Yunfei Mao scite author profile

α-N-terminal methylation represents a highly conserved and prevalent post-translational modification, yet its biological function has remained largely speculative. The recent discovery of α-N-terminal methyltransferase 1 (NTMT1) and its physiological substrates propels the elucidation of a general role of α-N-terminal methylation in mediating DNA-binding ability of the modified proteins. The phenotypes, observed from both NTMT1 knockdown in breast cancer cell lines and knockout mouse models, suggest the potential involvement of α-N-terminal methylation in DNA damage response and cancer development. In this study, we report the first crystal structures of human NTMT1 in complex with cofactor S-adenosyl-L-homocysteine (SAH) and six substrate peptides, respectively, and reveal that NTMT1 contains two characteristic structural elements (a β hairpin and an N-terminal extension) that contribute to its substrate specificity. Our complex structures, coupled with mutagenesis, binding, and enzymatic studies, also present the key elements involved in locking the consensus substrate motif XPK (X indicates any residue type other than D/E) into the catalytic pocket for α-N-terminal methylation and explain why NTMT1 prefers an XPK sequence motif. We propose a catalytic mechanism for α-N-terminal methylation. Overall, this study gives us the first glimpse of the molecular mechanism of α-N-terminal methylation and potentially contributes to the advent of therapeutic agents for human diseases associated with deregulated α-N-terminal methylation.

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Kinetic Mechanism of Protein N-terminal Methyltransferase 1

Richardson

Mao

Zhang

et al. 2015

Journal of Biological Chemistry

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Background: Protein N-terminal methyltransferases (NTMTs) methylate protein N-terminal ␣-amines. Results: Inhibition pattern and methylation progress analyses were performed to determine the kinetic mechanism and processivity of NTMT1. Conclusion: NTMT1 utilizes a random sequential Bi Bi mechanism and proceeds in a distributive manner. Significance: This information provides a rational basis for developing specific inhibitors targeting NTMT1.

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Design, synthesis, and kinetic analysis of potent protein N-terminal methyltransferase 1 inhibitors

et al. 2015

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The protein N-terminal methyltransferase 1 (NTMT1) methylates the α-N-terminal amines of proteins. NTMT1 is upregulated in a variety of cancers and knockdown of NTMT1 results in cell mitotic defects. Therefore, NTMT1 inhibitors could be potential anticancer therapeutics. This study describes the design and synthesis of the first inhibitor targeting NTMT1. A novel bisubstrate analogue (NAM-TZ-SPKRIA) was shown to be a potent inhibitor (Ki = 0.20 μM) for NTMT1 and was selective versus protein lysine methyltransferase G9a and arginine methyltransferase 1. NAM-TZ-SPKRIA was found to exhibit a competitive inhibition pattern for both substrates, and mass spectrometry experiments revealed that the inhibitor substantially suppressed the methylation progression. Our results demonstrate the feasibility of using a triazole group to link an S-adenosyl-L-methionine analog with a peptide substrate to construct bisubstrate analogues as NTMT1 potent and selective inhibitors. This study lays a foundation to further discover small molecule NTMT1 inhibitors to interrogate its biological functions, and suggests a general strategy for the development of selective protein methyltransferase inhibitors.

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Yunfei Mao

Structural basis for substrate recognition by the human N-terminal methyltransferase 1

Kinetic Mechanism of Protein N-terminal Methyltransferase 1

Design, synthesis, and kinetic analysis of potent protein N-terminal methyltransferase 1 inhibitors

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