Showing total 16 results

1. Molecular determinants of protein half-life in chloroplasts with focus on the Clp protease system.

Author

Winckler, Lioba Inken and Dissmeyer, Nico

Subjects

CHLOROPLASTS, N-terminal residues, PROTEOLYSIS, PROTEIN stability, PLASTIDS, PROTEASOMES

Abstract

Proteolysis is an essential process to maintain cellular homeostasis. One pathway that mediates selective protein degradation and which is in principle conserved throughout the kingdoms of life is the N-degron pathway, formerly called the 'N-end rule'. In the cytosol of eukaryotes and prokaryotes, N-terminal residues can be major determinants of protein stability. While the eukaryotic N-degron pathway depends on the ubiquitin proteasome system, the prokaryotic counterpart is driven by the Clp protease system. Plant chloroplasts also contain such a protease network, which suggests that they might harbor an organelle specific N-degron pathway similar to the prokaryotic one. Recent discoveries indicate that the N-terminal region of proteins affects their stability in chloroplasts and provides support for a Clp-mediated entry point in an N-degron pathway in plastids. This review discusses structure, function and specificity of the chloroplast Clp system, outlines experimental approaches to test for an N-degron pathway in chloroplasts, relates these aspects into general plastid proteostasis and highlights the importance of an understanding of plastid protein turnover. [ABSTRACT FROM AUTHOR]

Published

2023

2. Recent advances in the development of legumain-selective chemical probes and peptide prodrugs.

Author

Poreba, Marcin

Subjects

SMALL molecules, PROTEOLYSIS, ANTIGEN presentation, DISEASE progression, PRODRUGS, INTRAMOLECULAR forces

Abstract

Legumain, which is also known as vacuolar processing enzyme (VPE) or asparaginyl endopeptidase (AEP), is a cysteine protease that was first discovered and characterized in the leguminous seeds of the moth bean in the early 1990s. Later, this enzyme was also detected in higher organisms, including eukaryotes. This pH-dependent protease displays the highest activity in acidic endolysosomal compartments; however, legumain also displays nuclear, cytosolic and extracellular activity when stabilized by other proteins or intramolecular complexes. Based on the results from over 25 years of research, this protease is involved in multiple cellular events, including protein degradation and antigen presentation. Moreover, when dysregulated, this protease contributes to the progression of several diseases, with cancer being the well-studied example. Research on legumain biology was undoubtedly facilitated by the use of small molecule chemical tools. Therefore, in this review, I present the historical perspectives and most current strategies for the development of small molecule substrates, inhibitors and activity-based probes for legumain. These tools are of paramount importance in elucidating the roles of legumain in multiple biological processes. Finally, as this enzyme appears to be a promising molecular target for anticancer therapies, the development of legumain-activated prodrugs is also described. [ABSTRACT FROM AUTHOR]

Published

2019

3. Recent advances in the development of legumain-selective chemical probes and peptide prodrugs.

Author

Poreba, Marcin

Subjects

SMALL molecules, PRODRUGS, PROTEOLYSIS, ANTIGEN presentation, DISEASE progression, INTRAMOLECULAR forces

Abstract

Legumain, which is also known as vacuolar processing enzyme (VPE) or asparaginyl endopeptidase (AEP), is a cysteine protease that was first discovered and characterized in the leguminous seeds of the moth bean in the early 1990s. Later, this enzyme was also detected in higher organisms, including eukaryotes. This pH-dependent protease displays the highest activity in acidic endolysosomal compartments; however, legumain also displays nuclear, cytosolic and extracellular activity when stabilized by other proteins or intramolecular complexes. Based on the results from over 25 years of research, this protease is involved in multiple cellular events, including protein degradation and antigen presentation. Moreover, when dysregulated, this protease contributes to the progression of several diseases, with cancer being the well-studied example. Research on legumain biology was undoubtedly facilitated by the use of small molecule chemical tools. Therefore, in this review, I present the historical perspectives and most current strategies for the development of small molecule substrates, inhibitors and activity-based probes for legumain. These tools are of paramount importance in elucidating the roles of legumain in multiple biological processes. Finally, as this enzyme appears to be a promising molecular target for anticancer therapies, the development of legumain-activated prodrugs is also described. [ABSTRACT FROM AUTHOR]

