse model (TS4Cre/cAPC +/lox). RESULTS:The dual laser NIRF endoscope is emitting equal power with both lasers. It can detect with the same efficiency in 680 mode, as well as, 750 mode when NIFR probes of the same scaffold in vivo. When SBP and ABP were used, our results showed both probes are efficient enough to detect large polyps but small dysplastic lesions could not efficiently imaged with the ABP. CONCLUSIONS:The dual laser NIRF endoscope is a powerful tool to validate probes. The probes that react catalytically with the active center of cathepsins are more efficient than the ones that react stoichiometrically in detecting small lesions.

Published
2018
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19. Development of an activity-based probe for acyl-protein thioesterases.

Author

Megan Garland, Christopher J Schulze, Ian T Foe, Wouter A van der Linden, Matthew A Child, and Matthew Bogyo

Subjects
Medicine, Science
Abstract

Protein palmitoylation is a dynamic post-translational modification (PTM) important for cellular functions such as protein stability, trafficking, localization, and protein-protein interactions. S-palmitoylation occurs via the addition of palmitate to cysteine residues via a thioester linkage, catalyzed by palmitoyl acyl transferases (PATs), with removal of the palmitate catalyzed by acyl protein thioesterases (APTs) and palmitoyl-protein thioesterases (PPTs). Tools that target the regulators of palmitoylation-PATs, APTs and PPTs-will improve understanding of this essential PTM. Here, we describe the synthesis and application of a cell-permeable activity-based probe (ABP) that targets APTs in intact mammalian cells and the parasite Toxoplasma gondii. Using a focused library of substituted chloroisocoumarins, we identified a probe scaffold with nanomolar affinity for human APTs (HsAPT1 and HsAPT2) and synthesized a fluorescent ABP, JCP174-BODIPY TMR (JCP174-BT). We use JCP174-BT to profile HsAPT activity in situ in mammalian cells, to detect an APT in T. gondii (TgPPT1). We show discordance between HsAPT activity levels and total protein concentration in some cell lines, indicating that total protein levels may not be representative of APT activity in complex systems, highlighting the utility of this probe.

Published
2018
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20. Deletion of the rodent malaria ortholog for falcipain-1 highlights differences between hepatic and blood stage merozoites.

Author

Christine S Hopp, Brandy L Bennett, Satish Mishra, Christine Lehmann, Kirsten K Hanson, Jing-Wen Lin, Kimberly Rousseau, Filomena A Carvalho, Wouter A van der Linden, Nuno C Santos, Matthew Bogyo, Shahid M Khan, Volker Heussler, and Photini Sinnis

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

Proteases have been implicated in a variety of developmental processes during the malaria parasite lifecycle. In particular, invasion and egress of the parasite from the infected hepatocyte and erythrocyte, critically depend on protease activity. Although falcipain-1 was the first cysteine protease to be characterized in P. falciparum, its role in the lifecycle of the parasite has been the subject of some controversy. While an inhibitor of falcipain-1 blocked erythrocyte invasion by merozoites, two independent studies showed that falcipain-1 disruption did not affect growth of blood stage parasites. To shed light on the role of this protease over the entire Plasmodium lifecycle, we disrupted berghepain-1, its ortholog in the rodent parasite P. berghei. We found that this mutant parasite displays a pronounced delay in blood stage infection after inoculation of sporozoites. Experiments designed to pinpoint the defect of berghepain-1 knockout parasites found that it was not due to alterations in gliding motility, hepatocyte invasion or liver stage development and that injection of berghepain-1 knockout merosomes replicated the phenotype of delayed blood stage growth after sporozoite inoculation. We identified an additional role for berghepain-1 in preparing blood stage merozoites for infection of erythrocytes and observed that berghepain-1 knockout parasites exhibit a reticulocyte restriction, suggesting that berghepain-1 activity broadens the erythrocyte repertoire of the parasite. The lack of berghepain-1 expression resulted in a greater reduction in erythrocyte infectivity in hepatocyte-derived merozoites than it did in erythrocyte-derived merozoites. These observations indicate a role for berghepain-1 in processing ligands important for merozoite infectivity and provide evidence supporting the notion that hepatic and erythrocytic merozoites, though structurally similar, are not identical.

Published
2017
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21. Toxoplasma DJ-1 Regulates Organelle Secretion by a Direct Interaction with Calcium-Dependent Protein Kinase 1

Author

Matthew A. Child, Megan Garland, Ian Foe, Peter Madzelan, Moritz Treeck, Wouter A. van der Linden, Kristina Oresic Bender, Eranthie Weerapana, Mark A. Wilson, John C. Boothroyd, Michael L. Reese, and Matthew Bogyo

