Your search keyword '"Verdoes, Martijn"' showing total 10 results

1. Antibody-peptide conjugates deliver covalent inhibitors blocking oncogenic cathepsins.

Author

Petruzzella A, Bruand M, Santamaria-Martínez A, Katanayeva N, Reymond L, Wehrle S, Georgeon S, Inel D, van Dalen FJ, Viertl D, Lau K, Pojer F, Schottelius M, Zoete V, Verdoes M, Arber C, Correia BE, and Oricchio E

Subjects

Humans, Animals, Mice, Cell Line, Tumor, Drug Delivery Systems methods, Immunoconjugates pharmacology, Immunoconjugates chemistry, Neoplasms drug therapy, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Cathepsins antagonists & inhibitors, Cathepsins metabolism, Peptides chemistry, Peptides pharmacology

Abstract

Cysteine cathepsins are a family of proteases that are relevant therapeutic targets for the treatment of different cancers and other diseases. However, no clinically approved drugs for these proteins exist, as their systemic inhibition can induce deleterious side effects. To address this problem, we developed a modular antibody-based platform for targeted drug delivery by conjugating non-natural peptide inhibitors (NNPIs) to antibodies. NNPIs were functionalized with reactive warheads for covalent inhibition, optimized with deep saturation mutagenesis and conjugated to antibodies to enable cell-type-specific delivery. Our antibody-peptide inhibitor conjugates specifically blocked the activity of cathepsins in different cancer cells, as well as osteoclasts, and showed therapeutic efficacy in vitro and in vivo. Overall, our approach allows for the rapid design of selective cathepsin inhibitors and can be generalized to inhibit a broad class of proteases in cancer and other diseases., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2024

2. Semiflexible Immunobrushes Induce Enhanced T Cell Activation and Expansion.

Author

Hammink R, Weiden J, Voerman D, Popelier C, Eggermont LJ, Schluck M, Figdor CG, and Verdoes M

Subjects

Antigen-Presenting Cells immunology, Humans, Molecular Mimicry, Proof of Concept Study, T-Lymphocytes cytology, Biocompatible Materials, Cell Proliferation, Lymphocyte Activation, Peptides chemistry, Polyurethanes chemistry, T-Lymphocytes immunology

Abstract

A variety of bioactive materials developed to expand T cells for adoptive transfer into cancer patients are currently evaluated in the clinic. In most cases, T cell activating biomolecules are attached to rigid surfaces or matrices and form a static interface between materials and the signaling receptors on the T cells. We hypothesized that a T cell activating polymer brush interface might better mimic the cell surface of a natural antigen-presenting cell, facilitating receptor movement and concomitant advantageous mechanical forces to provide enhanced T cell activating capacities. Here, as a proof of concept, we synthesized semiflexible polyisocyanopeptide (PIC) polymer-based immunobrushes equipped with T cell activating agonistic anti-CD3 (αCD3) and αCD28 antibodies placed on magnetic microbeads. We demonstrated enhanced efficiency of ex vivo expansion of activated primary human T cells even at very low numbers of stimulating antibodies compared to rigid beads. Importantly, the immunobrush architecture appeared crucial for this improved T cell activating capacity. Immunobrushes outperform current benchmarks by producing higher numbers of T cells exhibiting a combination of beneficial phenotypic characteristics, such as reduced exhaustion marker expression, high cytokine production, and robust expression of cytotoxic hallmarks. This study indicates that semiflexible immunobrushes have great potential in making T cell-based immunotherapies more effective.

Published

2021

3. Synthetic Semiflexible and Bioactive Brushes.

Author

Voerman D, Schluck M, Weiden J, Joosten B, Eggermont LJ, van den Eijnde T, Ignacio B, Cambi A, Figdor CG, Kouwer PHJ, Verdoes M, Hammink R, and Rowan AE

Subjects

Surface Properties, Cycloaddition Reaction, Peptides chemical synthesis, Peptides chemistry, Polymerization

Abstract

Polymer brushes are extensively used for the preparation of bioactive surfaces. They form a platform to attach functional (bio)molecules and control the physicochemical properties of the surface. These brushes are nearly exclusively prepared from flexible polymers, even though much stiffer brushes from semiflexible polymers are frequently found in nature, which exert bioactive functions that are out of reach for flexible brushes. Synthetic semiflexible polymers, however, are very rare. Here, we use polyisocyanopeptides (PICs) to prepare high-density semiflexible brushes on different substrate geometries. For bioconjugation, we developed routes with two orthogonal click reactions, based on the strain-promoted azide-alkyne cycloaddition reaction and the (photoactivated) tetrazole-ene cycloaddition reaction. We found that for high brush densities, multiple bonds between the polymer and the substrate are necessary, which was achieved in a block copolymer strategy. Whether the desired biomolecules are conjugated to the PIC polymer before or after brush formation depends on the dimensions and required densities of the biomolecules and the curvature of the substrate. In either case, we provide mild, aqueous, and highly modular reaction strategies, which make PICs a versatile addition to the toolbox for generating semiflexible bioactive polymer brush surfaces.

