Your search keyword '"Bogyo M"' showing total 7 results

1. Inhibition of papain-like cysteine proteases and legumain by caspase-specific inhibitors: when reaction mechanism is more important than specificity.

Author

Rozman-Pungercar, J, Kopitar-Jerala, N, Bogyo, M, Turk, D, Vasiljeva, O, Stefe, I, Vandenabeele, P, Bromme, D, Puizdar, V, Fonovic, M, Trstenjak-Prebanda, M, Dolenc, I, Turk, V, and Turk, B

Subjects

*PEPTIDES, *KETONES, *ALDEHYDES

Abstract

We report here that a number of commonly used small peptide caspase inhibitors consisting of a caspase recognition sequence linked to chloromethylketone, fluoromethylketone or aldehyde reactive group efficiently inhibit other cysteine proteases than caspases. The in vitro studies included cathepsins B, H, L, S, K, F, V, X and C, papain and legumain. Z-DEVD-cmk was shown to be the preferred irreversible inhibitor of most of the cathepsins in vitro, followed by Z-DEVD-fmk, Ac-YVAD-cmk, Z-YVAD-fmk and Z-VAD-fmk. Inactivation of legumain by all the inhibitors investigated was moderate, whereas cathepsins H and C were poorly inhibited or not inhibited at all. Inhibition by aldehydes was not very potent. All the three fluoromethylketones efficiently inhibited cathepsins in Jurkat and human embryonic kidney 293 cells at concentrations of 100?uM. Furthermore, they completely inhibited cathepsins B and X activity in tissue extracts at concentrations as low as 1?uM. These results suggest that data based on the use of these inhibitors should be taken with caution and that other proteases may be implicated in the processes previously ascribed solely to caspases.Cell Death and Differentiation (2003) 10, 881-888. doi:10.1038/sj.cdd.4401247 [ABSTRACT FROM AUTHOR]

Published

2003

2. Fluorescence Imaging for Cancer Screening and Surveillance.

Author

Tipirneni, K., Rosenthal, E., Moore, L., Haskins, A., Udayakumar, N., Jani, A., Carroll, W., Morlandt, A., Bogyo, M., Rao, J., Warram, Jason, Tipirneni, K E, Rosenthal, E L, Moore, L S, Haskins, A D, Jani, A H, Carroll, W R, Morlandt, A B, and Warram, Jason M

Subjects

*PHOTOLUMINESCENCE, *CLINICAL trials, *MEDICAL care, *CANCER cells, *DISEASES

Abstract

The advent of fluorescence imaging (FI) for cancer cell detection in the field of oncology is promising for both cancer screening and surgical resection. Particularly, FI in cancer screening and surveillance is actively being evaluated in many new clinical trials with over 30 listed on Clinical Trials.gov . While surgical resection forms the foundation of many oncologic treatments, early detection is the cornerstone for improving outcomes and reducing cancer-related morbidity and mortality. The applications of FI are twofold as it can be applied to high-risk patients in addition to those undergoing active surveillance. This technology has the promise of highlighting lesions not readily detected by conventional imaging or physical examination, allowing disease detection at an earlier stage of development. Additionally, there is a persistent need for innovative, cost-effective imaging modalities to ameliorate healthcare disparities and the global burden of cancer worldwide. In this review, we outline the current utility of FI for screening and detection in a range of cancer types. [ABSTRACT FROM AUTHOR]

Published

2017

3. Loss of Prkar1a leads to Bcl-2 family protein induction and cachexia in mice.

Author

Gangoda, L, Doerflinger, M, Srivastava, R, Narayan, N, Edgington, L E, Orian, J, Hawkins, C, O'Reilly, L A, Gu, H, Bogyo, M, Ekert, P, Strasser, A, and Puthalakath, H

Subjects

*CACHEXIA, *CARNEY complex, *LABORATORY mice, *CELL death, *FIBROBLASTS, *CONNECTIVE tissue cells, *NEOPLASTIC cell transformation