Subjects
Microbiology, QR1-502
Abstract

ABSTRACT Human DJ-1 is a highly conserved and yet functionally enigmatic protein associated with a heritable form of Parkinson’s disease. It has been suggested to be a redox-dependent regulatory scaffold, binding to proteins to modulate their function. Here we present the X-ray crystal structure of the Toxoplasma orthologue Toxoplasma gondii DJ-1 (TgDJ-1) at 2.1-Å resolution and show that it directly associates with calcium-dependent protein kinase 1 (CDPK1). The TgDJ-1 structure identifies an orthologously conserved arginine dyad that acts as a phospho-gatekeeper motif to control complex formation. We determined that the binding of TgDJ-1 to CDPK1 is sensitive to oxidation and calcium, and that this interaction potentiates CDPK1 kinase activity. Finally, we show that genetic deletion of TgDJ-1 results in upregulation of CDPK1 expression and that disruption of the CDPK1/TgDJ-1 complex in vivo prevents normal exocytosis of parasite virulence-associated organelles called micronemes. Overall, our data suggest that TgDJ-1 functions as a noncanonical kinase-regulatory scaffold that integrates multiple intracellular signals to tune microneme exocytosis in T. gondii. IMPORTANCE Apicomplexan parasites such as Toxoplasma and Plasmodium are obligate intracellular parasites that require the protective environment of a host cell in order to replicate and survive within a host organism. These parasites secrete effector proteins from specialized apical organelles to select and invade a chosen host cell. The secretion of these organelles is a tightly regulated process coordinated by endogenous small molecules and calcium-dependent protein kinases. We previously identified the Toxoplasma orthologue of the highly conserved protein DJ-1 as a regulator of microneme secretion, but the molecular basis for this was not known. We have now identified the molecular mechanism for how TgDJ-1 regulates microneme secretion. TgDJ-1 interacts with the kinase responsible for the secretion of these organelles (calcium-dependent kinase 1) and synergizes with calcium to potentiate kinase activity. This interaction is direct, phosphodependent, and necessary for the normal secretion of these important organelles.

Published
2017
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22. Acid-Mediated Tumor Proteolysis: Contribution of Cysteine Cathepsins

Author

Jennifer M Rothberg, Kate M Bailey, Jonathan W Wojtkowiak, Yael Ben-Nun, Matthew Bogyo, Ekkehard Weber, Kamiar Moin, Galia Blum, Raymond R Mattingly, Robert J Gillies, and Bonnie F Sloane

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

One of the noncellular microenvironmental factors that contribute to malignancy of solid tumors is acidic peritumoral pH. We have previously demonstrated that extracellular acidosis leads to localization of the cysteine pro-tease cathepsin B on the tumor cell membrane and its secretion. The objective of the present study was to determine if an acidic extracellular pH such as that observed in vivo (i.e., pHe 6.8) affects the activity of proteases, e.g., cathepsin B, that contribute to degradation of collagen IV by tumor cells when grown in biologically relevant three-dimensional (3D) cultures. For these studies, we used 1) 3D reconstituted basement membrane overlay cultures of human carcinomas, 2) live cell imaging assays to assess proteolysis, and 3) in vivo imaging of active tumor proteases. At pHe 6.8, there were increases in pericellular active cysteine cathepsins and in degradation of dye-quenched collagen IV, which was partially blocked by a cathepsin B inhibitor. Imaging probes for active cysteine cathepsins localized to tumors in vivo. The amount of bound probe decreased in tumors in bicarbonate-treated mice, a treatment previously shown to increase peritumoral pHe and reduce local invasion of the tumors. Our results are consistent with the acid-mediated invasion hypothesis and with a role for cathepsin B in promoting degradation of a basement membrane protein substrate, i.e., type IV collagen, in an acidic peritumoral environment.

Published
2013
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23. Disruption of glycolytic flux is a signal for inflammasome signaling and pyroptotic cell death

Author

Laura E Sanman, Yu Qian, Nicholas A Eisele, Tessie M Ng, Wouter A van der Linden, Denise M Monack, Eranthie Weerapana, and Matthew Bogyo

Subjects
Salmonella typhimurium, inflammasome, glycolysis, pyroptosis, NLRP3, Caspase-1, Medicine, Science, Biology (General), QH301-705.5
Abstract

When innate immune cells such as macrophages are challenged with environmental stresses or infection by pathogens, they trigger the rapid assembly of multi-protein complexes called inflammasomes that are responsible for initiating pro-inflammatory responses and a form of cell death termed pyroptosis. We describe here the identification of an intracellular trigger of NLRP3-mediated inflammatory signaling, IL-1β production and pyroptosis in primed murine bone marrow-derived macrophages that is mediated by the disruption of glycolytic flux. This signal results from a drop of NADH levels and induction of mitochondrial ROS production and can be rescued by addition of products that restore NADH production. This signal is also important for host-cell response to the intracellular pathogen Salmonella typhimurium, which can disrupt metabolism by uptake of host-cell glucose. These results reveal an important inflammatory signaling network used by immune cells to sense metabolic dysfunction or infection by intracellular pathogens.

Published
2016
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24. Cathepsin Activity-Based Probes and Inhibitor for Preclinical Atherosclerosis Imaging and Macrophage Depletion.

