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Author Notes:

To whom correspondence should be addressed. Tel: +1 404 727 8491; Fax: +1 404 727 3746; Email: xcheng@emory.edu. Correspondence may also be addressed to Paula M. Vertino. Tel: +1 404 778 3119; Fax: +1 404 778 2512; Email: pvertin@emory.edu

Author Information: D.W. performed protein expression and purification, DNA binding assays and crystallization.

H.H. performed X-ray data collection and structure determination.

B.G.B. performed bioinformatics analysis; S.L., L.H.B. and P.M.V. participated in discussion and myeloma data analyses.

X.Z., P.M.V. and X.C. organized and designed the scope of the study. All were involved in analyzing data and in preparing the manuscript.

We thank B. Baker of New England Biolabs for synthesizing the oligonucleotides.

The Department of Biochemistry of Emory University School of Medicine supported the use of SER-CAT beamlines.

We also thank Daniel Auclair and Joan Levy from the Multiple Myeloma Research Foundation, the MMRF CoMMpass Network and Jonathan Keats (TGEN) for support and advice regarding the CoMMpass trial and associated data.

Conflict of interest statement. None declared.

Subjects:

Research Funding:

National Institutes of Health (NIH) [GM049245-23 to X.C. and CA077337-15 to P.M.V.]; T.J. Martell Foundation [to L.H.B.]; Georgia Research Alliance Eminent Scholar [to X.C.].

The open access publication charge for this paper has been waived by Oxford University Press – NAR Editorial Board members are entitled to one free paper per year in recognition of their work on behalf of the journal.

Keywords:

  • Science & Technology
  • Life Sciences & Biomedicine
  • Biochemistry & Molecular Biology
  • SINGLE-BASE RESOLUTION
  • STABLE DNA MODIFICATION
  • TET PROTEINS
  • C-MYC
  • 5-METHYLCYTOSINE OXIDATION
  • ENHANCER ACTIVITY
  • STRUCTURAL BASIS
  • CANCER GENOMICS
  • MAMMALIAN DNA
  • RECOGNITION

MAX is an epigenetic sensor of 5-carboxylcytosine and is altered in multiple myeloma

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Journal Title:

Nucleic Acids Research

Volume:

Volume 45, Number 5

Publisher:

, Pages 2396-2407

Type of Work:

Article | Final Publisher PDF

Abstract:

The oncogenic transcription factor MYC and its binding partner MAX regulate gene expression by binding to DNA at enhancer-box (E-box) elements 5'-CACGTG-3'. In mammalian genomes, the central E-box CpG has the potential to be methylated at the 5-position of cytosine (5mC), or to undergo further oxidation to the 5-hydroxymethyl (5hmC), 5-formyl (5fC), or 5-carboxyl (5caC) forms. We find that MAX exhibits the greatest affinity for a 5caC or unmodified C-containing E-box, and much reduced affinities for the corresponding 5mC, 5hmC or 5fC forms. Crystallization of MAX with a 5caC modified E-box oligonucleotide revealed that MAX Arg36 recognizes 5caC using a 5caC-Arg-Guanine triad, with the next nearest residue to the carboxylate group being Arg60. In an analysis of >800 primary multiple myelomas, MAX alterations occurred at a frequency of ∼3%, more than half of which were single nucleotide substitutions affecting a basic clamp-like interface important for DNA interaction. Among these, arginines 35, 36 and 60 were the most frequently altered. In vitro binding studies showed that whereas mutation of Arg36 (R36W) or Arg35 (R35H/L) completely abolished DNA binding, mutation of Arg60 (R60Q) significantly reduced DNA binding, but retained a preference for the 5caC modified E-box. Interestingly, MAX alterations define a subset of myeloma patients with lower MYC expression and a better overall prognosis. Together these data indicate that MAX can act as a direct epigenetic sensor of E-box cytosine modification states and that local CpG modification and MAX variants converge to modulate the MAX-MYC transcriptional network.

Copyright information:

© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.

This is an Open Access work distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International License (http://creativecommons.org/licenses/by-nc/4.0/).

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