Literature DB >> 19359491

Synthetic and structural studies on syringolin A and B reveal critical determinants of selectivity and potency of proteasome inhibition.

Jérôme Clerc1, Michael Groll, Damir J Illich, André S Bachmann, Robert Huber, Barbara Schellenberg, Robert Dudler, Markus Kaiser.   

Abstract

Syrbactins, a family of natural products belonging either to the syringolin or glidobactin class, are highly potent proteasome inhibitors. Although sharing similar structural features, they differ in their macrocyclic lactam core structure and exocyclic side chain. These structural variations critically influence inhibitory potency and proteasome subsite selectivity. Here, we describe the total synthesis of syringolin A and B, which together with enzyme kinetic and structural studies, allowed us to elucidate the structural determinants underlying the proteasomal subsite selectivity and binding affinity of syrbactins. These findings were used successfully in the rational design and synthesis of a syringolin A-based lipophilic derivative, which proved to be the most potent syrbactin-based proteasome inhibitor described so far. With a K(i)' of 8.65 +/- 1.13 nM for the chymotryptic activity, this syringolin A derivative displays a 100-fold higher potency than the parent compound syringolin A. In light of the medicinal relevance of proteasome inhibitors as anticancer compounds, the present findings may assist in the rational design and development of syrbactin-based chemotherapeutics.

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Year:  2009        PMID: 19359491      PMCID: PMC2672505          DOI: 10.1073/pnas.0901982106

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  28 in total

Review 1.  Macrocyclization by ring-closing metathesis in the total synthesis of natural products: reaction conditions and limitations.

Authors:  Ana Gradillas; Javier Pérez-Castells
Journal:  Angew Chem Int Ed Engl       Date:  2006-09-18       Impact factor: 15.336

Review 2.  Adaptive modification and flexibility of the proteasome system in response to proteasome inhibition.

Authors:  Cord Naujokat; Dominik Fuchs; Carsten Berges
Journal:  Biochim Biophys Acta       Date:  2007-05-25

3.  Mixing of peptides and electrophilic traps gives rise to potent, broad-spectrum proteasome inhibitors.

Authors:  Martijn Verdoes; Bogdan I Florea; Wouter A van der Linden; Didier Renou; Adrianus M C H van den Nieuwendijk; Gijs A van der Marel; Herman S Overkleeft
Journal:  Org Biomol Chem       Date:  2007-03-23       Impact factor: 3.876

4.  Proteasome inhibition by fellutamide B induces nerve growth factor synthesis.

Authors:  John Hines; Michael Groll; Margaret Fahnestock; Craig M Crews
Journal:  Chem Biol       Date:  2008-05

Review 5.  The proteasome and proteasome inhibitors in cancer therapy.

Authors:  Peter M Voorhees; Robert Z Orlowski
Journal:  Annu Rev Pharmacol Toxicol       Date:  2006       Impact factor: 13.820

6.  Argyrin a reveals a critical role for the tumor suppressor protein p27(kip1) in mediating antitumor activities in response to proteasome inhibition.

Authors:  Irina Nickeleit; Steffen Zender; Florenz Sasse; Robert Geffers; Gudrun Brandes; Inga Sörensen; Heinrich Steinmetz; Stefan Kubicka; Teresa Carlomagno; Dirk Menche; Ines Gütgemann; Jan Buer; Achim Gossler; Michael P Manns; Markus Kalesse; Ronald Frank; Nisar P Malek
Journal:  Cancer Cell       Date:  2008-07-08       Impact factor: 31.743

7.  A plant pathogen virulence factor inhibits the eukaryotic proteasome by a novel mechanism.

Authors:  Michael Groll; Barbara Schellenberg; André S Bachmann; Crystal R Archer; Robert Huber; Tracy K Powell; Steven Lindow; Markus Kaiser; Robert Dudler
Journal:  Nature       Date:  2008-04-10       Impact factor: 49.962

Review 8.  The potential of proteasome inhibitors in cancer therapy.