Author

Ihab Abd-Elrahman, Hisanori Kosuge, Tommy Wises Sadan, Yael Ben-Nun, Karen Meir, Chen Rubinstein, Matthew Bogyo, Michael V McConnell, and Galia Blum

Subjects
Medicine, Science
Abstract

Cardiovascular disease is the leading cause of death worldwide, mainly due to an increasing prevalence of atherosclerosis characterized by inflammatory plaques. Plaques with high levels of macrophage infiltration are considered "vulnerable" while those that do not have significant inflammation are considered stable; cathepsin protease activity is highly elevated in macrophages of vulnerable plaques and contributes to plaque instability. Establishing novel tools for non-invasive molecular imaging of macrophages in plaques could aid in preclinical studies and evaluation of therapeutics. Furthermore, compounds that reduce the macrophage content within plaques should ultimately impact care for this disease.We have applied quenched fluorescent cathepsin activity-based probes (ABPs) to a murine atherosclerosis model and evaluated their use for in vivo imaging using fluorescent molecular tomography (FMT), as well as ex vivo fluorescence imaging and fluorescent microscopy. Additionally, freshly dissected human carotid plaques were treated with our potent cathepsin inhibitor and macrophage apoptosis was evaluated by fluorescent microscopy.We demonstrate that our ABPs accurately detect murine atherosclerotic plaques non-invasively, identifying cathepsin activity within plaque macrophages. In addition, our cathepsin inhibitor selectively induced cell apoptosis of 55%±10% of the macrophage within excised human atherosclerotic plaques.Cathepsin ABPs present a rapid diagnostic tool for macrophage detection in atherosclerotic plaque. Our inhibitor confirms cathepsin-targeting as a promising approach to treat atherosclerotic plaque inflammation.

Published
2016
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25. An Automatic Analysis System for High-Throughput Clostridium Difficile Toxin Activity Screening

Author

Megan Garland, Joanna Jaworek-Korjakowska, Urszula Libal, Matthew Bogyo, and Marcin Sieńczyk

Subjects
Clostridium difficile, image analysis, pattern recognition, classification, screening system, anti-toxin inhibitors, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Clostridium difficile infection (CDI) is an increasing global health threat and major worldwide cause of hospital-acquired diarrhea. The development of novel therapies to effectively treat this bacterial pathogen is an unmet clinical need. Here, we describe an image processing and classification algorithm that automatically identifies toxin-induced cytotoxicity to host cells based on characteristic morphological changes. This efficient and automatic algorithm can be incorporated into a screening platform to identify novel anti-toxin inhibitors of the C. difficile major virulence factors TcdA and TcdB, and contains the following steps: image enhancement, cell segmentation, and classification. We tested the algorithm on 504 images (containing 5096 cells) and achieved 93% sensitivity and 91% specificity, indicating that the proposed computational approach correctly classified most of the cells and provided reliable information for an effective screening platform. This algorithm achieved higher classification results compared to existing cell counter and analysis programs, scoring 92.6% accuracy. Compared to visual examination by a researcher, the algorithm significantly decreased classification time and identified toxin-induced cytotoxicity in an unbiased manner. Availability: Examples are available at home.agh.edu.pl/jaworek/CDI.

Published
2018
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27. Proteomic analysis of fractionated Toxoplasma oocysts reveals clues to their environmental resistance.

Author

Heather M Fritz, Paul W Bowyer, Matthew Bogyo, Patricia A Conrad, and John C Boothroyd

Subjects
Medicine, Science
Abstract

Toxoplasma gondii is an obligate intracellular parasite that is unique in its ability to infect a broad range of birds and mammals, including humans, leading to an extremely high worldwide prevalence and distribution. This work focuses on the environmentally resistant oocyst, which is the product of sexual replication in felids and an important source of human infection. Due to the difficulty in producing and working with oocysts, relatively little is known about how this stage is able to resist extreme environmental stresses and how they initiate a new infection, once ingested. To fill this gap, the proteome of the wall and sporocyst/sporozoite fractions of mature, sporulated oocysts were characterized using one-dimensional gel electrophoresis followed by LC-MS/MS on trypsin-digested peptides. A combined total of 1021 non-redundant T. gondii proteins were identified in the sporocyst/sporozoite fraction and 226 were identified in the oocyst wall fraction. Significantly, 172 of the identified proteins have not previously been identified in Toxoplasma proteomic studies. Among these are several of interest for their likely role in conferring environmental resistance including a family of small, tyrosine-rich proteins present in the oocyst wall fractions and late embryogenesis abundant domain-containing (LEA) proteins in the cytosolic fractions. The latter are known from other systems to be key to enabling survival against desiccation.

Published
2012
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28. Topical application of activity-based probes for visualization of brain tumor tissue.

Author

Jennifer L Cutter, Nathan T Cohen, Jing Wang, Andrew E Sloan, Alan R Cohen, Ashok Panneerselvam, Mark Schluchter, Galia Blum, Matthew Bogyo, and James P Basilion

Subjects
Medicine, Science
Abstract

Several investigators have shown the utility of systemically delivered optical imaging probes to image tumors in small animal models of cancer. Here we demonstrate an innovative method for imaging tumors and tumor margins during surgery. Specifically, we show that optical imaging probes topically applied to tumors and surrounding normal tissue rapidly differentiate between tissues. In contrast to systemic delivery of optical imaging probes which label tumors uniformly over time, topical probe application results in rapid and robust probe activation that is detectable as early as 5 minutes following application. Importantly, labeling is primarily associated with peri-tumor spaces. This methodology provides a means for rapid visualization of tumor and potentially infiltrating tumor cells and has potential applications for directed surgical excision of tumor tissues. Furthermore, this technology could find use in surgical resections for any tumors having differential regulation of cysteine cathepsin activity.