Published

2019

4. A personal journey with matrix metalloproteinases.

Author

Nagase, Hideaki

Subjects

MATRIX metalloproteinases, PROTEOLYSIS, CLONING, COLLAGENASES, ENDOCYTOSIS

Abstract

I was given the honor of delivering the 2015 Lifetime Membership Award lecture at the International Proteolysis Society's annual meeting held in Penang, Malaysia in October 2015. It gave me an opportunity to look back on how I started my research on matrix metalloproteinases (MMPs) and how I continued to work on these proteinases for the next 42 years. This is a series of sketches from the personal journey that I took with MMPs, starting from the purification of metalloproteinases, cloning, structural studies, then to a more recent encounter, endocytic regulation of matrix-degrading metalloproteinases. [ABSTRACT FROM AUTHOR]

Published

2016

5. Chemical biology in drug discovery.

Author

Hacker, Stephan M. and Jessen-Trefzer, Claudia

Subjects

CHEMICAL biology, SYNTHETIC proteins, CHEMICAL processes, BIOCHEMISTRY, SMALL molecules, PROTEOLYSIS, ANTIBIOTICS

Abstract

Paul Ebensperger and Claudia Jessen-Trefzer take up another interesting aspect of artificial protein chemistry. In this context, Wang and coworkers describe a yeast three-hybrid system to identify the protein targets of small molecules, while addressing the challenge of compound uptake into yeast cells ([8]). This Highlight Issue of I Biological Chemistry i covers various aspects of today's drug discovery process at the interface between chemistry and biology, and provides an outlook on future research directions, methods and emerging trends. [Extracted from the article]

Published

2022

6. Redox diversity in ERAD-mediated protein retrotranslocation from the endoplasmic reticulum: a complex puzzle.

Author

Suzuki, Yutaka and Schmitt, Manfred J.

Subjects

CHROMOSOMAL translocation, ENDOPLASMIC reticulum, UBIQUITINATION, PROTEIN folding, PROTEOLYSIS, HOSTS (Biology)

Abstract

Misfolded and incorrectly assembled proteins in the secretory pathway are eliminated by ubiquitylation and proteasomal degradation in a process known as ER-associated degradation (ERAD). Retrotranslocation of diverse substrates including misfolded proteins and viruses occurs through channels in the ER membrane, which are also utilized for host cell penetration by A/B class protein toxins such as cholera toxin, ricin or K28. According to the current view, disulfide-bonded proteins must either be reduced or rearranged to ensure translocation competence and entry into the cytosol from the ER. As the underlying mechanisms are still largely mysterious, we here focus on the redox status and disulfide isomerization of ERAD substrates and the role of oxidoreductases in the essential process of ER-to-cytosol retrotranslocation. [ABSTRACT FROM AUTHOR]

Published

2015

7. Roasting and lipid binding provide allergenic and proteolytic stability to the peanut allergen Ara h 8.

Author

Petersen, Arnd, Rennert, Sandra, Kull, Skadi, Becker, Wolf-Meinhard, Notbohm, Holger, Goldmann, Torsten, and Jappe, Uta

Subjects

IMMUNOHISTOCHEMISTRY, CIRCULAR dichroism, SPECTRUM analysis, IMMUNOBLOTTING, PROTEOLYSIS, BIOLOGICAL assay

Abstract

Ara h 8 is the peanut allergen homologous to the birch pollen allergen Bet v 1. Because Bet v 1 has been shown to bind lipophilic ligands, the aim of this investigation was to determine the impact of lipid binding and roasting on the Ara h 8 structure and their influences on allergenicity. For the characterization of natural Ara h 8 (nAra h 8) from roasted and unroasted peanuts, circular dichroism spectroscopy, hydrophobic binding assay, immunohistochemistry, and immunoblot with sera of peanut allergic patients were performed and compared with results from recombinant Ara h 8 (rAra h 8) and Bet v 1. rAra h 8 displayed stronger hydrophobicity than rBet v 1. Patients' sera showed IgE reactivity with rAra h 8 and nAra h 8 from roasted peanuts, whereas fewer sera recognized nAra h 8 from unroasted peanuts. Simulated gastric digestion experiments demonstrated low proteolytic stability of rAra h 8, whereas the stability of nAra h 8 was increasingly higher in unroasted and roasted peanuts. The results demonstrate that IgE reactivity and thermal and proteolytic stability are reinforced in nAra h 8 after roasting, most likely due to Maillard reactions, lipid oxidations, and lipophilic associations. These aspects must be considered when estimating the allergenicity of Bet v 1-homologous proteins. [ABSTRACT FROM AUTHOR]