Abstract

Loss of function mutations in the Prkar1a gene are the cause of most cases of Carney complex disorder. Defects in Prkar1a are thought to cause hyper-activation of PKA signalling, which drives neoplastic transformation, and Prkar1a is therefore considered to be a tumour suppressor. Here we show that loss of Prkar1a in genetically modified mice caused transcriptional activation of several proapoptotic Bcl-2 family members and thereby caused cell death. Interestingly, combined loss of Bim and Prkar1a increased colony formation of fibroblasts in culture and promoted their growth as tumours in immune-deficient mice. Apart from inducing apoptosis, systemic deletion of Prkar1a caused cachexia with muscle loss, macrophage activation and increased lipolysis as well as serum triglyceride levels. Loss of single allele of Prkar1a did not enhance tumour development in a skin cancer model, but surprisingly, when combined with the loss of Bim, caused a significant delay in tumorigenesis and this was associated with upregulation of other BH3-only proteins, PUMA and NOXA. These results show that loss of Prkar1a can only promote tumorigenesis when Prkar1a-mediated apoptosis is somehow countered. [ABSTRACT FROM AUTHOR]

Published

2014

4. Serine proteases and protease-activated receptor 2 mediate the proinflammatory and algesic actions of diverse stimulants.

Author

Cattaruzza, F, Amadesi, S, Carlsson, J F, Murphy, J E, Lyo, V, Kirkwood, K, Cottrell, G S, Bogyo, M, Knecht, W, and Bunnett, N W

Subjects

*SERINE proteinases, *PROTEASE-activated receptors, *INFLAMMATION, *PAIN, *STIMULUS & response (Biology), *BRADYKININ, *TRYPSIN inhibitors

Abstract

Background and Purpose Although serine proteases and agonists of protease-activated receptor 2 ( PAR2) cause inflammation and pain, the spectrum of proteases that are activated by proinflammatory and algesic stimuli and their contribution to inflammatory pain are uncertain. Experimental Approach Enzymic assays and selective inhibitors were used to characterize protease activity in mice after intraplantar injections of formalin, bradykinin, PAR2 activating peptide ( AP) or vehicle. The capacity of these proteases and of recombinant mouse trypsin 4 to cleave fragments of PAR2 and to activate PAR2 in cell lines was determined. Protease inhibitors and par2−/− mice were used to assess the contributions of proteases and PAR2 to pain and inflammation. Key Results Intraplantar injection of formalin, bradykinin or PAR2- AP led to the activation of proteases that were susceptible to the serine protease inhibitor melagatran but resistant to soybean trypsin inhibitor ( SBTI). Melagatran inhibited mouse trypsin 4, which degraded SBTI. Proteases generated in inflamed tissues cleaved PAR2-derived peptides. These proteases and trypsin 4 increased [ Ca2+]i in PAR2-transfected but not in untransfected cells, and melagatran suppressed this activity. Melagatran or PAR2 deletion suppressed oedema and mechanical hypersensitivity induced by intraplantar formalin, bradykinin and PAR2- AP, but had no effect on capsaicin-induced pain. Conclusions and Implications Diverse proinflammatory and algesic agents activate melagatran-sensitive serine proteases that cause inflammation and pain by a PAR2-mediated mechanism. By inducing self-activating proteases, PAR2 amplifies and sustains inflammation and pain. Serine protease inhibitors can attenuate the inflammatory and algesic effects of diverse stimuli, representing a useful therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2014

5. Serine proteases and protease-activated receptor 2 mediate the proinflammatory and algesic actions of diverse stimulants.

Author

Cattaruzza, F, Amadesi, S, Carlsson, J F, Murphy, J E, Lyo, V, Kirkwood, K, Cottrell, G S, Bogyo, M, Knecht, W, and Bunnett, N W