Published
2012
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29. Non-invasive imaging of cysteine cathepsin activity in solid tumors using a 64Cu-labeled activity-based probe.

Author

Gang Ren, Galia Blum, Martijn Verdoes, Hongguang Liu, Salahuddin Syed, Laura E Edgington, Olivier Gheysens, Zheng Miao, Han Jiang, Sanjiv Sam Gambhir, Matthew Bogyo, and Zhen Cheng

Subjects
Medicine, Science
Abstract

The papain family of cysteine cathepsins are actively involved in multiple stages of tumorigenesis. Because elevated cathepsin activity can be found in many types of human cancers, they are promising biomarkers that can be used to target radiological contrast agents for tumor detection. However, currently there are no radiological imaging agents available for these important molecular targets. We report here the development of positron emission tomography (PET) radionuclide-labeled probes that target the cysteine cathepsins by formation of an enzyme activity-dependent bond with the active site cysteine. These probes contain an acyloxymethyl ketone (AOMK) functional group that irreversibly labels the active site cysteine of papain family proteases attached to a 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) tag for labeling with (64)Cu for PET imaging studies. We performed biodistribution and microPET imaging studies in nude mice bearing subcutaneous tumors expressing various levels of cysteine cathepsin activity and found that the extent of probe uptake by tumors correlated with overall protease activity as measured by biochemical methods. Furthermore, probe signals could be reduced by pre-treatment with a general cathepsin inhibitor. We also found that inclusion of a Cy5 tag on the probe increased tumor uptake relative to probes lacking this fluorogenic dye. Overall, these results demonstrate that small molecule activity-based probes carrying radio-tracers can be used to image protease activity in living subjects.

Published
2011
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30. Cathepsin X is secreted by human osteoblasts, digests CXCL-12 and impairs adhesion of hematopoietic stem and progenitor cells to osteoblasts

Author

Nicole D. Staudt, Wilhelm K. Aicher, Hubert Kalbacher, Stefan Stevanovic, Adriana K. Carmona, Matthew Bogyo, and Gerd Klein

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Background Hematopoietic stem cells are retained within discrete bone marrow niches through the effects of cell adhesion molecules and chemokine gradients. However, a small proportion of hematopoietic stem cells can also be found trafficking in the peripheral blood. During induced stem cell mobilization a proteolytic microenvironment is generated, but whether proteases are also involved in physiological trafficking of hematopoietic stem cells is not known. In the present study we examined the expression, secretion and function of the cysteine protease cathepsin X by cells of the human bone marrow.Design and Methods Human osteoblasts, bone marrow stromal cells and hematopoietic stem and progenitor cells were analyzed for the secretion of cathepsin X by western blotting, active site labeling, immunofluorescence staining and activity assays. A possible involvement of cathepsin X in cell adhesion and CXCL-12-mediated cell migration was studied in functional assays. Matrix-assisted laser desorption and ionization time-of-flight (MALDI-TOF) analysis revealed the digestion mechanism of CXCL-12 by cathepsin X.Results Osteoblasts and stromal cells secrete cathepsin X, whereas hematopoietic stem and progenitor cells do not. Using a cathepsin X-selective substrate, we detected the catalytic activity of cathepsin X in cell culture supernatants of osteoblasts. Activated cathepsin X is able to reduce cellular adhesive interactions between CD34+ hematopoietic stem and progenitor cells and adherent osteoblasts. The chemokine CXCL-12, a highly potent chemoattractant for hematopoietic stem cells secreted by osteoblasts, is readily digested by cathepsin X.Conclusions The exo-peptidase cathepsin X has been identified as a new member of the group of CXCL-12-degrading enzymes secreted by non-hematopoietic bone marrow cells. Functional data indicate that cathepsin X can influence hematopoietic stem and progenitor cell trafficking in the bone marrow.

Published
2010
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31. Use of activity-based probes to develop high throughput screening assays that can be performed in complex cell extracts.

Author

Edgar Deu, Zhimou Yang, Flora Wang, Michael Klemba, and Matthew Bogyo

Subjects
Medicine, Science
Abstract

High throughput screening (HTS) is one of the primary tools used to identify novel enzyme inhibitors. However, its applicability is generally restricted to targets that can either be expressed recombinantly or purified in large quantities.Here, we described a method to use activity-based probes (ABPs) to identify substrates that are sufficiently selective to allow HTS in complex biological samples. Because ABPs label their target enzymes through the formation of a permanent covalent bond, we can correlate labeling of target enzymes in a complex mixture with inhibition of turnover of a substrate in that same mixture. Thus, substrate specificity can be determined and substrates with sufficiently high selectivity for HTS can be identified. In this study, we demonstrate this method by using an ABP for dipeptidyl aminopeptidases to identify (Pro-Arg)2-Rhodamine as a specific substrate for DPAP1 in Plasmodium falciparum lysates and Cathepsin C in rat liver extracts. We then used this substrate to develop highly sensitive HTS assays (Z'>0.8) that are suitable for use in screening large collections of small molecules (i.e >300,000) for inhibitors of these proteases. Finally, we demonstrate that it is possible to use broad-spectrum ABPs to identify target-specific substrates.We believe that this approach will have value for many enzymatic systems where access to large amounts of active enzyme is problematic.

