Your search keyword '"Cysteine cathepsin"' showing total 14 results

1. Branched pegylated linker-auristatin to control hydrophobicity for the production of homogeneous minibody-drug conjugate against HER2-positive breast cancer

Author

Douez, Emmanuel, Allard-Vannier, Emilie, Amar, Imène Ait Mohamed, Jolivet, Louis, Boursin, Fanny, Maisonial-Besset, Aurélie, Witkowski, Tiffany, Chezal, Jean-Michel, Colas, Cyril, Letast, Stéphanie, Auvert, Etienne, Denevault-Sabourin, Caroline, Aubrey, Nicolas, and Joubert, Nicolas

Published

2024

2. Cysteine cathepsins: From diagnosis to targeted therapy of cancer.

Author

Rot, Ana Ercegovič, Hrovatin, Matija, Bokalj, Bor, Lavrih, Ernestina, and Turk, Boris

Subjects

*TARGETED drug delivery, *PROTEOLYTIC enzymes, *DRUG delivery systems, *ANTIBODY-drug conjugates, *CATHEPSINS

Abstract

Cysteine cathepsins are a fascinating group of proteolytic enzymes that play diverse and crucial roles in numerous biological processes, both in health and disease. Understanding these proteases is essential for uncovering novel insights into the underlying mechanisms of a wide range of disorders, such as cancer. Cysteine cathepsins influence cancer biology by participating in processes such as extracellular matrix degradation, angiogenesis, immune evasion, and apoptosis. In this comprehensive review, we explore foundational research that illuminates the diverse and intricate roles of cysteine cathepsins as diagnostic markers and therapeutic targets for cancer. This review aims to provide valuable insights into the clinical relevance of cysteine cathepsins and explore their capacity to advance personalised and targeted medical interventions in oncology. • Cysteine cathepsins are pivotal in many cancer processes, making them desirable therapeutic targets. • Irregular cysteine cathepsin levels can serve as diagnostic and prognostic biomarkers in various cancers. • Development of molecular probes for cysteine cathepsins enhances diagnostic imaging and image-guided surgery. • Selective inhibitors and novel drug delivery systems targeting cysteine cathepsins hold promise for innovative cancer treatments. • Advances in antibody-drug conjugates utilizing cysteine cathepsins offer major potential in cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Pharmacological inhibition of cathepsin S and of NSPs-AAP-1 (a novel, alternative protease driving the activation of neutrophil serine proteases).

Author

Domain, Roxane, Seren, Seda, Jerke, Uwe, Makridakis, Manousos, Chen, Kuan-Ju, Zoidakis, Jérôme, Rhimi, Moez, Zhang, Xian, Bonvent, Tillia, Croix, Cécile, Gonzalez, Loïc, Li, Dedong, Basso, Jessica, Paget, Christophe, Viaud-Massuard, Marie-Claude, Lalmanach, Gilles, Shi, Guo-Ping, Aghdassi, Ali, Vlahou, Antonia, and McDonald, Patrick P.

Subjects

*SERINE proteinases, *PROGENITOR cells, *SOFT tissue injuries, *NEUTROPHILS, *PROTEASE inhibitors

Abstract

[Display omitted] An uncontrolled activity of neutrophil serine proteases (NSPs) contributes to inflammatory diseases. Cathepsin C (CatC) is known to activate NSPs during neutrophilic differentiation and represents a promising pharmacological target in NSP-mediated diseases. In humans, Papillon-Lefèvre syndrome (PLS) patients have mutations in their CTSC gene, resulting in the complete absence of CatC activity. Despite this, low residual NSP activities are detected in PLS neutrophils (<10% vs healthy individuals) , suggesting the involvement of CatC-independent proteolytic pathway(s) in the activation of proNSPs. This prompted us to characterize CatC-independent NSP activation pathways by blocking proCatC maturation. In this study, we show that inhibition of intracellular CatS almost completely blocked CatC maturation in human promyeloid HL-60 cells. Despite this, NSP activation was not significantly reduced, confirming the presence of a CatC-independent activation pathway involving a CatC-like protease that we termed NSPs-AAP-1. Similarly, when human CD34+ progenitor cells were treated with CatS inhibitors during neutrophilic differentiation in vitro , CatC activity was nearly abrogated but ∼30% NSP activities remained, further supporting the existence of NSPs-AAP-1. Our data indicate that NSPs-AAP-1 is a cysteine protease that is inhibited by reversible nitrile compounds designed for CatC inhibition. We further established a proof of concept for the indirect, although incomplete, inhibition of NSPs by pharmacological targeting of CatC maturation using CatS inhibitors. This emphasizes the potential of CatS as a therapeutic target for inflammatory diseases. Thus, preventing proNSP maturation using a CatS inhibitor, alone or in combination with a CatC/NSPs-AAP-1 inhibitor, represents a promising approach to efficiently control the extent of tissue injury in neutrophil-mediated inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2024