Published

2014

8. Structural features of antiviral DNA cytidine deaminases.

Author

Vasudevan, Ananda Ayyappan Jaguva, Smits, Sander H.J., Höppner, Astrid, Häussinger, Dieter, Koenig, Bernd W., and Münk, Carsten

Subjects

ANTIVIRAL agents, CYTIDINE deaminase, NATURAL immunity, RETROVIRUSES, HIV, VIRAL proteins, PROTEOLYSIS

Abstract

The APOBEC3 (A3) family of cytidine deaminases plays a vital role for innate defense against retroviruses. Lentiviruses such as HIV-1 evolved the Vif protein that triggers A3 protein degradation. There are seven A3 proteins, A3A-A3H, found in humans. All A3 proteins can deaminate cytidines to uridines in single-stranded DNA (ssDNA), generated during viral reverse transcription. A3 proteins have either one or two cytidine deaminase domains (CD). The CDs coordinate a zinc ion, and their amino acid specificity classifies the A3s into A3Z1, A3Z2, and A3Z3. A3 proteins occur as monomers, dimers, and large oligomeric complexes. Studies on the nature of A3 oligomerization, as well as the mode of interaction of A3s with RNA and ssDNA are partially controversial. High-resolution structures of the catalytic CD2 of A3G and A3F as well as of the single CD proteins A3A and A3C have been published recently. The NMR and X-ray crystal structures show globular proteins with six α-helices and five β sheets arranged in a characteristic motif (α1-β1-β2/2′-α2-β3-α3-β4-α4-β5-α5-α6). However, the detailed arrangement and extension of individual structure elements and their relevance for A3 complex formation and activity remains a matter of debate and will be highlighted in this review. [ABSTRACT FROM AUTHOR]

Published

2013

9. Cysteine proteinase SpeB from Streptococcus pyogenes - a potent modifier of immunologically important host and bacterial proteins.

Author

Nelson, Daniel C., Garbe, Julia, and Collin, Mattias

Subjects

STREPTOCOCCUS pyogenes, BACTERIAL proteins, PHARYNGITIS, IMPETIGO, TOXIC shock syndrome, MICROBIAL virulence, PROTEOLYSIS, IMMUNOLOGY, ANIMAL models in research

Abstract

Group A streptococcus ( Streptococcus pyogenes) is an exclusively human pathogen that causes a wide spectrum of diseases ranging from pharyngitis, to impetigo, to toxic shock, to necrotizing fasciitis. The diversity of these disease states necessitates that S. pyogenes possess the ability to modulate both the innate and adaptive immune responses. SpeB, a cysteine proteinase, is the predominant secreted protein from S. pyogenes. Because of its relatively indiscriminant specificity, this enzyme has been shown to degrade the extracellular matrix, cytokines, chemokines, complement components, immunoglobulins, and serum protease inhibitors, to name but a few of the known substrates. Additionally, SpeB regulates other streptococcal proteins by degrading them or releasing them from the bacterial surface. Despite the wealth of literature on putative SpeB functions, there remains much controversy about this enzyme because many of reported activities would produce contradictory physiological results. Here we review all known host and bacterial protein substrates for SpeB, their cleavage sites, and discuss the role of this enzyme in streptococcal pathogenesis based on the current literature. [ABSTRACT FROM AUTHOR]

Published

2011

10. Interdependence of kallikrein-related peptidases in proteolytic networks.

Author

Beaufort, Nathalie, Plaza, Karolina, Utzschneider, Daniel, Schwarz, Amelie, Burkhart, Julia M., Creutzburg, Sabine, Debela, Mekdes, Schmitt, Manfred, Ries, Christian, and Magdolen, Viktor