Published
2010
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32. Simplified, enhanced protein purification using an inducible, autoprocessing enzyme tag.

Author

Aimee Shen, Patrick J Lupardus, Montse Morell, Elizabeth L Ponder, A Masoud Sadaghiani, K Christopher Garcia, and Matthew Bogyo

Subjects
Medicine, Science
Abstract

We introduce a new method for purifying recombinant proteins expressed in bacteria using a highly specific, inducible, self-cleaving protease tag. This tag is comprised of the Vibrio cholerae MARTX toxin cysteine protease domain (CPD), an autoprocessing enzyme that cleaves exclusively after a leucine residue within the target protein-CPD junction. Importantly, V. cholerae CPD is specifically activated by inositol hexakisphosphate (InsP(6)), a eukaryotic-specific small molecule that is absent from the bacterial cytosol. As a result, when His(6)-tagged CPD is fused to the C-terminus of target proteins and expressed in Escherichia coli, the full-length fusion protein can be purified from bacterial lysates using metal ion affinity chromatography. Subsequent addition of InsP(6) to the immobilized fusion protein induces CPD-mediated cleavage at the target protein-CPD junction, releasing untagged target protein into the supernatant. This method condenses affinity chromatography and fusion tag cleavage into a single step, obviating the need for exogenous protease addition to remove the fusion tag(s) and increasing the efficiency of tag separation. Furthermore, in addition to being timesaving, versatile, and inexpensive, our results indicate that the CPD purification system can enhance the expression, integrity, and solubility of intractable proteins from diverse organisms.

Published
2009
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33. 4-Bromophenacyl bromide specifically inhibits rhoptry secretion during Toxoplasma invasion.

Author

Sandeep Ravindran, Melissa B Lodoen, Steven H L Verhelst, Matthew Bogyo, and John C Boothroyd

Subjects
Medicine, Science
Abstract

Toxoplasma gondii is a eukaryotic parasite of the phylum Apicomplexa that is able to infect a wide variety of host cells. During its active invasion process it secretes proteins from discrete secretory organelles: the micronemes, rhoptries and dense granules. Although a number of rhoptry proteins have been shown to be involved in important interactions with the host cell, very little is known about the mechanism of secretion of any Toxoplasma protein into the host cell. We used a chemical inhibitor of phospholipase A2s, 4-bromophenacyl bromide (4-BPB), to look at the role of such lipases in the secretion of Toxoplasma proteins. We found that 4-BPB was a potent inhibitor of rhoptry secretion in Toxoplasma invasion. This drug specifically blocked rhoptry secretion but not microneme secretion, thus effectively showing that the two processes can be de-coupled. It affected parasite motility and invasion, but not attachment or egress. Using propargyl- or azido-derivatives of the drug (so-called click chemistry derivatives) and a series of 4-BPB-resistant mutants, we found that the drug has a very large number of target proteins in the parasite that are involved in at least two key steps: invasion and intracellular growth. This potent compound, the modified "click-chemistry" forms of it, and the resistant mutants should serve as useful tools to further study the processes of Toxoplasma early invasion, in general, and rhoptry secretion, in particular.

Published
2009
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34. Comparative assessment of substrates and activity based probes as tools for non-invasive optical imaging of cysteine protease activity.

Author

Galia Blum, Robby M Weimer, Laura E Edgington, Walter Adams, and Matthew Bogyo

Subjects
Medicine, Science
Abstract

Recent advances in the field of non-invasive optical imaging have included the development of contrast agents that report on the activity of enzymatic targets associated with disease pathology. In particular, proteases have proven to be ideal targets for development of optical sensors for cancer. Recently developed contrast agents for protease activity include both small peptides and large polymer-based quenched fluorescent substrates as well as fluorescently labeled activity based probes (ABPs). While substrates produce a fluorescent signal as a result of processing by a protease, ABPs are retained at the site of proteolysis due to formation of a permanent covalent bond with the active site catalytic residue. Both methods have potential advantages and disadvantages yet a careful comparison of substrates and ABPs has not been performed. Here we present the results of a direct comparison of commercially available protease substrates with several recently described fluorescent ABPs in a mouse model of cancer. The results demonstrate that fluorescent ABPs show more rapid and selective uptake into tumors as well as overall brighter signals compared to substrate probes. These data suggest that the lack of signal amplification for an ABP is offset by the increased kinetics of tissue uptake and prolonged retention of the probes once bound to a protease target. Furthermore, fluorescent ABPs can be used as imaging reagents with similar or better results as the commercially available protease substrates.

Published
2009
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35. Falstatin, a cysteine protease inhibitor of Plasmodium falciparum, facilitates erythrocyte invasion.

