Literature DB >> 12427969

Multiple subnuclear targeting signals of the leukemia-related AML1/ETO and ETO repressor proteins.

Karina Barseguian1, Bart Lutterbach, Scott W Hiebert, Jeffrey Nickerson, Jane B Lian, Janet L Stein, Andre J van Wijnen, Gary S Stein.   

Abstract

Leukemic disease can be linked to aberrant gene expression. This often is the result of molecular alterations in transcription factors that lead to their misrouting within the nucleus. The acute myelogenous leukemia-related fusion protein AML1ETO is a striking example. It originates from a gene rearrangement t(8;21) that fuses the N-terminal part of the key hematopoietic regulatory factor AML1 (RUNX1) to the ETO (MTG8) repressor protein. AML1ETO lacks the intranuclear targeting signal of the wild-type AML1 and is directed by the ETO component to alternate nuclear matrix-associated sites. To understand this aberrant subnuclear trafficking of AML1ETO, we created a series of mutations in the ETO protein. These were characterized biochemically by immunoblotting and in situ by immunofluorescence microscopy. We identified two independent subnuclear targeting signals in the N- and C-terminal regions of ETO that together direct ETO to the same binding sites occupied by AML1ETO. However, each segment alone is targeted to a different intranuclear location. The N-terminal segment contains a nuclear localization signal and the conserved hydrophobic heptad repeat domain responsible for protein dimerization and interaction with the mSin3A transcriptional repressor. The C-terminal segment spans the nervy domain and the zinc finger region, which together support interactions with the corepressors N-CoR and HDACs. Our findings provide a molecular basis for aberrant subnuclear targeting of the AML1ETO protein, which is a principal defect in t(8;21)-related acute myelogenous leukemia.

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Year:  2002        PMID: 12427969      PMCID: PMC137734          DOI: 10.1073/pnas.242588499

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


  44 in total

1.  t(8;21) breakpoints on chromosome 21 in acute myeloid leukemia are clustered within a limited region of a single gene, AML1.

Authors:  H Miyoshi; K Shimizu; T Kozu; N Maseki; Y Kaneko; M Ohki
Journal:  Proc Natl Acad Sci U S A       Date:  1991-12-01       Impact factor: 11.205

2.  Analysis of the role of AML1-ETO in leukemogenesis, using an inducible transgenic mouse model.

Authors:  K L Rhoades; C J Hetherington; N Harakawa; D A Yergeau; L Zhou; L Q Liu; M T Little; D G Tenen; D E Zhang
Journal:  Blood       Date:  2000-09-15       Impact factor: 22.113

3.  ETO, a target of t(8;21) in acute leukemia, makes distinct contacts with multiple histone deacetylases and binds mSin3A through its oligomerization domain.

Authors:  J M Amann; J Nip; D K Strom; B Lutterbach; H Harada; N Lenny; J R Downing; S Meyers; S W Hiebert
Journal:  Mol Cell Biol       Date:  2001-10       Impact factor: 4.272

4.  The t(8;21) fusion protein interferes with AML-1B-dependent transcriptional activation.

Authors:  S Meyers; N Lenny; S W Hiebert
Journal:  Mol Cell Biol       Date:  1995-04       Impact factor: 4.272

5.  The ETO portion of acute myeloid leukemia t(8;21) fusion transcript encodes a highly evolutionarily conserved, putative transcription factor.

Authors:  P F Erickson; M Robinson; G Owens; H A Drabkin
Journal:  Cancer Res       Date:  1994-04-01       Impact factor: 12.701

6.  DEAF-1, a novel protein that binds an essential region in a Deformed response element.

Authors:  C T Gross; W McGinnis
Journal:  EMBO J       Date:  1996-04-15       Impact factor: 11.598

7.  A specific targeting signal directs Runx2/Cbfa1 to subnuclear domains and contributes to transactivation of the osteocalcin gene.

Authors:  S K Zaidi; A Javed; J Y Choi; A J van Wijnen; J L Stein; J B Lian; G S Stein
Journal:  J Cell Sci       Date:  2001-09       Impact factor: 5.285

8.  The t(8;21) translocation in acute myeloid leukemia results in production of an AML1-MTG8 fusion transcript.

Authors:  H Miyoshi; T Kozu; K Shimizu; K Enomoto; N Maseki; Y Kaneko; N Kamada; M Ohki
Journal:  EMBO J       Date:  1993-07       Impact factor: 11.598

9.  Partial colocalization of glucocorticoid and mineralocorticoid receptors in discrete compartments in nuclei of rat hippocampus neurons.

