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Literature DB >> 28733033

Discovery of small molecule inhibitors for the C. elegans caspase CED-3 by high-throughput screening.

Scott J Brantley¹, Steven W Cotten¹, David R Lamson², Ginger R Smith², Rihe Liu³, Kevin P Williams⁴.

Abstract

C. elegans has been widely used as a model organism for programmed cell death and apoptosis. Although the CED-3 caspase is the primary effector of cell death in C. elegans, no selective inhibitors have been identified. Utilizing high-throughput screening with recombinant C. elegans CED-3 protein, we have discovered and confirmed 21 novel small molecule inhibitors. Six compounds had IC50 values < 10 μM. From these, four distinct chemotypes were identified. The inhibitor scaffolds described here could lead to the development of selective molecular probes to facilitate our understanding of programmed cell death in this model organism.

Entities: CellLine Chemical Disease Gene Species

Keywords: Apoptosis; C. elegans; CED-3; Caspase; High-throughput screening; Small molecule inhibitor

Mesh：

Substances：

Year: 2017 PMID： 28733033 PMCID： PMC5590106 DOI： 10.1016/j.bbrc.2017.07.100

Source DB: PubMed Journal: Biochem Biophys Res Commun ISSN： 0006-291X Impact factor: 3.575

35 in total

Review 1. Molecular mechanisms of caspase regulation during apoptosis.

Authors: Stefan J Riedl; Yigong Shi
Journal: Nat Rev Mol Cell Biol Date: 2004-11 Impact factor: 94.444

Review 2. Advancing Biological Understanding and Therapeutics Discovery with Small-Molecule Probes.

Authors: Stuart L Schreiber; Joanne D Kotz; Min Li; Jeffrey Aubé; Christopher P Austin; John C Reed; Hugh Rosen; E Lucile White; Larry A Sklar; Craig W Lindsley; Benjamin R Alexander; Joshua A Bittker; Paul A Clemons; Andrea de Souza; Michael A Foley; Michelle Palmer; Alykhan F Shamji; Mathias J Wawer; Owen McManus; Meng Wu; Beiyan Zou; Haibo Yu; Jennifer E Golden; Frank J Schoenen; Anton Simeonov; Ajit Jadhav; Michael R Jackson; Anthony B Pinkerton; Thomas D Y Chung; Patrick R Griffin; Benjamin F Cravatt; Peter S Hodder; William R Roush; Edward Roberts; Dong-Hoon Chung; Colleen B Jonsson; James W Noah; William E Severson; Subramaniam Ananthan; Bruce Edwards; Tudor I Oprea; P Jeffrey Conn; Corey R Hopkins; Michael R Wood; Shaun R Stauffer; Kyle A Emmitte
Journal: Cell Date: 2015-06-04 Impact factor: 41.582

Discovery of small molecule inhibitors for the C. elegans caspase CED-3 by high-throughput screening.

Review 1. Molecular mechanisms of caspase regulation during apoptosis.

Review 2. Advancing Biological Understanding and Therapeutics Discovery with Small-Molecule Probes.

3. Fluorescent molecular probes V: a sensitive caspase-3 substrate for fluorometric assays.

4. A class of benzenoid chemicals suppresses apoptosis in C. elegans.

5. The history of Z-VAD-FMK, a tool for understanding the significance of caspase inhibition.

6. The nongenotoxic carcinogens naphthalene and para-dichlorobenzene suppress apoptosis in Caenorhabditis elegans.

7. Regulation of CED-3 caspase localization and activation by C. elegans nuclear-membrane protein NPP-14.

Review 8. Small molecules as pro-apoptotic anticancer agents.

9. Basics and recent advances in peptide and protein drug delivery.

10. The C. elegans cell death gene ced-3 encodes a protein similar to mammalian interleukin-1 beta-converting enzyme.

1. Lipopolysaccharide exposure induces oxidative damage in Caenorhabditis elegans: protective effects of carnosine.