4. Imaging of extracellular cathepsin S activity by a selective near infrared fluorescence substrate-based probe.

Author

Wartenberg, Mylène, Saidi, Ahlame, Galibert, Mathieu, Joulin-Giet, Alix, Burlaud-Gaillard, Julien, Lecaille, Fabien, Scott, Christopher J., Aucagne, Vincent, Delmas, Agnès F., and Lalmanach, Gilles

Subjects

*ELASTASES, *FLUORESCENCE resonance energy transfer, *LEUCOCYTE elastase, *FLUORESCENCE

Abstract

We designed a near-infrared fluorescent substrate-based probe (SBP), termed MG101, for monitoring extracellular cathepsin S (CatS) activity. We conceived a fused peptide hairpin loop-structure, combining a CatS recognition domain, an electrostatic zipper (with complementary charges of a polyanionic (D-Glu) 5 segment and a polycationic (D-Arg) 5 motif, as well as a N and C terminal Förster resonance energy transfer pair (donor: AlexaFluor680; quencher: BHQ3) to facilitate activity-dependent imaging. MG101 showed excellent stability since no fluorescence release corresponding to a self-dequenching was observed in the presence of either 2 M NaCl or after incubation at a broad range of pH (2.2–8.2). Cathepsins B, D, G, H, and K, neutrophil elastase and proteinase 3 did not cleave MG101, while CatS, and to a lesser extent CatL, hydrolysed MG101 at pH 5.5. However MG101 was fully selective for CatS at pH 7.4 (k cat /K m = 140,000 M−1 s−1) and sensitive to low concentration of CatS (<1 nM). The selectivity of MG101 was successfully endorsed ex vivo , as it was hydrolysed in cell lysates derived from wild-type but not knockout CatS murine spleen. Furthermore, application of the SBP probe with confocal microscopy confirmed the secretion of active CatS from THP-1 macrophages, which could be abrogated by pharmacological CatS inhibitors. Taken together, present data highlight MG101 as a novel near-infrared fluorescent SBP for the visualization of extracellular active CatS from macrophages and other cell types. Image 1 [ABSTRACT FROM AUTHOR]

Published

2019

5. Lysosomal cathepsins and their regulation in aging and neurodegeneration.

Author

Stoka, Veronika, Turk, Vito, and Turk, Boris

Subjects

*LYSOSOMES, *CATHEPSINS, *AGING, *NEURODEGENERATION, *ANIMAL disease models

Abstract

Lysosomes and lysosomal hydrolases, including the cathepsins, have been shown to change their properties with aging brain a long time ago, although their function was not really understood. The first biochemical and clinical studies were followed by a major expansion in the last 20 years with the development of animal disease models and new approaches leading to a major advancement of understanding of the role of physiological and degenerative processes in the brain at the molecular level. This includes the understanding of the major role of autophagy and the cathepsins in a number of diseases, including its critical role in the neuronal ceroid lipofuscinosis. Similarly, cathepsins and some other lysosomal proteases were shown to have important roles in processing and/or degradation of several important neuronal proteins, thereby having either neuroprotective or harmful roles. In this review, we discuss lysosomal cathepsins and their regulation with the focus on cysteine cathepsins and their endogenous inhibitors, as well as their role in several neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2016

6. Straightforward synthesis of 2,4,6-trisubstituted 1,3,5-triazine compounds targeting cysteine cathepsins K and S.

Author

Plebanek, Elżbieta, Chevrier, Florian, Roy, Vincent, Garenne, Thibault, Lecaille, Fabien, Warszycki, Dawid, Bojarski, Andrzej J., Lalmanach, Gilles, and Agrofoglio, Luigi A.