Authors:  B van Steensel; E P van Binnendijk; C D Hornsby; H T van der Voort; Z S Krozowski; E R de Kloet; R van Driel
Journal:  J Cell Sci       Date:  1996-04       Impact factor: 5.285

10.  The nonchromatin substructures of the nucleus: the ribonucleoprotein (RNP)-containing and RNP-depleted matrices analyzed by sequential fractionation and resinless section electron microscopy.

Authors:  E G Fey; G Krochmalnic; S Penman
Journal:  J Cell Biol       Date:  1986-05       Impact factor: 10.539
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  25 in total

Review 1.  The dynamic organization of gene-regulatory machinery in nuclear microenvironments.

Authors:  Sayyed K Zaidi; Daniel W Young; Je-Yong Choi; Jitesh Pratap; Amjad Javed; Martin Montecino; Janet L Stein; Andre J van Wijnen; Jane B Lian; Gary S Stein
Journal:  EMBO Rep       Date:  2005-02       Impact factor: 8.807

Review 2.  Organization of transcriptional regulatory machinery in nuclear microenvironments: implications for biological control and cancer.

Authors:  Gary S Stein; Jane B Lian; Andre J van Wijnen; Janet L Stein; Amjad Javed; Martin Montecino; Je-Yong Choi; Diana Vradii; Sayyed K Zaidi; Jitesh Pratap; Daniel Young
Journal:  Adv Enzyme Regul       Date:  2007-03-23

3.  Identification of a common subnuclear localization signal.

Authors:  Karim Mekhail; Luis Rivero-Lopez; Ahmad Al-Masri; Caroline Brandon; Mireille Khacho; Stephen Lee
Journal:  Mol Biol Cell       Date:  2007-07-25       Impact factor: 4.138

Review 4.  Nuclear microenvironments support physiological control of gene expression.

Authors:  Gary S Stein; Jane B Lian; Martin Montecino; Janet L Stein; André J van Wijnen; Amjad Javed; Jitesh Pratap; Je Choi; S Kaleem Zaidi; Soraya Gutierrez; Kimberly Harrington; Jiali Shen; Daniel Young; Shirwin Pockwinse
Journal:  Chromosome Res       Date:  2003       Impact factor: 5.239

5.  Towards understanding the epigenetics of transcription by chromatin structure and the nuclear matrix.

Authors:  Rui Pires Martins; Stephen A Krawetz
Journal:  Gene Ther Mol Biol       Date:  2005

6.  The ubiquitin ligase STUB1 regulates stability and activity of RUNX1 and RUNX1-RUNX1T1.

Authors:  Taishi Yonezawa; Hirotaka Takahashi; Shiori Shikata; Xiaoxiao Liu; Moe Tamura; Shuhei Asada; Tsuyoshi Fukushima; Tomofusa Fukuyama; Yosuke Tanaka; Tatsuya Sawasaki; Toshio Kitamura; Susumu Goyama
Journal:  J Biol Chem       Date:  2017-05-23       Impact factor: 5.157

Review 7.  Role of RUNX1 in hematological malignancies.

Authors:  Raman Sood; Yasuhiko Kamikubo; Paul Liu
Journal:  Blood       Date:  2017-02-08       Impact factor: 22.113

Review 8.  Transcription-factor-mediated epigenetic control of cell fate and lineage commitment.

Authors:  Gary S Stein; Sayyed K Zaidi; Janet L Stein; Jane B Lian; Andre J van Wijnen; Martin Montecino; Daniel W Young; Amjad Javed; Jitesh Pratap; Je-Yong Choi; Syed A Ali; Sandhya Pande; Mohammad Q Hassan
Journal:  Biochem Cell Biol       Date:  2009-02       Impact factor: 3.626

Review 9.  Nuclear organization mediates cancer-compromised genetic and epigenetic control.

Authors:  Sayyed K Zaidi; Andrew J Fritz; Kirsten M Tracy; Jonathan A Gordon; Coralee E Tye; Joseph Boyd; Andre J Van Wijnen; Jeffrey A Nickerson; Antony N Imbalzano; Jane B Lian; Janet L Stein; Gary S Stein
Journal:  Adv Biol Regul       Date:  2018-05-09

Review 10.  Genetic and epigenetic regulation in nuclear microenvironments for biological control in cancer.

Authors:  Gary S Stein; Sayyed K Zaidi; Janet L Stein; Jane B Lian; Andre J van Wijnen; Martin Montecino; Daniel W Young; Amjad Javed; Jitesh Pratap; Je-Yong Choi; Syed A Ali; Sandhya Pande; Mohammad Q Hassan
Journal:  J Cell Biochem       Date:  2008-08-15       Impact factor: 4.429
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