Attractive Interhelical Electrostatic Interactions in the Proline- and Acidic-rich Region (PAR) Leucine Zipper Subfamily Preclude Heterodimerization with Other Basic Leucine Zipper Subfamilies

Basic region-leucine zipper (B-ZIP) proteins homo- or heterodimerize to bind sequence-specific double-stranded DNA. We present circular dichroism (CD) thermal denaturation data on vitellogenin promoter-binding protein (VBP), a member of the PAR subfamily of B-ZIP proteins that also includes thyroid...

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Bibliographic Details
Published in:The Journal of biological chemistry 2000-11, Vol.275 (44), p.34826-34832
Main Authors: Moll, Jonathan R., Olive, Michelle, Vinson, Charles
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Base Sequence
C/EBP^a protein
CCAAT-Enhancer-Binding Proteins - chemistry
CCAAT-Enhancer-Binding Proteins - genetics
Dimerization
DNA Primers
Hydrogen-Ion Concentration
Leucine Zippers
Molecular Sequence Data
Proline - chemistry
Sequence Homology, Amino Acid
Static Electricity
vitellogenin promoter-binding protein
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Summary:Basic region-leucine zipper (B-ZIP) proteins homo- or heterodimerize to bind sequence-specific double-stranded DNA. We present circular dichroism (CD) thermal denaturation data on vitellogenin promoter-binding protein (VBP), a member of the PAR subfamily of B-ZIP proteins that also includes thyroid embryonic factor, hepatocyte leukemia factor, and albumin site D-binding protein. VBP does not heterodimerize with B-ZIP domains from C/EBPα, JUND, or FOS. We describe a dominant negative protein, A-VBP, that contains the VBP leucine zipper and an acidic amphipathic protein sequence that replaces the basic region critical for DNA binding. The acidic extension forms a coiled coil structure with the VBP basic region in the VBP·A-VBP heterodimer. This new α-helical structure extends the leucine zipper N-terminally, stabilizing the complex by 2.0 kcal/mol. A-VBP abolishes DNA binding of VBP in an equimolar competition assay, but does not affect DNA binding even at 100-fold excess of CREB, C/EBPα, or FOS/JUND. Likewise, proteins containing the acidic extension appended to seven other leucine zippers do not inhibit VBP DNA binding. We show that conserved g ↔ e′ or i, i′ +5 salt bridges are sufficient to confer specificity to VBP by mutating the C/EBPα leucine zipper to contain the g ↔ e′ salt bridges that characterize VBP. A-VBP heterodimerizes with this mutant C/EBP, preventing it from binding to DNA. These conserved g ↔ e′ electrostatic interactions define the specificity of the PAR subfamily of B-ZIP proteins and preclude interaction with other B-ZIP subfamilies.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M004545200