Subjects

*TRIAZINES, *HETEROCYCLIC compounds synthesis, *CATHEPSINS, *ENDOPEPTIDASES, *CYCLOHEXYLAMINE, *PIPERAZINE

Abstract

The synthesis and evaluation against various cysteine cathepsins with endopeptidase activity, of two new families of hitherto unknown 1,3,5-triazines, substituted by a nitrile function and either a cyclohexylamine moiety ( 5 -like) or a piperazine moiety ( 9 -like) are described. The structure-activity relationship was discussed; from 16 synthesized novel compounds, 9h was the most active and selectively inhibitor of Cat K (IC 50 = 28 nM) and Cat S (IC 50 = 23 nM). Molecular docking of 9h to X-ray crystal structure of cathepsins K and S confirmed a common binding mode with a crucial covalent bond with Cys25. We observed for 9h that p -trifluorophenyl group is located in S2 pocket and possess hydrophobic interactions with Tyr67 and Met68. Triazine and piperazine moieties are located in S′1 pocket and interact with Gly23, Cys63, Gly64 and Gly65. Altogether, these results indicate that the new analogs can make them effective agents against some viruses for which the glycoprotein cleavage is mediated by an array of proteases. [ABSTRACT FROM AUTHOR]

Published

2016

7. Cathepsin S (CTSS) activity in health and disease - A treasure trove of untapped clinical potential.

Author

Smyth, Peter, Sasiwachirangkul, Jutharat, Williams, Rich, and Scott, Christopher J.

Subjects

*ANTIGEN processing, *ANTIGEN presentation, *DISEASE progression, *CYSTEINE

Abstract

Amongst the lysosomal cysteine cathepsin family of proteases, cathepsin S (CTSS) holds particular interest due to distinctive properties including a normal restricted expression profile, inducible upregulation and activity at a broad pH range. Consequently, while CTSS is well-established as a member of the proteolytic cocktail within the lysosome, degrading unwanted and damaged proteins, it has increasingly been shown to mediate a number of distinct, more selective roles including antigen processing and antigen presentation, and cleavage of substrates both intra and extracellularly. Increasingly, aberrant CTSS expression has been demonstrated in a variety of conditions and disease states, marking it out as both a biomarker and potential therapeutic target. This review seeks to contextualise CTSS within the cysteine cathepsin family before providing an overview of the broad range of pathologies in which roles for CTSS have been identified. Additionally, current clinical progress towards specific inhibitors is detailed, updating the position of the field in exploiting this most unique of proteases. [ABSTRACT FROM AUTHOR]

Published

2022

8. Cysteine cathepsins as digestive enzymes in the spider Nephilengys cruentata.

Author

Fuzita, Felipe J., Pinkse, Martijn W.H., Verhaert, Peter D.E.M., and Lopes, Adriana R.

Subjects

*CYSTEINE, *CATHEPSINS, *DIGESTIVE enzymes, *ARTHROPODA, *PROTEOMICS, *HYDROGEN-ion concentration

Abstract

Cysteine cathepsins are widely spread on living organisms associated to protein degradation in lysosomes, but some groups of Arthropoda (Heteroptera, Coleoptera, Crustacea and Acari) present these enzymes related to digestion of the meal proteins. Although spiders combine a mechanism of extra-oral with intracellular digestion, the sporadic studies on this subject were mainly concerned with the digestive fluid (DF) analysis. Thus, a more complete scenario of the digestive process in spiders is still lacking in the literature. In this paper we describe the identification and characterization of cysteine cathepsins in the midgut diverticula (MD) and DF of the spider Nephilengys cruentata by using enzymological assays. Furthermore, qualitative and quantitative data from transcriptomic followed by proteomic experiments were used together with biochemical assays for results interpretation. Five cathepsins L, one cathepsin F and one cathepsin B were identified by mass spectrometry, with cathepsins L1 (NcCTSL1) and 2 (NcCTSL2) as the most abundant enzymes. The native cysteine cathepsins presented acidic characteristics such as pH optima of 5.5, pH stability in acidic range and zymogen conversion to the mature form after in vitro acidification. NcCTSL1 seems to be a lysosomal enzyme with its recombinant form displaying acidic characteristics as the native ones and being inhibited by pepstatin. Evolutionarily, arachnid cathepsin L may have acquired different roles but its use for digestion is a common feature to studied taxa. Now a more elucidative picture of the digestive process in spiders can be depicted, with trypsins and astacins acting extra-orally under alkaline conditions whereas cysteine cathepsins will act in an acidic environment, likely in the digestive vacuoles or lysosome-like vesicles. [ABSTRACT FROM AUTHOR]

Published

2015

9. Optimizing dentin bond durability: Control of collagen degradation by matrix metalloproteinases and cysteine cathepsins

Author

Tjäderhane, Leo, Nascimento, Fabio D., Breschi, Lorenzo, Mazzoni, Annalisa, Tersariol, Ivarne L.S., Geraldeli, Saulo, Tezvergil-Mutluay, Arzu, Carrilho, Marcela R., Carvalho, Ricardo M., Tay, Franklin R., and Pashley, David H.