Authors:  Jan Sterz; Ivana von Metzler; Jens-Claus Hahne; Britta Lamottke; Jessica Rademacher; Ulrike Heider; Evangelos Terpos; Orhan Sezer
Journal:  Expert Opin Investig Drugs       Date:  2008-06       Impact factor: 6.206

9.  Identification of genes involved in the biosynthesis of the cytotoxic compound glidobactin from a soil bacterium.

Authors:  Barbara Schellenberg; Laurent Bigler; Robert Dudler
Journal:  Environ Microbiol       Date:  2007-07       Impact factor: 5.491

Review 10.  Advances in and applications of proteasome inhibitors.

Authors:  Bradley S Moore; Alessandra S Eustáquio; Ryan P McGlinchey
Journal:  Curr Opin Chem Biol       Date:  2008-07-24       Impact factor: 8.822
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  27 in total

1.  N-acylation during glidobactin biosynthesis by the tridomain nonribosomal peptide synthetase module GlbF.

Authors:  Heidi J Imker; Daniel Krahn; Jérôme Clerc; Markus Kaiser; Christopher T Walsh
Journal:  Chem Biol       Date:  2010-10-29

2.  Enzymatic timing and tailoring of macrolactamization in syringolin biosynthesis.

Authors:  William M Wuest; Daniel Krahn; Markus Kaiser; Christopher T Walsh
Journal:  Org Lett       Date:  2011-08-03       Impact factor: 6.005

3.  Proteasome activity imaging and profiling characterizes bacterial effector syringolin A.

Authors:  Izabella Kolodziejek; Johana C Misas-Villamil; Farnusch Kaschani; Jérôme Clerc; Christian Gu; Daniel Krahn; Sherry Niessen; Martijn Verdoes; Lianne I Willems; Hermen S Overkleeft; Markus Kaiser; Renier A L van der Hoorn
Journal:  Plant Physiol       Date:  2010-11-02       Impact factor: 8.340

4.  Syrbactin Structural Analog TIR-199 Blocks Proteasome Activity and Induces Tumor Cell Death.

Authors:  André S Bachmann; John Opoku-Ansah; Tannya R Ibarra-Rivera; Lisette P Yco; Sudhakar Ambadi; Christopher C Roberts; Chia-En A Chang; Michael C Pirrung
Journal:  J Biol Chem       Date:  2016-02-23       Impact factor: 5.157

5.  Structural requirements for the antiproliferative activity of pre-mRNA splicing inhibitor FR901464.

Authors:  Sami Osman; Brian J Albert; Yanping Wang; Miaosheng Li; Nancy L Czaicki; Kazunori Koide
Journal:  Chemistry       Date:  2010-11-19       Impact factor: 5.236

6.  Rational Design of Selective and Bioactive Inhibitors of the Mycobacterium tuberculosis Proteasome.

Authors:  Kyle A Totaro; Dominik Barthelme; Peter T Simpson; Xiuju Jiang; Gang Lin; Carl F Nathan; Robert T Sauer; Jason K Sello
Journal:  ACS Infect Dis       Date:  2016-12-05       Impact factor: 5.084

7.  Substrate-guided optimization of the syringolins yields potent proteasome inhibitors with activity against leukemia cell lines.

Authors:  Kyle A Totaro; Dominik Barthelme; Peter T Simpson; Robert T Sauer; Jason K Sello
Journal:  Bioorg Med Chem       Date:  2015-07-26       Impact factor: 3.641

8.  Syrbactin proteasome inhibitor TIR-199 overcomes bortezomib chemoresistance and inhibits multiple myeloma tumor growth in vivo.

Authors:  Marquicia R Pierce; Reeder M Robinson; Tannya R Ibarra-Rivera; Michael C Pirrung; Nathan G Dolloff; André S Bachmann
Journal:  Leuk Res       Date:  2019-11-12       Impact factor: 3.156

9.  SylC catalyzes ureido-bond formation during biosynthesis of the proteasome inhibitor syringolin A.

Authors:  Heidi J Imker; Christopher T Walsh; William M Wuest
Journal:  J Am Chem Soc       Date:  2009-12-30       Impact factor: 15.419

10.  Biosynthesis of the proteasome inhibitor syringolin A: the ureido group joining two amino acids originates from bicarbonate.

Authors:  Christina Ramel; Micha Tobler; Martin Meyer; Laurent Bigler; Marc-Olivier Ebert; Barbara Schellenberg; Robert Dudler
Journal:  BMC Biochem       Date:  2009-10-28       Impact factor: 4.059
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