Literature DB >> 23198928

Noncompetitive modulation of the proteasome by imidazoline scaffolds overcomes bortezomib resistance and delays MM tumor growth in vivo.

Theresa A Lansdell1, Michelle A Hurchla, Jingyu Xiang, Stacy Hovde, Katherine N Weilbaecher, R William Henry, Jetze J Tepe.   

Abstract

Multiple myeloma (MM) is a malignant disorder of differentiated B-cells for which standard care involves the inhibition of the proteasome. All clinically used proteasome inhibitors, including the chemotherapeutic drug bortezomib, target the catalytic active sites of the proteasome and inhibit protein proteolysis by competing with substrate binding. However, nearly all (~97%) patients become intolerant or resistant to treatments within a few years, after which the average survival time is less than 1 year. We describe herein the inhibition of the human proteasome via a noncompetitive mechanism by the imidazoline scaffold, TCH-13. Consistent with a mechanism distinct from that of competitive inhibitors, TCH-013 acts additively with and overcomes resistance to bortezomib. Importantly, TCH-013 induces apoptosis in a panel of myeloma and leukemia cell lines, but in contrast, normal lymphocytes, primary bone marrow stromal cells (hBMSC), and macrophages are resistant to its cytotoxic effects. TCH-013 was equally effective in blocking MM cell growth in co-cultures of MM cells with hBMSC isolated from CD138 negative bone marrow (BM) samples of MM patients. The cellular activity translated well in vivo where TCH-013 delayed tumor growth in an MM xenograft model to a similar extent as bortezomib.

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Year:  2012        PMID: 23198928      PMCID: PMC3600058          DOI: 10.1021/cb300568r

Source DB:  PubMed          Journal:  ACS Chem Biol        ISSN: 1554-8929            Impact factor:   5.100


  52 in total

1.  Attenuation of collagen-induced arthritis by orally available imidazoline-based NF-κB inhibitors.

Authors:  Theresa A Lansdell; Sandra O'Reilly; Tracey Woolliscroft; Lauren M Azevedo; Daljinder K Kahlon; Stacy Hovde; J Justin McCormick; R William Henry; Joseph A Cornicelli; Jetze J Tepe
Journal:  Bioorg Med Chem Lett       Date:  2012-05-18       Impact factor: 2.823

2.  NF-kappaB, IL-6 and myeloma cell growth: making the connection.

Authors:  Mark Y Chiang; Edward A Stadtmauer
Journal:  Cancer Biol Ther       Date:  2004-10-21       Impact factor: 4.742

Review 3.  Ubiquitin signalling in the NF-kappaB pathway.

Authors:  Zhijian J Chen
Journal:  Nat Cell Biol       Date:  2005-08       Impact factor: 28.824

Review 4.  In search of negative allosteric modulators of biological targets.

Authors:  Duncan R Groebe
Journal:  Drug Discov Today       Date:  2008-11-13       Impact factor: 7.851

5.  New substructure filters for removal of pan assay interference compounds (PAINS) from screening libraries and for their exclusion in bioassays.

Authors:  Jonathan B Baell; Georgina A Holloway
Journal:  J Med Chem       Date:  2010-04-08       Impact factor: 7.446

6.  Impaired bortezomib binding to mutant β5 subunit of the proteasome is the underlying basis for bortezomib resistance in leukemia cells.

Authors:  N E Franke; D Niewerth; Y G Assaraf; J van Meerloo; K Vojtekova; C H van Zantwijk; S Zweegman; E T Chan; C J Kirk; D P Geerke; A D Schimmer; G J L Kaspers; G Jansen; J Cloos
Journal:  Leukemia       Date:  2011-09-23       Impact factor: 11.528

Review 7.  Pathogenesis of myeloma.

Authors:  Kenneth C Anderson; Ruben D Carrasco
Journal:  Annu Rev Pathol       Date:  2011       Impact factor: 23.472

Review 8.  Proteasome structure, function, and lessons learned from beta-lactone inhibitors.

Authors:  Michael Groll; Barbara C Potts
Journal:  Curr Top Med Chem       Date:  2011-12       Impact factor: 3.295

9.  Macrophages are an abundant component of myeloma microenvironment and protect myeloma cells from chemotherapy drug-induced apoptosis.

