Literature DB >> 23123942

The spliceosome as a target of novel antitumour drugs.

Sophie Bonnal1, Luisa Vigevani, Juan Valcárcel.   

Abstract

Several bacterial fermentation products and their synthetic derivatives display antitumour activities and bind tightly to components of the spliceosome, which is the complex molecular machinery involved in the removal of introns from mRNA precursors in eukaryotic cells. The drugs alter gene expression, including alternative splicing, of genes that are important for cancer progression. A flurry of recent reports has revealed that genes encoding splicing factors, including the drug target splicing factor 3B subunit 1 (SF3B1), are among the most highly mutated in various haematological malignancies such as chronic lymphocytic leukaemia and myelodysplastic syndromes. These observations highlight the role of splicing factors in cancer and suggest that an understanding of the molecular effects of drugs targeting these proteins could open new perspectives for studies of the spliceosome and its role in cancer progression, and for the development of novel antitumour therapies.

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Year:  2012        PMID: 23123942     DOI: 10.1038/nrd3823

Source DB:  PubMed          Journal:  Nat Rev Drug Discov        ISSN: 1474-1776            Impact factor:   84.694


  117 in total

1.  Long-term haematological improvement after non-intensive or no chemotherapy in juvenile myelomonocytic leukaemia and poor correlation with adult myelodysplasia spliceosome-related mutations.

Authors:  Kazuyuki Matsuda; Nao Yoshida; Shuhei Miura; Yozo Nakazawa; Kazuo Sakashita; Nobuyuki Hyakuna; Masahiro Saito; Fumiyo Kato; Atsushi Ogawa; Akihiro Watanabe; Manabu Sotomatsu; Chie Kobayashi; Toshiro Ito; Fumihiro Ishida; Atsushi Manabe; Seiji Kojima; Kenichi Koike
Journal:  Br J Haematol       Date:  2012-02-20       Impact factor: 6.998

2.  Mammalian polycomb-mediated repression of Hox genes requires the essential spliceosomal protein Sf3b1.

Authors:  Kyoichi Isono; Yoko Mizutani-Koseki; Toshihisa Komori; Marion S Schmidt-Zachmann; Haruhiko Koseki
Journal:  Genes Dev       Date:  2005-03-01       Impact factor: 11.361

3.  Widespread recognition of 5' splice sites by noncanonical base-pairing to U1 snRNA involving bulged nucleotides.

Authors:  Xavier Roca; Martin Akerman; Hans Gaus; Andrés Berdeja; C Frank Bennett; Adrian R Krainer
Journal:  Genes Dev       Date:  2012-05-15       Impact factor: 11.361

Review 4.  Coupling transcription and alternative splicing.

Authors:  Alberto R Kornblihtt
Journal:  Adv Exp Med Biol       Date:  2007       Impact factor: 2.622

5.  Spliceosome mutations in hematopoietic malignancies.

Authors:  Christopher N Hahn; Hamish S Scott
Journal:  Nat Genet       Date:  2011-12-27       Impact factor: 38.330

Review 6.  Heterogeneity in mammalian RNA 3' end formation.

Authors:  Joel R Neilson; Rickard Sandberg
Journal:  Exp Cell Res       Date:  2010-03-06       Impact factor: 3.905

7.  Utilization of host SR protein kinases and RNA-splicing machinery during viral replication.

Authors:  Takeshi Fukuhara; Takamitsu Hosoya; Saki Shimizu; Kengo Sumi; Takako Oshiro; Yoshiyuki Yoshinaka; Masaaki Suzuki; Naoki Yamamoto; Leonore A Herzenberg; Leonard A Herzenberg; Masatoshi Hagiwara
Journal:  Proc Natl Acad Sci U S A       Date:  2006-07-13       Impact factor: 11.205

8.  A comprehensive catalogue of somatic mutations from a human cancer genome.

Authors:  Erin D Pleasance; R Keira Cheetham; Philip J Stephens; David J McBride; Sean J Humphray; Chris D Greenman; Ignacio Varela; Meng-Lay Lin; Gonzalo R Ordóñez; Graham R Bignell; Kai Ye; Julie Alipaz; Markus J Bauer; David Beare; Adam Butler; Richard J Carter; Lina Chen; Anthony J Cox; Sarah Edkins; Paula I Kokko-Gonzales; Niall A Gormley; Russell J Grocock; Christian D Haudenschild; Matthew M Hims; Terena James; Mingming Jia; Zoya Kingsbury; Catherine Leroy; John Marshall; Andrew Menzies; Laura J Mudie; Zemin Ning; Tom Royce; Ole B Schulz-Trieglaff; Anastassia Spiridou; Lucy A Stebbings; Lukasz Szajkowski; Jon Teague; David Williamson; Lynda Chin; Mark T Ross; Peter J Campbell; David R Bentley; P Andrew Futreal; Michael R Stratton
Journal:  Nature       Date:  2009-12-16       Impact factor: 49.962

9.  Pladienolides, new substances from culture of Streptomyces platensis Mer-11107. III. In vitro and in vivo antitumor activities.

