Hiroaki Miyashita scite author profile

Hiroaki Miyashita

4Publications

101Citation Statements Received

96Citation Statements Given

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104

Affiliations

Nagoya University

Publications

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Lysine pyrrolation is a naturally-occurring covalent modification involved in the production of DNA mimic proteins

Miyashita

Chikazawa

Otaki

et al. 2014

Sci Rep

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Covalent modification of proteins exerts significant effects on their chemical properties and has important functional and regulatory consequences. We now report the identification and verification of an electrically-active form of modified proteins recognized by a group of small molecules commonly used to interact with DNA. This previously unreported property of proteins was initially discovered when the γ-ketoaldehydes were identified as a source of the proteins stained by the DNA intercalators. Using 1,4-butanedial, the simplest γ-ketoaldehyde, we characterized the structural and chemical criteria governing the recognition of the modified proteins by the DNA intercalators and identified Nε-pyrrolelysine as a key adduct. Unexpectedly, the pyrrolation conferred an electronegativity and electronic properties on the proteins that potentially constitute an electrical mimic to the DNA. In addition, we found that the pyrrolated proteins indeed triggered an autoimmune response and that the production of specific antibodies against the pyrrolated proteins was accelerated in human systemic lupus erythematosus. These findings and the apparent high abundance of Nε-pyrrolelysine in vivo suggest that protein pyrrolation could be an endogenous source of DNA mimic proteins, providing a possible link connecting protein turnover and immune disorders.

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Multispecificity of Immunoglobulin M Antibodies Raised against Advanced Glycation End Products

Chikazawa

Otaki

Shibata

et al. 2013

Journal of Biological Chemistry

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Background: Advanced glycation end products (AGEs) can act as neoantigens to trigger immune responses. Results: Natural IgM antibodies against AGEs recognize multiple molecules, including DNA and chemically modified proteins. Conclusion: There is a close relationship between the formation of AGEs and innate immune responses. Significance: Our findings highlight AGEs and related modified proteins as a source of multispecific natural antibodies.

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Apolipoprotein E binds to and reduces serum levels of DNA-mimicking, pyrrolated proteins

Hirose¹,

Hioki²,

Miyashita³

et al. 2019

Journal of Biological Chemistry

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Lysine N-pyrrolation, converting lysine residues to Nϵ-pyrrole-l-lysine, is a recently discovered post-translational modification. This naturally occurring reaction confers electrochemical properties onto proteins that potentially produce an electrical mimic to DNA and result in specificity toward DNA-binding molecules such as anti-DNA autoantibodies. The discovery of this unique covalent protein modification provides a rationale for establishing the molecular mechanism and broad functional significance of the formation and regulation of Nϵ-pyrrole-l-lysine–containing proteins. In this study, we used microbeads coupled to pyrrolated or nonpyrrolated protein to screen for binding activities of human serum-resident nonimmunoglobin proteins to the pyrrolated proteins. This screen identified apolipoprotein E (apoE) as a protein that innately binds the DNA-mimicking proteins in serum. Using an array of biochemical assays, we observed that the pyrrolated proteins bind to the N-terminal domain of apoE and that oligomeric apoE binds these proteins better than does monomeric apoE. Employing surface plasmon resonance and confocal microscopy, we further observed that apoE deficiency leads to significant accumulation of pyrrolated serum albumin and is associated with an enhanced immune response. These results, along with the observation that apoE facilitates the binding of pyrrolated proteins to cells, suggest that apoE may contribute to the clearance of pyrrolated serum proteins. Our findings uncover apoE as a binding target of pyrrolated proteins, providing a key link connecting covalent protein modification, lipoprotein metabolism, and innate immunity.

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Advanced Glycation End Products Are Immunodominant Targets of Multi-Specific Natural Antibodies

Chikazawa

Miyashita

Shibata

et al. 2012

Free Radical Biology and Medicine

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