Author

Kailash C Pandey, Naresh Singh, Shirin Arastu-Kapur, Matthew Bogyo, and Philip J Rosenthal

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

Erythrocytic malaria parasites utilize proteases for a number of cellular processes, including hydrolysis of hemoglobin, rupture of erythrocytes by mature schizonts, and subsequent invasion of erythrocytes by free merozoites. However, mechanisms used by malaria parasites to control protease activity have not been established. We report here the identification of an endogenous cysteine protease inhibitor of Plasmodium falciparum, falstatin, based on modest homology with the Trypanosoma cruzi cysteine protease inhibitor chagasin. Falstatin, expressed in Escherichia coli, was a potent reversible inhibitor of the P. falciparum cysteine proteases falcipain-2 and falcipain-3, as well as other parasite- and nonparasite-derived cysteine proteases, but it was a relatively weak inhibitor of the P. falciparum cysteine proteases falcipain-1 and dipeptidyl aminopeptidase 1. Falstatin is present in schizonts, merozoites, and rings, but not in trophozoites, the stage at which the cysteine protease activity of P. falciparum is maximal. Falstatin localizes to the periphery of rings and early schizonts, is diffusely expressed in late schizonts and merozoites, and is released upon the rupture of mature schizonts. Treatment of late schizionts with antibodies that blocked the inhibitory activity of falstatin against native and recombinant falcipain-2 and falcipain-3 dose-dependently decreased the subsequent invasion of erythrocytes by merozoites. These results suggest that P. falciparum requires expression of falstatin to limit proteolysis by certain host or parasite cysteine proteases during erythrocyte invasion. This mechanism of regulation of proteolysis suggests new strategies for the development of antimalarial agents that specifically disrupt erythrocyte invasion.

Published
2006
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37. Chemoproteomic identification of a DPP4 homolog in Bacteroides thetaiotaomicron

Author

Laura J. Keller, Taylor H. Nguyen, Lawrence J. Liu, Brianna M. Hurysz, Markus Lakemeyer, Matteo Guerra, Danielle J. Gelsinger, Rachael Chanin, Nhi Ngo, Kenneth M. Lum, Franco Faucher, Phillip Ipock, Micah J. Niphakis, Ami S. Bhatt, Anthony J. O'Donoghue, Kerwyn Casey Huang, and Matthew Bogyo

Abstract

Serine hydrolases play important roles in signaling and human metabolism, yet little is known about their functions in gut commensal bacteria. Using bioinformatics and chemoproteomics, we identify serine hydrolases in the gut commensal Bacteroides thetaiotaomicron that are specific to the Bacteroidetes phylum. Two are predicted homologs of the human protease dipeptidyl peptidase 4 (hDPP4), a key enzyme that regulates insulin signaling. Functional studies reveal that BT4193 is a true homolog of hDPP4 that can be inhibited by FDA-approved type 2 diabetes medications targeting hDPP4, while the other is a misannotated proline-specific triaminopeptidase. We demonstrate that BT4193 is important for envelope integrity and that loss of BT4193 reduces B. thetaiotaomicron fitness during in vitro growth within a diverse community. However, neither function is dependent on BT4193 proteolytic activity, suggesting a scaffolding or signaling function for this bacterial protease.

Published
2023
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39. Data from A Protease-Activated Fluorescent Probe Allows Rapid Visualization of Keratinocyte Carcinoma during Excision

Author

Daniel L. Popkin, James P. Basilion, David L. Wilson, Margaret Mann, Matthew Bogyo, Joshua J. Yim, Brian Straight, Bo Zhou, Rachel Mistur, Miesha Merati, Jeffrey Scott, Harib Ezaldein, Sukanya Raj Iyer, Mark Biro, InYoung Kim, Yiqiao Liu, and Ethan Walker

Abstract

Keratinocyte carcinomas, including basal and squamous cell carcinomas, are the most common human cancers worldwide. While 75% of all keratinocyte carcinoma (4 million annual cases in the United States) are treated with conventional excision, this surgical modality has much lower cure rates than Mohs micrographic surgery, likely due to the bread-loaf histopathologic assessment that visualizes ex vivo immediately following excision. “Puzzle-fit” analysis was used to correlate the fluorescent images with histology. Probe-dependent fluorescent images correlated with cancer determined by conventional histology. Point-of-care fluorescent detection of skin cancer had a clinically relevant sensitivity of 0.73 and corresponding specificity of 0.88. Importantly, clinicians were effectively trained to read fluorescent images within 15 minutes with reliability and confidence, resulting in sensitivities of 62%–78% and specificities of 92%–97%. Fluorescent imaging using 6qcNIR allows 100% tumor margin assessment by generating en face images that correlate with histology and may be used to overcome the limitations of conventional bread-loaf histology. The utility of 6qcNIR was validated in a busy real-world clinical setting, and clinicians were trained to effectively read fluorescent margins with a short guided instruction, highlighting clinical adaptability. When used in conventional excision, this approach may result in higher cure rates at a lower cost by allowing same-day reexcision when needed, reducing patient anxiety and improving compliance by expediting postsurgical specimen assessment.Significance:A fluorescent-probe-tumor-visualization platform was developed and validated in human keratinocyte carcinoma excision specimens that may provide simple, rapid, and global assessment of margins during skin cancer excision, allowing same-day reexcision when needed.