Subjects

CANCER, PEPTIDES, SERINE proteinases, METALLOPROTEINASES, PROTEOLYSIS

Abstract

Human kallikrein-related peptidases (KLKs) are 15 homologous serine proteases involved in several (patho)physiological processes, including cancer. Secreted as precursors, they are activated upon proteolytic release of a short pro-peptide. We searched for interconnection of KLKs within extracellular proteolytic networks leading to activation of protease zymogens and found that (i) pro-KLK activation by other KLKs is scarce, with the exception of pro-KLK11, which is efficiently activated by KLK4 and 5; (ii) pro-KLK4 is activated by matrix metalloproteinase 3; and (iii) trypsin-like KLKs efficiently activate the serine protease urokinase. Our observations provide new insights into the regulation of these important tumor-associated proteases. [ABSTRACT FROM AUTHOR]

Published

2010

11. Activation mechanisms of coagulation factor IX.

Author

Zögg, Thomas and Brandstetter, Hans

Subjects

HEMOSTASIS, BLOOD coagulation factor IX, FIBRINOLYSIS, BLOOD coagulation factors, PROTEOLYSIS

Abstract

Blood haemostasis is accomplished by a complex network of coagulatory and fibrinolytic processes. These processes have to be delicately balanced, as clinically manifested by bleeding disorders, such as haemophilia A and B. These disorders are caused by defects in coagulation factor VIII and factor IX, respectively. Following a dual strategy, we emphasise on the one hand principles conserved in most coagulation enzymes, thus mirroring much of the underlying complexity in haemostasis; on the other hand, we identify enzymatic properties of the factor IXa-factor VIIIa system (Xase) that distinguish this proteolytic machine from other components of the coagulation system. While the exact mechanisms of its activity modulation remain baffling until today, superactive factor IX mutants significantly improve our current understanding and serve as a specific and testable model of Xase action. [ABSTRACT FROM AUTHOR]

Published

2009

12. Assembly of natural and recombinant prion protein into fibrils.

Author

Leffers, Karl-Werner, Wille, Holger, Stöhr, Jan, Junger, Erika, Prusiner, Stanley B., and Riesner, Detlev

Subjects

PRIONS, PROTEINS, PRION diseases, COMMUNICABLE diseases, PROTEOLYSIS

Abstract

The conversion of the α-helical, cellular isoform of the prion protein (PrP C ) to the insoluble, β-sheet-rich, infectious, disease-causing isoform (PrP Sc ) is the fundamental event in the prion diseases. The C-terminal fragment of PrP Sc (PrP 27–30) is formed by limited proteolysis and retains infectivity. Unlike full-length PrP Sc , PrP 27–30 polymerizes into rod-shaped structures with the ultra-structural and tinctorial properties of amyloid. To study the folding of PrP, both with respect to the formation of PrP Sc from PrP C and the assembly of rods from PrP 27–30, we solubilized Syrian hamster (sol SHa) PrP 27–30 in low concentrations (0.2%) of sodium dodecyl sulfate (SDS) under conditions previously used to study the structural transitions of this protein. Sol SHaPrP 27–30 adopted a β-sheet-rich structure at SDS concentrations between 0.02% and 0.04% and remained soluble. Here we report that NaCl stabilizes SHaPrP 27–30 in a soluble, β-sheet-rich state that allows fibril assembly to proceed over several weeks. Under these conditions, fibril formation occurred not only with sol PrP 27–30, but also with native SHaPrP C . Addition of sphingolipids seems to increase fibril growth. When recombinant (rec) SHaPrP(90–231) was exposed to low concentrations of SDS, similar to those used to polymerize sol SHaPrP 27–30 in the presence of 250 mM NaCl, fibril formation occurred regularly. When fibrils formed from PrP 27–30 or PrP C were bioassayed in transgenic mice overexpressing full-length SHaPrP, no infectivity was obtained, whereas amyloid fibrils formed of rec mouse PrP(89–230) were infectious. At present, it cannot be determined whether the lack of infectivity is caused by a difference in the structure of the fibrils or in the bioassay conditions. [ABSTRACT FROM AUTHOR]