Abstract

Background and Purpose: Although serine proteases and agonists of protease-activated receptor 2 (PAR2) cause inflammation and pain, the spectrum of proteases that are activated by proinflammatory and algesic stimuli and their contribution to inflammatory pain are uncertain.Experimental Approach: Enzymic assays and selective inhibitors were used to characterize protease activity in mice after intraplantar injections of formalin, bradykinin, PAR2 activating peptide (AP) or vehicle. The capacity of these proteases and of recombinant mouse trypsin 4 to cleave fragments of PAR2 and to activate PAR2 in cell lines was determined. Protease inhibitors and par2 (-/-) mice were used to assess the contributions of proteases and PAR2 to pain and inflammation.Key Results: Intraplantar injection of formalin, bradykinin or PAR2-AP led to the activation of proteases that were susceptible to the serine protease inhibitor melagatran but resistant to soybean trypsin inhibitor (SBTI). Melagatran inhibited mouse trypsin 4, which degraded SBTI. Proteases generated in inflamed tissues cleaved PAR2-derived peptides. These proteases and trypsin 4 increased [Ca(2+) ]i in PAR2-transfected but not in untransfected cells, and melagatran suppressed this activity. Melagatran or PAR2 deletion suppressed oedema and mechanical hypersensitivity induced by intraplantar formalin, bradykinin and PAR2-AP, but had no effect on capsaicin-induced pain.Conclusions and Implications: Diverse proinflammatory and algesic agents activate melagatran-sensitive serine proteases that cause inflammation and pain by a PAR2-mediated mechanism. By inducing self-activating proteases, PAR2 amplifies and sustains inflammation and pain. Serine protease inhibitors can attenuate the inflammatory and algesic effects of diverse stimuli, representing a useful therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2014

6. Cathepsin X-mediated β2 integrin activation results in nanotube outgrowth.

Author

Obermajer, N., Jevnikar, Z., Doljak, B., Sadaghiani, A. M., Bogyo, M., and Kos, J.

Subjects

*NANOTUBES, *CELLS, *T cells, *INTEGRINS, *CYSTEINE proteinases, *IMMUNE response

Abstract

Membrane nanotubes were recently described as a new principle of cell–cell communication enabling complex and specific messaging to distant cells. Calcium fluxes, vesicles, and cell-surface components can all traffic between cells connected by nanotubes. Here we report for the first time the mechanism of membrane nanotube formation in T cells through LFA-1 (CD11a/CD18; αLβ2) integrin activation by the cysteine protease cathepsin X. Cathepsin X is shown to induce persistent LFA-1 activation. Cathepsin X-upregulated T cells exhibit increased homotypic aggregation and polarized, migration-associated morphology in 2D and 3D models, respectively. In these cells, extended uropods are frequently formed, which subsequently elongate to nanotubes connecting T lymphocytes. Our results demonstrate that LFA-1 activation with subsequent cytoskeletal reorganization induces signal transmission through a physically connected network of T lymphocytes for better coordination of their action at various stages of the immune response. [ABSTRACT FROM AUTHOR]

Published

2009

7. Specificity of aza-peptide electrophile activity-based probes of caspases.

Author

Sexton, K. B., Kato, D., Berger, A. B., Fonovic, M., Verhelst, S. H. L., and Bogyo, M.

Subjects

*PEPTIDES, *PROTEOLYTIC enzymes, *APOPTOSIS, *HYDROLASES, *PROTEASE inhibitors

Abstract

Activity-Based Probes (ABPs) are small molecules that form stable covalent bonds with active enzymes thereby allowing detection and quantification of their activities in complex proteomes. A number of ABPs that target proteolytic enzymes have been designed based on well-characterized mechanism-based inhibitors. We describe here the evaluation of a novel series of ABPs based on the aza-aspartate inhibitory scaffold. Previous in vitro kinetic studies showed that this scaffold has a high degree of selectivity for the caspases, clan CD cysteine proteases activated during apoptotic cell death. Aza-aspartate ABPs containing either an epoxide or Michael acceptor reactive group were potent labels of executioner caspases in apoptotic cell extracts. However they were also effective labels of the clan CD protease legumain and showed unexpected crossreactivity with the clan CA protease cathepsin B. Interestingly, related aza peptides containing an acyloxymethyl ketone reactive group were relatively weak but highly selective labels of caspases. Thus azapeptide electrophiles are valuable new ABPs for both detection of a broad range of cysteine protease activities and for selective targeting of caspases. This study also highlights the importance of confirming the specificity of covalent protease inhibitors in crude proteomes using reagents such as the ABPs described here.Cell Death and Differentiation (2007) 14, 727–732. doi:10.1038/sj.cdd.4402074; published online 15 December 2006 [ABSTRACT FROM AUTHOR]

Published

2007