Toshifumi Kawase scite author profile

HMGB1, a nonhistone chromosomal protein in higher eukaryotic nuclei, consists of two DNA binding motifs called HMG boxes and an acidic C-tail comprising a continuous array of 30 acidic amino acid residues. In the preceding study, we showed that the acidic C-tail of HMGB1 is required for transcription stimulation accompanied by chromatin decondensation in cultured cells. However, details of the involvement of the acidic C-tail in transcription stimulation were not clear. To clarify the mechanism of transcription stimulation by the acidic C-tail, we assessed the effect of the acidic C-tail on the transcription stimulation and nucleosome binding. Transcription stimulation assays using acidic C-tail deletion mutants showed that the five amino acid residues at the C-terminal end of HMGB1, a DDDDE sequence, are essential for the stimulation. The DDDDE sequence was also required for the preferential binding of HMGB1 to nucleosome linker DNA, which is a cognate HMGB1 binding site in chromatin. Cross-linking and far-Western experiments demonstrated that the DDDDE sequence interacts with the core histone H3 N-tail. These results strongly suggest that the interaction between the DDDDE sequence of HMGB1 and the H3 N-tail is a key factor for the transcription stimulation by HMGB1 as well as the preferential binding of HMGB1 to chromatin.

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Distinct Domains in HMGB1 Are Involved in Specific Intramolecular and Nucleosomal Interactions

Kawase

Sato

Ueda

et al. 2008

Biochemistry

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HMGB1 is composed of two DNA-binding domains and a long acidic tail at the C-terminus. The acidic tail interacts with the DNA-binding domains of HMGB1 and with core histone H3 in the nucleosome. These interactions are important for modulation of the DNA and chromatin binding activities of HMGB1, as well as biological functions of HMGB1. However, the interactions are not fully characterized, because the tertiary structure of full-length HMGB1 is still unknown. Here we use chemical cross-linking, mass spectrometry, and epitope masking analysis to perform a detailed characterization of the inter- and intramolecular protein interactions of the acidic tail of HMGB1. We show that specific regions of the acidic tail participate in intramolecular interactions with Lys2 of HMGB1 and in intermolecular interactions with Lys36 and Lys37 of histone H3. The acidic tail is oriented by its location adjacent to the C-terminus of helix III of DNA-binding HMG box A in the HMGB1 molecule. These results suggest that the acidic tail modulates the biological functions of HMGB1 through these specific interactions.

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Toshifumi Kawase

Acidic C-Tail of HMGB1 Is Required for Its Target Binding to Nucleosome Linker DNA and Transcription Stimulation

Distinct Domains in HMGB1 Are Involved in Specific Intramolecular and Nucleosomal Interactions

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