Published

2019

4. Exploring dual electrophiles in peptide-based proteasome inhibitors: carbonyls and epoxides.

Author

Xin BT, de Bruin G, Verdoes M, Filippov DV, van der Marel GA, and Overkleeft HS

Subjects

HEK293 Cells, Humans, Oligopeptides chemistry, Electrons, Epoxy Compounds chemistry, Peptides chemistry, Proteasome Inhibitors chemistry, Protein Carbonylation

Abstract

Peptide epoxyketones are potent and selective proteasome inhibitors. Selectivity is governed by the epoxyketone dual electrophilic warhead, which reacts with the N-terminal threonine 1,2-amino alcohol uniquely present in proteasome active sites. We studied a series of C-terminally modified oligopeptides featuring adjacent electrophiles based on the epoxyketone warhead. We found that the carbonyl moiety in the natural warhead is essential, but that the adjacent epoxide can be replaced by a carbonyl, though with considerable loss of activity.

Published

2014

5. Mixing of peptides and electrophilic traps gives rise to potent, broad-spectrum proteasome inhibitors.

Author

Verdoes M, Florea BI, van der Linden WA, Renou D, van den Nieuwendijk AM, van der Marel GA, and Overkleeft HS

Subjects

Cell Line, Drug Evaluation, Preclinical, Enzyme Inhibitors chemistry, Humans, Proteasome Endopeptidase Complex metabolism, Static Electricity, Structure-Activity Relationship, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors pharmacology, Peptides chemistry, Peptides pharmacology, Proteasome Inhibitors

Abstract

The synthesis and evaluation of hybrid proteasome inhibitors that contain structural elements of the known inhibitors bortezomib, epoxomicin and peptide vinyl sulfones is described. From the panel of 15 inhibitors some structure activity relationships can be deduced with regard to inhibitory activity in relation to peptide recognition element, inhibitor size and nature of the electrophilic trap. Further, the panel contains one of the most potent peptide-based pan-proteasome inhibitors reported to date.

Published

2007

6. Multiscale imaging of therapeutic anti-PD-L1 antibody localization using molecularly defined imaging agents.

Author

Hagemans, Iris M., Wierstra, Peter J., Steuten, Kas, Molkenboer-Kuenen, Janneke D. M., van Dalen, Duco, ter Beest, Martin, van der Schoot, Johan M. S., Ilina, Olga, Gotthardt, Martin, Figdor, Carl G., Scheeren, Ferenc A., Heskamp, Sandra, and Verdoes, Martijn

Subjects

WHOLE body imaging, PEPTIDES, IMMUNE checkpoint inhibitors, IMMUNE checkpoint proteins, PROGRAMMED death-ligand 1, AUTORADIOGRAPHY, IMMUNOGLOBULINS

Abstract

Background: While immune checkpoint inhibitors such as anti-PD-L1 antibodies have revolutionized cancer treatment, only subgroups of patients show durable responses. Insight in the relation between clinical response, PD-L1 expression and intratumoral localization of PD-L1 therapeutics could improve patient stratification. Therefore, we present the modular synthesis of multimodal antibody-based imaging tools for multiscale imaging of PD-L1 to study intratumoral distribution of PD-L1 therapeutics. Results: To introduce imaging modalities, a peptide containing a near-infrared dye (sulfo-Cy5), a chelator (DTPA), an azide, and a sortase-recognition motif was synthesized. This peptide and a non-fluorescent intermediate were used for site-specific functionalization of c-terminally sortaggable mouse IgG1 (mIgG1) and Fab anti-PD-L1. To increase the half-life of the Fab fragment, a 20 kDa PEG chain was attached via strain-promoted azide-alkyne cycloaddition (SPAAC). Biodistribution and imaging studies were performed with 111In-labeled constructs in 4T1 tumor-bearing mice. Comparing our site-specific antibody-conjugates with randomly conjugated antibodies, we found that antibody clone, isotype and method of DTPA conjugation did not change tumor uptake. Furthermore, addition of sulfo-Cy5 did not affect the biodistribution. PEGylated Fab fragment displayed a significantly longer half-life compared to unPEGylated Fab and demonstrated the highest overall tumor uptake of all constructs. PD-L1 in tumors was clearly visualized by SPECT/CT, as well as whole body fluorescence imaging. Immunohistochemistry staining of tumor sections demonstrated that PD-L1 co-localized with the fluorescent and autoradiographic signal. Intratumoral localization of the imaging agent could be determined with cellular resolution using fluorescent microscopy. Conclusions: A set of molecularly defined multimodal antibody-based PD-L1 imaging agents were synthesized and validated for multiscale monitoring of PD-L1 expression and localization. Our modular approach for site-specific functionalization could easily be adapted to other targets. [ABSTRACT FROM AUTHOR]

Published

2022

7. A fluorogenic probe for granzyme B enables in-biopsy evaluation and screening of response to anticancer immunotherapies.

