Cancer-selective targeting of the NF-kappa B survival pathway with GADD45 beta/MKK7 inhibitors

Tornatore, L; Sandomenico, A; Raimondo, D; Low, C; Rocci, A; Tralau-Stewart, C; Capece, D; D'Andrea, D; Bua, M; Boyle, E; Van Duin, M; Zoppoli, P; Jaxa-Chamiec, A; Thotakura, AK; Dyson, J; Walker, BA; Leonardi, A; Chambery, A; Driessen, C; Sonneveld, P; Morgan, G; Palumbo, A; Tramontano, A; Rahemtulla, A; Ruvo, M; Franzoso, G

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Cancer-selective targeting of the NF-kappa B survival pathway with GADD45 beta/MKK7 inhibitors

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Title:	Cancer-selective targeting of the NF-kappa B survival pathway with GADD45 beta/MKK7 inhibitors
Authors:	Tornatore, L Sandomenico, A Raimondo, D Low, C Rocci, A Tralau-Stewart, C Capece, D D'Andrea, D Bua, M Boyle, E Van Duin, M Zoppoli, P Jaxa-Chamiec, A Thotakura, AK Dyson, J Walker, BA Leonardi, A Chambery, A Driessen, C Sonneveld, P Morgan, G Palumbo, A Tramontano, A Rahemtulla, A Ruvo, M Franzoso, G
Item Type:	Journal Article
Abstract:	Constitutive NF-κB signaling promotes survival in multiple myeloma (MM) and other cancers; however, current NF-κB-targeting strategies lack cancer cell specificity. Here, we identify the interaction between the NF-κB-regulated antiapoptotic factor GADD45β and the JNK kinase MKK7 as a therapeutic target in MM. Using a drug-discovery strategy, we developed DTP3, a D-tripeptide, which disrupts the GADD45β/MKK7 complex, kills MM cells effectively, and, importantly, lacks toxicity to normal cells. DTP3 has similar anticancer potency to the clinical standard, bortezomib, but more than 100-fold higher cancer cell specificity in vitro. Notably, DTP3 ablates myeloma xenografts in mice with no apparent side effects at the effective doses. Hence, cancer-selective targeting of the NF-κB pathway is possible and, at least for myeloma patients, promises a profound benefit.
Issue Date:	13-Oct-2014
Date of Acceptance:	29-Jul-2014
URI:	http://hdl.handle.net/10044/1/18178
DOI:	10.1016/j.ccr.2014.07.027
ISSN:	1535-6108
Publisher:	Cell Press
Start Page:	495
End Page:	508
Journal / Book Title:	Cancer Cell
Volume:	26
Issue:	4
Copyright Statement:	© The Authors. This article is available under the terms of the Creative Commons Attribution License (CC BY). You may distribute and copy the article, create extracts, abstracts, and other revised versions, adaptations or derivative works of or from an article (such as a translation), to include in a collective work (such as an anthology), to text or data mine the article, including for commercial purposes without permission from Elsevier. The original work must always be appropriately credited.
Sponsor/Funder:	Medical Research Council (MRC) Medical Research Council (MRC) Cancer Research UK
Funder's Grant Number:	MR/L005069/1 G0901436 15115
Keywords:	Science & Technology Life Sciences & Biomedicine Oncology Cell Biology MULTIPLE-MYELOMA PROTEASOME INHIBITOR SIGNALING PATHWAY EXPRESSION BORTEZOMIB KINASE CELLS INFLAMMATION ACTIVATION MKK7/JNKK2 Antineoplastic Agents Biological Availability Cell Cycle Proteins Humans MAP Kinase Kinase 7 Multiple Myeloma NF-kappa B Nuclear Proteins Humans Multiple Myeloma MAP Kinase Kinase 7 Cell Cycle Proteins NF-kappa B Nuclear Proteins Antineoplastic Agents Biological Availability Science & Technology Life Sciences & Biomedicine Oncology Cell Biology MULTIPLE-MYELOMA PROTEASOME INHIBITOR SIGNALING PATHWAY EXPRESSION BORTEZOMIB KINASE CELLS INFLAMMATION ACTIVATION MKK7/JNKK2 Oncology & Carcinogenesis 1109 Neurosciences 1112 Oncology and Carcinogenesis
Publication Status:	Published
Online Publication Date:	2014-10-13
Appears in Collections:	Department of Immunology and Inflammation Faculty of Medicine

This item is licensed under a Creative Commons License