Authors:  Yuhuan Zheng; Zhen Cai; Siqing Wang; Xiang Zhang; Jianfei Qian; Sungyoul Hong; Haiyan Li; Michael Wang; Jing Yang; Qing Yi
Journal:  Blood       Date:  2009-08-26       Impact factor: 22.113

Review 10.  Proteasome inhibitors in the treatment of multiple myeloma.

Authors:  J J Shah; R Z Orlowski
Journal:  Leukemia       Date:  2009-09-10       Impact factor: 11.528
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  12 in total

1.  Regulation of Autophagic Flux by the 20S Proteasome.

Authors:  Evert Njomen; Jetze J Tepe
Journal:  Cell Chem Biol       Date:  2019-07-18       Impact factor: 8.116

2.  Analysing the effect of I1 imidazoline receptor ligands on DSS-induced acute colitis in mice.

Authors:  Ágnes Fehér; Viktória E Tóth; Mahmoud Al-Khrasani; Mihály Balogh; Bernadette Lázár; Zsuzsanna Helyes; Klára Gyires; Zoltán S Zádori
Journal:  Inflammopharmacology       Date:  2016-11-21       Impact factor: 4.473

3.  Small Molecule 20S Proteasome Enhancer Regulates MYC Protein Stability and Exhibits Antitumor Activity in Multiple Myeloma.

Authors:  Evert Njomen; Allison Vanecek; Theresa A Lansdell; Ya-Ting Yang; Peter Z Schall; Christi M Harris; Matthew P Bernard; Daniel Isaac; Omar Alkharabsheh; Anas Al-Janadi; Matthew B Giletto; Edmund Ellsworth; Catherine Taylor; Terence Tang; Sarah Lau; Marc Bailie; Jamie J Bernard; Vilma Yuzbasiyan-Gurkan; Jetze J Tepe
Journal:  Biomedicines       Date:  2022-04-19

4.  Substituted quinolines as noncovalent proteasome inhibitors.

Authors:  Tanner J McDaniel; Theresa A Lansdell; Amila A Dissanayake; Lauren M Azevedo; Jacob Claes; Aaron L Odom; Jetze J Tepe
Journal:  Bioorg Med Chem       Date:  2016-04-02       Impact factor: 3.641

5.  Small Molecule Modulation of Proteasome Assembly.

Authors:  Evert Njomen; Pawel A Osmulski; Corey L Jones; Maria Gaczynska; Jetze J Tepe
Journal:  Biochemistry       Date:  2018-06-27       Impact factor: 3.162

6.  Inhibition of the human proteasome by imidazoline scaffolds.

Authors:  Lauren M Azevedo; Theresa A Lansdell; Jacob R Ludwig; Robert A Mosey; Daljinder K Woloch; Dillon P Cogan; Gregory P Patten; Michael R Kuszpit; Jason S Fisk; Jetze J Tepe
Journal:  J Med Chem       Date:  2013-07-03       Impact factor: 7.446

7.  Dihydroquinazolines enhance 20S proteasome activity and induce degradation of α-synuclein, an intrinsically disordered protein associated with neurodegeneration.

Authors:  Taylor J Fiolek; Christina L Magyar; Tyler J Wall; Steven B Davies; Molly V Campbell; Christopher J Savich; Jetze J Tepe; R Adam Mosey
Journal:  Bioorg Med Chem Lett       Date:  2021-01-27       Impact factor: 2.823

Review 8.  Small-molecule control of intracellular protein levels through modulation of the ubiquitin proteasome system.

Authors:  Dennis L Buckley; Craig M Crews
Journal:  Angew Chem Int Ed Engl       Date:  2014-01-23       Impact factor: 16.823

9.  Interplay between Structure and Charge as a Key to Allosteric Modulation of Human 20S Proteasome by the Basic Fragment of HIV-1 Tat Protein.

Authors:  Przemysław Karpowicz; Paweł A Osmulski; Julia Witkowska; Emilia Sikorska; Małgorzata Giżyńska; Agnieszka Belczyk-Ciesielska; Maria E Gaczynska; Elżbieta Jankowska
Journal:  PLoS One       Date:  2015-11-17       Impact factor: 3.240

Review 10.  The 26S proteasome is a multifaceted target for anti-cancer therapies.

Authors:  Tatyana A Grigoreva; Vyacheslav G Tribulovich; Alexander V Garabadzhiu; Gerry Melino; Nickolai A Barlev
Journal:  Oncotarget       Date:  2015-09-22
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