Published

2005

13. Evidence for a common regulation in the activation of a polyphenol oxidase by trypsin and sodium dodecyl sulfate.

Author

Gandía-Herrero, Fernando, Jiménez-Atiénzar, Mercedes, Cabanes, Juana, Garcí-Carmona, Francisco, and Escribano, Josefa

Subjects

POLYPHENOL oxidase, OXIDASES, TRYPSIN, DIGESTIVE enzymes, SODIUM

Abstract

Polyphenol oxidase (PPO) was extracted from beet root, in both soluble and membrane fractions, and in both cases the enzyme was in a latent state. PPO from the membrane fraction showed no diphenolase activity unless it was activated by trypsin or sodium dodecyl sulfate (SDS). The kinetics of the activation process of latent PPO by trypsin was studied and the specific rate constant of active PPO formation, k 3 , showed a value of 0.03 s −1 . The protease-activated form showed a pH optimum (6.5) and kinetic properties identical to those of the SDS-activated enzyme. Evidence is provided for the existence of a common peptide responsible for the regulation of the activity of the enzyme by both proteolysis and SDS detergent. Formation of the active proteolyzate was followed by spectroscopic measurements, Western blotting and partially denaturing SDS-PAGE. [ABSTRACT FROM AUTHOR]

Published

2005

14. Dual concentration-dependent activity of thyroglobulin type-1 domain of testican: specific inhibitor and substrate of cathepsin L.

Author

Meh, Primoz, Pavšic, Miha, Turk, Vito, Baici, Antonio, and Lenarcic, Brigita

Subjects

CYSTEINE proteinases, PEPTIDASE, PROTEOLYTIC enzymes, PROTEOLYSIS, PROTEOGLYCANS

Abstract

The thyroglobulin type-1 (Tg-1) domain is a protein module that occurs in a variety of secreted and membrane proteins and is recognised as a potent inhibitor of cysteine peptidases. We present here some properties of the Tg-1 domain of human testican, a modularly organised proteoglycan secreted mainly by brain cells, the exact in vivo function of which is not yet clear. The domain was prepared as a recombinant protein in a Pichia pastoris expression system and its activity was demonstrated by specific and selective inhibition of cathepsin L ( K i =0.14 nM). Interaction at high enzyme and inhibitor concentrations resulted in degradation of the domain by cathepsin L, which was not observed under conditions used for the determination of kinetic parameters. No inhibitory activity could be detected for cathepsin K, but it exhibited a very similar degradation pattern. Homology modelling provided a good explanation for the different behaviour observed with the two enzymes. Firstly, the steric fit between the interfaces of testican domain and cathepsin L is stabilised by numerous favourable forces, while no such interactions are evident in the complex with cathepsin K, and repulsive interactions even prevent access of the domain to the active site of papain. Secondly, the prolonged first loop of the domain occupies a position near the catalytic cysteine residue in a more substrate-like manner, enabling cleavage of the Gly 22 -Ala 23 bond. [ABSTRACT FROM AUTHOR]

Published

2005

15. Highlight: Frontiers in Proteolysis.

Author

Lemieux, M. Joanne, Denault, Jean-Bernard, and Overall, Christopher M.

Subjects

PROTEOLYSIS, DATA analysis, PROTEOLYTIC enzymes

Published

2018

16. 4th General Meeting of the International Proteolysis Society/International Conference on Protease Inhibitors.

Author

Sommerhoff, Christian P., Dunn, Ben M., and Pike, Robert N.

Subjects

EDITORIALS, MEETINGS, PROTEOLYSIS, PROTEOLYTIC enzymes, BIOCHEMISTRY, MOLECULAR biology

Abstract

The editorial introduces the present issue containing presentations made at the 4th General Meeting of the International Proteolysis Society in Quebec. Important topics covered at the meeting included research in basic, applied and life sciences, as well as medicine, with added stress on the structure and function relationships of proteases and their inhibitors and the roles that these molecules play in biology and disease.

Published

2006