Published
2023

40. Data from A Cathepsin-Targeted Quenched Activity–Based Probe Facilitates Enhanced Detection of Human Tumors during Resection

Author

Sunil Singhal, Gavin Wright, Jason D. Lickliter, Evgeniy Eruslanov, Charles W. Bradley, A.J. Matthew Egan, Matthew Bogyo, Edward J. Delikatny, John C. Kucharczuk, John T. Santini, Eric Bensen, Charuhas Desphande, Alix Segil, Neil T. Sullivan, Ashley Chang, Bilal Nadeem, Elizabeth Bernstein, Feredun S. Azari, David E. Holt, and Gregory T. Kennedy

Abstract

Purpose:Fluorescence-guided surgery using tumor-targeted contrast agents has been developed to improve the completeness of oncologic resections. Quenched activity–based probes that fluoresce after covalently binding to tumor-specific enzymes have been proposed to improve specificity, but none have been tested in humans. Here, we report the successful clinical translation of a cathepsin activity–based probe (VGT-309) for fluorescence-guided surgery.Experimental Design:We optimized the specificity, dosing, and timing of VGT-309 in preclinical models of lung cancer. To evaluate clinical feasibility, we conducted a canine study of VGT-309 during pulmonary tumor resection. We then conducted a randomized, double-blind, dose-escalation study in healthy human volunteers receiving VGT-309 to evaluate safety. Finally, we tested VGT-309 in humans undergoing lung cancer surgery.Results:In preclinical models, we found highly specific tumor cell labeling that was blocked by a broad spectrum cathepsin inhibitor. When evaluating VGT-309 for guidance during resection of canine tumors, we found that the probe selectively labeled tumors and demonstrated high tumor-to-background ratio (TBR; range: 2.15–3.71). In the Phase I human study, we found that VGT-309 was safe at all doses studied. In the ongoing Phase II trial, we report two cases in which VGT-309 localized visually occult, non-palpable tumors (TBRs = 2.83 and 7.18) in real time to illustrate its successful clinical translation and potential to improve surgical management.Conclusions:This first-in-human study demonstrates the safety and feasibility of VGT-309 to label human pulmonary tumors during resection. These results may be generalizable to other cancers due to cathepsin overexpression in many solid tumors.

Published
2023

41. Supplementary Data from A Cathepsin-Targeted Quenched Activity–Based Probe Facilitates Enhanced Detection of Human Tumors during Resection

Author

Sunil Singhal, Gavin Wright, Jason D. Lickliter, Evgeniy Eruslanov, Charles W. Bradley, A.J. Matthew Egan, Matthew Bogyo, Edward J. Delikatny, John C. Kucharczuk, John T. Santini, Eric Bensen, Charuhas Desphande, Alix Segil, Neil T. Sullivan, Ashley Chang, Bilal Nadeem, Elizabeth Bernstein, Feredun S. Azari, David E. Holt, and Gregory T. Kennedy

Abstract

Supplementary Data from A Cathepsin-Targeted Quenched Activity–Based Probe Facilitates Enhanced Detection of Human Tumors during Resection

Published
2023

42. Figure S3A-C from A Protease-Activated Fluorescent Probe Allows Rapid Visualization of Keratinocyte Carcinoma during Excision

Author

Daniel L. Popkin, James P. Basilion, David L. Wilson, Margaret Mann, Matthew Bogyo, Joshua J. Yim, Brian Straight, Bo Zhou, Rachel Mistur, Miesha Merati, Jeffrey Scott, Harib Ezaldein, Sukanya Raj Iyer, Mark Biro, InYoung Kim, Yiqiao Liu, and Ethan Walker

Abstract

Figure S3A-C shows histology of false positive (FP) foreign body granuloma, benign inclusion cyst, and seborrheic keratosis skin samples.

Published
2023

43. Supplementary Methods from A Protease-Activated Fluorescent Probe Allows Rapid Visualization of Keratinocyte Carcinoma during Excision

Author

Daniel L. Popkin, James P. Basilion, David L. Wilson, Margaret Mann, Matthew Bogyo, Joshua J. Yim, Brian Straight, Bo Zhou, Rachel Mistur, Miesha Merati, Jeffrey Scott, Harib Ezaldein, Sukanya Raj Iyer, Mark Biro, InYoung Kim, Yiqiao Liu, and Ethan Walker

Abstract

Supplementary Methods include description of: 1) "Puzzle"-fit" analysis, 2) Intensity-based objective sensitivity and specificity analysis, 3) Blinded physician "Reader Study" analysis, and 4) Evaluation of reader responses regarding intensity.