Author

Scott, Jamie I., Mendive-Tapia, Lorena, Gordon, Doireann, Barth, Nicole D., Thompson, Emily J., Cheng, Zhiming, Taggart, David, Kitamura, Takanori, Bravo-Blas, Alberto, Roberts, Edward W., Juarez-Jimenez, Jordi, Michel, Julien, Piet, Berber, de Vries, I. Jolanda, Verdoes, Martijn, Dawson, John, Carragher, Neil O., Connor, Richard A. O', Akram, Ahsan R., and Frame, Margaret

Subjects

GRANZYMES, MOLECULAR dynamics, T cells, PEPTIDES, CYTOTOXIC T cells, FLUORESCENT probes, IMMUNOTHERAPY

Abstract

Immunotherapy promotes the attack of cancer cells by the immune system; however, it is difficult to detect early responses before changes in tumor size occur. Here, we report the rational design of a fluorogenic peptide able to detect picomolar concentrations of active granzyme B as a biomarker of immune-mediated anticancer action. Through a series of chemical iterations and molecular dynamics simulations, we synthesize a library of FRET peptides and identify probe H5 with an optimal fit into granzyme B. We demonstrate that probe H5 enables the real-time detection of T cell-mediated anticancer activity in mouse tumors and in tumors from lung cancer patients. Furthermore, we show image-based phenotypic screens, which reveal that the AKT kinase inhibitor AZD5363 shows immune-mediated anticancer activity. The reactivity of probe H5 may enable the monitoring of early responses to anticancer treatments using tissue biopsies. Granzyme B is found in activated T cells and can be used as a marker of T cell activation. Here, the authors generate a fluorescent probe that can detect Granzyme B levels in tumours, and has the potential to be used as a biomarker of response to immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

8. Activity probe for in vivo profiling of the specificity of proteasome inhibitor bortezomib.

Author

Berkers, Celia R., Verdoes, Martijn, Lichtman, Eben, Fiebiger, Edda, Kessler, Benedikt M., Anderson, Kenneth C., Ploegh, Hidde L., Ovaa, Huib, and Galardy, Paul J.

Subjects

*MULTIPLE myeloma, *BLOOD diseases, *HEMATOLOGIC agents, *CHEMICAL inhibitors, *PEPTIDES, *PROTEIN research, *CLINICAL pharmacology, *PHARMACEUTICAL research, *MEDICAL research

Abstract

Proteasome inhibitors, such as the dipeptide boronic acid bortezomib, are emerging as important tools in the treatment of the fatal hematologic malignancy multiple myeloma. Despite the recent US Food and Drug Administration approval of bortezomib (PS341, Velcade) for the treatment of refractory multiple myeloma, many of the basic pharmacologic parameters of bortezomib and its mode of action on myeloma cells remain to be determined. We describe the synthesis and use of a cell-permeant active site–directed probe, which allows profiling of proteasomal activities in living cells. When we compared proteasome activity patterns in cultured cells and crude cell extracts with this probe, we observed substantial differences, stressing the importance for bioassays compatible with live cells to ensure accuracy of such measurements. Using this probe, we investigated the in vivo subunit specificities of bortezomib and another inhibitor, MG132. [ABSTRACT FROM AUTHOR]

Published

2005

9. Bifunctional Probes of Cathepsin Protease Activity and pH Reveal Alterations in Endolysosomal pH during Bacterial Infection.

Author

Sanman, Laura E., van der Linden, Wouter A., Verdoes, Martijn, and Bogyo, Matthew

Subjects

*CATHEPSINS, *BACTERIAL diseases, *CYSTEINE, *PROTEOLYTIC enzymes, *PEPTIDES

Abstract

Summary Cysteine cathepsins are lysosomal proteases involved in regulation of both normal cellular processes and disease. Biochemical studies with peptide substrates indicate that cathepsins have optimal activity at acidic pH and highly attenuated activity at neutral pH. In contrast, there is mounting evidence that cathepsins have biological roles in environments that have non-acidic pH. To further define the specific pH environments where cathepsins act, we designed bifunctional activity-based probes (ABPs) that allow simultaneous analysis of cathepsin protease activity and pH. We use these probes to analyze the steady-state environment of cathepsin activity in macrophages and to measure dynamic changes in activity and pH upon stimulation. We show that Salmonella typhimurium induces a change in lysosomal pH that ultimately impairs cathepsin activity in both infected cells and a fraction of bystander cells, highlighting a mechanism by which Salmonella can simultaneously flourish within host cells and alter the behavior of nearby uninfected cells. [ABSTRACT FROM AUTHOR]

Published

2016

10. O-GlcNAc Peptide Epoxyketones Are Recognized by Mammalian Proteasomes.

Author

Witte, Martin D., Florea, Bogdan I., Verdoes, Martijn, Adeyanju, Oloruntosin, Van der Marel, Gijs A., and Overkleeft, Herman S.

Subjects

*PEPTIDES, *PROTEIN analysis, *MAMMALOGICAL research, *KETONES, *RESEARCH

Abstract

The article presents a study on the recognition of the O-GlcNAc peptide epoxyketones in the mammalian proteasomes. Several studies have revealed that O-GlcNAcylated proteins is capable of becoming a proteasome substrate. The characteristic of the O-GlcNAcylated proteins were analyzed based on the ability of peptide epoxyketones to inhibit the proteasome.

Published

2009