Subjects

*DENTIN, *DENTAL bonding, *COLLAGEN, *MATRIX metalloproteinases, *CATHEPSINS, *DENTAL adhesives, *HYDROLYSIS, *DENTAL resins

Abstract

Abstract: Objectives: Contemporary adhesives lose their bond strength to dentin regardless of the bonding system used. This loss relates to the hydrolysis of collagen matrix of the hybrid layers. The preservation of the collagen matrix integrity is a key issue in the attempts to improve the dentin bonding durability. Methods: Dentin contains collagenolytic enzymes, matrix metalloproteinases (MMPs) and cysteine cathepsins, which are responsible for the hydrolytic degradation of collagen matrix in the bonded interface. Results: The identities, roles and function of collagenolytic enzymes in mineralized dentin has been gathered only within last 15years, but they have already been demonstrated to have an important role in dental hard tissue pathologies, including the degradation of the hybrid layer. Identifying responsible enzymes facilitates the development of new, more efficient methods to improve the stability of dentin–adhesive bond and durability of bond strength. Significance: Understanding the nature and role of proteolytic degradation of dentin–adhesive interfaces has improved immensely and has practically grown to a scientific field of its own within only 10years, holding excellent promise that stable resin–dentin bonds will be routinely available in a daily clinical setting already in a near future. [Copyright &y& Elsevier]

Published

2013

10. Cysteine cathepsins: From structure, function and regulation to new frontiers

Author

Turk, Vito, Stoka, Veronika, Vasiljeva, Olga, Renko, Miha, Sun, Tao, Turk, Boris, and Turk, Dušan

Subjects

*CYSTEINE proteinases, *PROTEIN structure, *HYDROLASES, *ENZYME regulation, *GENE expression, *LYSOSOMES

Abstract

Abstract: It is more than 50years since the lysosome was discovered. Since then its hydrolytic machinery, including proteases and other hydrolases, has been fairly well identified and characterized. Among these are the cysteine cathepsins, members of the family of papain-like cysteine proteases. They have unique reactive-site properties and an uneven tissue-specific expression pattern. In living organisms their activity is a delicate balance of expression, targeting, zymogen activation, inhibition by protein inhibitors and degradation. The specificity of their substrate binding sites, small-molecule inhibitor repertoire and crystal structures are providing new tools for research and development. Their unique reactive-site properties have made it possible to confine the targets simply by the use of appropriate reactive groups. The epoxysuccinyls still dominate the field, but now nitriles seem to be the most appropriate “warhead”. The view of cysteine cathepsins as lysosomal proteases is changing as there is now clear evidence of their localization in other cellular compartments. Besides being involved in protein turnover, they build an important part of the endosomal antigen presentation. Together with the growing number of non-endosomal roles of cysteine cathepsins is growing also the knowledge of their involvement in diseases such as cancer and rheumatoid arthritis, among others. Finally, cysteine cathepsins are important regulators and signaling molecules of an unimaginable number of biological processes. The current challenge is to identify their endogenous substrates, in order to gain an insight into the mechanisms of substrate degradation and processing. In this review, some of the remarkable advances that have taken place in the past decade are presented. This article is part of a Special Issue entitled: Proteolysis 50years after the discovery of lysosome. [Copyright &y& Elsevier]

Published

2012

11. Functional in vivo imaging of cysteine cathepsin activity in murine model of inflammation

Author

Caglič, Dejan, Globisch, Anja, Kindermann, Maik, Lim, Ngee-Han, Jeske, Volker, Juretschke, Hans-Paul, Bartnik, Eckart, Weithmann, K. Ulrich, Nagase, Hideaki, Turk, Boris, and Wendt, K. Ulrich

Subjects

*SULFUR amino acids, *INFLAMMATION, *MURINAE, *ANIMAL models in research, *NEAR infrared spectroscopy, *IMAGING of cancer, *MOLECULAR probes, *ZYMOSAN

