Applications of Unnatural Amino Acids in Protease Probes

被引：17

作者：

Maluch, Izabela ^{[1
]}

Czarna, Justyna ^{[1
]}

Drag, Marcin ^{[1
]}

机构：

[1] Wroclaw Univ Sci & Technol, Fac Chem, Dept Bioorgan Chem, Wyb Wyspianskiego 27, PL-50370 Wroclaw, Poland

来源：

CHEMISTRY-AN ASIAN JOURNAL | 2019年 / 14卷 / 23期

关键词：

activity-based probes; amino acids; bioimaging of proteases; enzymes; unnatural amino acids; SUBSTRATE-SPECIFICITY; COMBINATORIAL APPROACH; ACTIVE-SITE; DESIGN; INHIBITORS; LIBRARIES; PEPTIDE; AMINOPEPTIDASES; IDENTIFICATION; STROMELYSIN-3;

D O I：

10.1002/asia.201901152

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

Since proteases are involved in a wide range of physiological and disease states, the development of novel tools for imaging proteolytic enzyme activity is attracting increasing interest from scientists. Peptide substrates containing proteinogenic amino acids are often the first line of defining enzyme specificity. This Minireview outlines examples of major recent advances in probing proteases using unnatural amino acid residues, which greatly expands the possibilities for designing substrate probes and inhibitory activity-based probes. This approach already yielded innovative probes that selectively target only one active protease within the group of enzymes exhibiting similar specificity both in cellular assays and in bioimaging research.

引用

页码：4103 / 4113

页数：11

共 70 条

[1] An internally quenched peptide as a new model substrate for rhomboid intramembrane proteases
Arutyunova, Elena
Jiang, Zhenze
Yang, Jian
Kulepa, Ayodeji N.
Young, Howard S.
Verhelst, Steven
O'Donoghue, Anthony J.
Lemieux, M. Joanne
[J]. BIOLOGICAL CHEMISTRY, 2018, 399 (12) : 1389 - 1397
[2] Commonly used caspase inhibitors designed based on substrate specificity profiles lack selectivity
Berger, Alicia B.
Sexton, Kelly B.
Bogyo, Matthew
[J]. CELL RESEARCH, 2006, 16 (12) : 961 - 963
[3] Identification of early intermediates of caspase activation using selective inhibitors and activity-based probes
Berger, Alicia B.
Witte, Martin D.
Denault, Jean-Bernard
Sadaghiani, Amir Masoud
Sexton, Kelly M. B.
Salvesen, Guy S.
Bogyo, Matthew
[J]. MOLECULAR CELL, 2006, 23 (04) : 509 - 521
[4] Dynamic imaging of protease activity with fluorescently quenched activity-based probes
Blum, G
Mullins, SR
Keren, K
Fonovic, M
Jedeszko, C
Rice, MJ
Sloane, BF
Bogyo, M
[J]. NATURE CHEMICAL BIOLOGY, 2005, 1 (04) : 203 - 209
[5] Proteases: History, discovery, and roles in health and disease
Bond, Judith S.
[J]. JOURNAL OF BIOLOGICAL CHEMISTRY, 2019, 294 (05) : 1643 - 1651
[6] Synthesis and in Vitro and in Vivo Evaluation of MMP-12 Selective Optical Probes
Bordenave, Thomas
Helle, Marion
Beau, Fabrice
Georgiadis, Dimitris
Tepshi, Livia
Bernes, Mylene
Ye, Yunpeng
Levenez, Laure
Poquet, Enora
Nozach, Herve
Razavian, Mahmoud
Toczek, Jakub
Stura, Enrico A.
Dive, Vincent
SadeghiP, Mehran M.
Devel, Laurent
[J]. BIOCONJUGATE CHEMISTRY, 2016, 27 (10) : 2407 - 2417
[7] A remarkable activity of human leukotriene A4 hydrolase (LTA4H) toward unnatural amino acids
Byzia, Anna
Haeggstroem, Jesper Z.
Salvesen, Guy S.
Drag, Marcin
[J]. AMINO ACIDS, 2014, 46 (05) : 1313 - 1320
[8] Recent Advances in Nanocellulose Composites with Polymers: A Guide for Choosing Partners and How to Incorporate Them
Chakrabarty, Arindam
Teramoto, Yoshikuni
[J]. POLYMERS, 2018, 10 (05):
[9] Recent Advances in Activity-Based Protein Profiling of Proteases
Chakrabarty, Suravi
Kahler, Jan Pascal
van de Plassche, Merel A. T.
Vanhoutte, Roeland
Verhelst, Steven H. L.
[J]. ACTIVITY-BASED PROTEIN PROFILING, 2019, 420 : 253 - 281
[10] Development of an advanced nanoformulation for the intracellular delivery of a caspase-3 selective activity-based probe
Cogo, Francesco
Poreba, Marcin
Rut, Wioletta
Groborz, Katarzyna
Smyth, Peter
Johnston, Michael C.
Williams, Richard
Longley, Daniel B.
Burden, Roberta E.
Salvesen, Guy S.
Drag, Marcin
Scott, Christopher J.
[J]. NANOSCALE, 2019, 11 (02) : 742 - 751

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