Authors:  Yoshiharu Mizui; Takashi Sakai; Masao Iwata; Toshimitsu Uenaka; Kiyoshi Okamoto; Hajime Shimizu; Takao Yamori; Kentaro Yoshimatsu; Makoto Asada
Journal:  J Antibiot (Tokyo)       Date:  2004-03       Impact factor: 2.649

10.  The zebrafish sf3b1b460 mutant reveals differential requirements for the sf3b1 pre-mRNA processing gene during neural crest development.

Authors:  Min An; Paul D Henion
Journal:  Int J Dev Biol       Date:  2012       Impact factor: 2.203
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  197 in total

Review 1.  The pathogenicity of splicing defects: mechanistic insights into pre-mRNA processing inform novel therapeutic approaches.

Authors:  Elisabeth Daguenet; Gwendal Dujardin; Juan Valcárcel
Journal:  EMBO Rep       Date:  2015-11-13       Impact factor: 8.807

2.  RQN-18690A (18-deoxyherboxidiene) targets SF3b, a spliceosome component, and inhibits angiogenesis.

Authors:  Hideaki Kakeya; Daisuke Kaida; Hiromi Sekiya; Koji Nagai; Minoru Yoshida; Hiroyuki Osada
Journal:  J Antibiot (Tokyo)       Date:  2015-09-09       Impact factor: 2.649

3.  Design and Synthesis of 1,2-Deoxy-pyranose Derivatives of Spliceostatin A toward Prostate Cancer Treatment.

Authors:  Yusuke Yoshikawa; Airi Ishibashi; Tsunayoshi Takehara; Takeyuki Suzuki; Kenichi Murai; Yasufumi Kaneda; Keisuke Nimura; Mitsuhiro Arisawa
Journal:  ACS Med Chem Lett       Date:  2020-05-01       Impact factor: 4.345

4.  A serine-arginine-rich (SR) splicing factor modulates alternative splicing of over a thousand genes in Toxoplasma gondii.

Authors:  Lee M Yeoh; Christopher D Goodman; Nathan E Hall; Giel G van Dooren; Geoffrey I McFadden; Stuart A Ralph
Journal:  Nucleic Acids Res       Date:  2015-04-13       Impact factor: 16.971

5.  SF3B1 mutations are infrequently found in non-myelodysplastic bone marrow failure syndromes and mast cell diseases but, if present, are associated with the ring sideroblast phenotype.

Authors:  Valeria Visconte; Ali Tabarroki; Heesun J Rogers; Edy Hasrouni; Fabiola Traina; Hideki Makishima; Betty K Hamilton; Yang Liu; Christine O'Keefe; Alan Lichtin; Leonard Horwitz; Mikkael A Sekeres; Fred H Hsieh; Ramon V Tiu
Journal:  Haematologica       Date:  2013-07-05       Impact factor: 9.941

Review 6.  Chromatin's thread to alternative splicing regulation.

Authors:  Camilla Iannone; Juan Valcárcel
Journal:  Chromosoma       Date:  2013-08-03       Impact factor: 4.316

7.  Optimization of antitumor modulators of pre-mRNA splicing.

Authors:  Chandraiah Lagisetti; Gustavo Palacios; Tinopiwa Goronga; Burgess Freeman; William Caufield; Thomas R Webb
Journal:  J Med Chem       Date:  2013-12-11       Impact factor: 7.446

8.  VGX-1027 modulates genes involved in lipopolysaccharide-induced Toll-like receptor 4 activation and in a murine model of systemic lupus erythematosus.

Authors:  Paolo Fagone; Karuppiah Muthumani; Katia Mangano; Gaetano Magro; Pier Luigi Meroni; Joseph J Kim; Niranjan Y Sardesai; David B Weiner; Ferdinando Nicoletti
Journal:  Immunology       Date:  2014-08       Impact factor: 7.397

9.  RNA Splicing Modulation Selectively Impairs Leukemia Stem Cell Maintenance in Secondary Human AML.

Authors:  Leslie A Crews; Larisa Balaian; Nathaniel P Delos Santos; Heather S Leu; Angela C Court; Elisa Lazzari; Anil Sadarangani; Maria A Zipeto; James J La Clair; Reymundo Villa; Anna Kulidjian; Rainer Storb; Sheldon R Morris; Edward D Ball; Michael D Burkart; Catriona H M Jamieson
Journal:  Cell Stem Cell       Date:  2016-08-25       Impact factor: 24.633

10.  Spliceostatin hemiketal biosynthesis in Burkholderia spp. is catalyzed by an iron/α-ketoglutarate-dependent dioxygenase.

Authors:  Alessandra S Eustáquio; Jeffrey E Janso; Anokha S Ratnayake; Christopher J O'Donnell; Frank E Koehn
Journal:  Proc Natl Acad Sci U S A       Date:  2014-08-05       Impact factor: 11.205
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