Abstract

Abstract: Near-infrared fluorophore (NIRF)-labeled imaging probes are becoming increasingly important in bio-molecular imaging applications, that is, in animal models for tumor imaging or inflammation studies. In this study we showed that the previously introduced chemical concept of ‘Reverse Design’ represents an efficient strategy for the generation of selective probes for cysteine proteases from chemically optimized protease inhibitors for investigations in proteomic lysates as well as for in vivo molecular imaging studies. The newly developed activity-based probe AW-091 was demonstrated to be highly selective for cathepsin S in vitro and proved useful in monitoring cysteine cathepsin activity in vivo, that is, in zymosan-induced mouse model of inflammation. AW-091 showed higher signal-to-background ratios at earlier time points than the commercially available polymer-based ProSense680 (VisEn Medical) and thus represents an efficient new tool for studying early proteolytic processes leading to various diseases, including inflammation, cancer, and rheumatoid arthritis. In addition, the fluorescent signal originating from the cleaved AW-091 was shown to be reduced by the administration of an anti-inflammatory drug, dexamethasone and by the cathepsin inhibitor E-64, providing a valuable system for the evaluation of small-molecule inhibitors of cathepsins. [Copyright &y& Elsevier]

Published

2011

12. Identification and pre-clinical testing of a reversible cathepsin protease inhibitor reveals anti-tumor efficacy in a pancreatic cancer model

Author

Elie, Benelita Tina, Gocheva, Vasilena, Shree, Tanaya, Dalrymple, Stacie A., Holsinger, Leslie J., and Joyce, Johanna A.

Subjects

*PANCREATIC cancer treatment, *PROTEASE inhibitors, *ANTINEOPLASTIC agents, *GENE expression, *DRUG efficacy, *METASTASIS

Abstract

Abstract: Proteolytic activity is required for several key processes in cancer development and progression, including tumor growth, invasion and metastasis. Accordingly, high levels of protease expression and activity have been found to correlate with malignant progression and poor patient prognosis in a wide variety of human cancers. Members of the papain family of cysteine cathepsins are among the protease classes that have been functionally implicated in cancer. Therefore, the discovery of effective cathepsin inhibitors has considerable potential for anti-cancer therapy. In this study we describe the identification of a novel, reversible cathepsin inhibitor, VBY-825, which has high potency against cathepsins B, L, S and V. VBY-825 was tested in a pre-clinical model of pancreatic islet cancer and found to significantly decrease tumor burden and tumor number. Thus, the identification of VBY-825 as a new and effective anti-tumor drug encourages the therapeutic application of cathepsin inhibitors in cancer. [ABSTRACT FROM AUTHOR]

Published

2010

13. Lysosomal–mitochondrial cross-talk during cell death

Author

Repnik, Urška and Turk, Boris

Subjects

*MITOCHONDRIAL membranes, *APOPTOSIS, *CYSTEINE proteinases, *LYSOSOMES, *CYTOCHROME c, *HYDROLASES

Abstract

Abstract: Lysosomes are membrane-bound organelles, which contain an arsenal of different hydrolases, enabling them to act as the terminal degradative compartment of the endocytotic, phagocytic and autophagic pathways. During the last decade, it was convincingly shown that destabilization of lysosomal membrane and release of lysosomal content into the cytosol can initiate the lysosomal apoptotic pathway, which is dependent on mitochondria destabilization. The cleavage of BID to t-BID and degradation of anti-apoptotic BCL-2 proteins by lysosomal cysteine cathepsins were identified as links to the mitochondrial cytochrome c release, which eventually leads to caspase activation. There have also been reports about the involvement of lysosome destabilization and lysosomal proteases in the extrinsic apoptotic pathway, although the molecular mechanism is still under debate. In the present article, we discuss the cross-talk between lysosomes and mitochondria during apoptosis and its consequences for the fate of the cell. [Copyright &y& Elsevier]

Published

2010

14. Biochemical properties and regulation of cathepsin K activity

Author

Lecaille, Fabien, Brömme, Dieter, and Lalmanach, Gilles

Subjects

*VITAMIN D deficiency, *BONE diseases, *HYDROGEN-ion concentration, *PROTEOLYTIC enzymes

Abstract

Abstract: Cysteine cathepsins (11 in humans) are mostly located in the acidic compartments of cells. They have been known for decades to be involved in intracellular protein degradation as housekeeping proteases. However, the discovery of new cathepsins, including cathepsins K, V and F, has provided strong evidence that they also participate in specific biological events. This review focuses on the current knowledge of cathepsin K, the major bone cysteine protease, which is a drug target of clinical interest. Nevertheless, we will not discuss recent developments in cathepsin K inhibitor design since they have been extensively detailed elsewhere. We will cover features of cathepsin K structure, cellular and tissue distribution, substrate specificity, and regulation (pH, propeptide, glycosaminoglycans, oxidants), and its putative roles in physiological or pathophysiological processes. Finally, we will review the kinetic data of its inhibition by natural endogenous inhibitors (stefin B, cystatin C, H- and L-kininogens). [Copyright &y& Elsevier]

Published

2008