Published
2023

44. Table S1 and Table S2 from A Protease-Activated Fluorescent Probe Allows Rapid Visualization of Keratinocyte Carcinoma during Excision

Author

Daniel L. Popkin, James P. Basilion, David L. Wilson, Margaret Mann, Matthew Bogyo, Joshua J. Yim, Brian Straight, Bo Zhou, Rachel Mistur, Miesha Merati, Jeffrey Scott, Harib Ezaldein, Sukanya Raj Iyer, Mark Biro, InYoung Kim, Yiqiao Liu, and Ethan Walker

Abstract

Table S1 shows cancer type and histologic detection status following excision; Table S2 characterizes patients and specimens

Published
2023

45. Data from Caspase-8 Association with the Focal Adhesion Complex Promotes Tumor Cell Migration and Metastasis

Author

Dwayne G. Stupack, David Schlaepfer, Jill M. Lahti, Daniela Barilà, Matthew Bogyo, David Mikolon, David J. Shields, Tal Teitz, Vicente Torres, Ainhoa Mielgo, and Simone Barbero

Abstract

Caspase-8 is a proapoptotic protease that suppresses neuroblastoma metastasis by inducing programmed cell death. Paradoxically, caspase-8 can also promote cell migration among nonapoptotic cells; here, we show that caspase-8 can promote metastasis when apoptosis is compromised. Migration is enhanced by caspase-8 recruitment to the cellular migration machinery following integrin ligation. Caspase-8 catalytic activity is not required for caspase-8–enhanced cell migration; rather, caspase-8 interacts with a multiprotein complex that can include focal adhesion kinase and calpain 2 (CPN2), enhancing cleavage of focal adhesion substrates and cell migration. Caspase-8 association with CPN2/calpastatin disrupts calpastatin-mediated inhibition of CPN2. In vivo, knockdown of either caspase-8 or CPN2 disrupts metastasis among apoptosis-resistant tumors. This unexpected molecular collaboration provides an explanation for the continued or elevated expression of caspase-8 observed in many tumors. [Cancer Res 2009;69(9):3755–63]

Published
2023

46. Supplementary Figures 1-3 from Tumor Cell–Derived and Macrophage-Derived Cathepsin B Promotes Progression and Lung Metastasis of Mammary Cancer

Author

Thomas Reinheckel, Christoph Peters, Matthew Bogyo, Kasper Almholt, Boye S. Nielsen, Nicole Augustin, Jan Deussing, Matvey Korovin, Harald Brodoefel, Achim Krüger, Anna Papazoglou, and Olga Vasiljeva

Abstract

Supplementary Figures 1-3 from Tumor Cell–Derived and Macrophage-Derived Cathepsin B Promotes Progression and Lung Metastasis of Mammary Cancer

Published
2023

48. Supplementary Methods from Tumor Cell–Derived and Macrophage-Derived Cathepsin B Promotes Progression and Lung Metastasis of Mammary Cancer

Author

Thomas Reinheckel, Christoph Peters, Matthew Bogyo, Kasper Almholt, Boye S. Nielsen, Nicole Augustin, Jan Deussing, Matvey Korovin, Harald Brodoefel, Achim Krüger, Anna Papazoglou, and Olga Vasiljeva

Abstract

Supplementary Methods from Tumor Cell–Derived and Macrophage-Derived Cathepsin B Promotes Progression and Lung Metastasis of Mammary Cancer

Published
2023

49. Data from Tumor Cell–Derived and Macrophage-Derived Cathepsin B Promotes Progression and Lung Metastasis of Mammary Cancer

Author

Thomas Reinheckel, Christoph Peters, Matthew Bogyo, Kasper Almholt, Boye S. Nielsen, Nicole Augustin, Jan Deussing, Matvey Korovin, Harald Brodoefel, Achim Krüger, Anna Papazoglou, and Olga Vasiljeva

Abstract

Proteolysis in close vicinity of tumor cells is a hallmark of cancer invasion and metastasis. We show here that mouse mammary tumor virus–polyoma middle T antigen (PyMT) transgenic mice deficient for the cysteine protease cathepsin B (CTSB) exhibited a significantly delayed onset and reduced growth rate of mammary cancers compared with wild-type PyMT mice. Lung metastasis volumes were significantly reduced in PyMT;ctsb+/−, an effect that was not further enhanced in PyMT;ctsb−/− mice. Furthermore, lung colonization studies of PyMT cells with different CTSB genotypes injected into congenic wild-type mice and in vitro Matrigel invasion assays confirmed a specific role for tumor-derived CTSB in invasion and metastasis. Interestingly, cell surface labeling of cysteine cathepsins by the active site probe DCG-04 detected up-regulation of cathepsin X on PyMT;ctsb−/− cells. Treatment of cells with a neutralizing anti-cathepsin X antibody significantly reduced Matrigel invasion of PyMT;ctsb−/− cells but did not affect invasion of PyMT;ctsb+/+ or PyMT;ctsb+/− cells, indicating a compensatory function of cathepsin X in CTSB-deficient tumor cells. Finally, an adoptive transfer model, in which ctsb+/+, ctsb+/−, and ctsb−/− recipient mice were challenged with PyMT;ctsb+/+ cells, was used to address the role of stroma-derived CTSB in lung metastasis formation. Notably, ctsb−/− mice showed reduced number and volume of lung colonies, and infiltrating macrophages showed a strongly up-regulated expression of CTSB within metastatic cell populations. These results indicate that both cancer cell–derived and stroma cell–derived (i.e., macrophages) CTSB plays an important role in tumor progression and metastasis. (Cancer Res 2006; 66(10): 5242-50)

Published
2023

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