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Tetsuko Nakaniwa,
Harumi Fukada,
Tatsuya Inoue,
Masaki Gouda, Ryoko Nakai,
Yasuyuki Kirii,
Motoyasu Adachi,
Taro Tamada,
Shin-Ichi Segawa,
Ryota Kuroki,
Toshiji Tada,
Takayoshi Kinoshita
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ABSTRACT: Intracellular proteins can have free cysteines that may contribute to their structure, function, and stability; however, free cysteines can lead to chemical instabilities in solution because of oxidation-driven aggregation. The MAP kinase, c-Jun N-terminal kinase 1 (JNK1), possesses seven free cysteines and is an important drug target for autoimmune diseases, cancers, and apoptosis-related diseases. To characterize the role of cysteine residues in the structure, function, and stability of JNK1, we prepared and evaluated wild-type JNK1 and seven cysteine-deficient JNK1 proteins. The nonreduced sodium dodecyl sulfate-polyacrylamide gel electrophoresis experiments showed that the chemical stability of JNK1 increased as the number of cysteines decreased. The contribution of each cysteine residue to biological function and thermal stability was highly susceptible to the environment surrounding the particular cysteine mutation. The mutations of solvent-exposed cysteine to serine did not influence biological function and increased the thermal stability. The mutation of the accessible cysteine involved in the hydrophobic pocket did not affect biological function, although a moderate thermal destabilization was observed. Cysteines in the loosely assembled hydrophobic environment moderately contributed to thermal stability, and the mutations of these cysteines had a negligible effect on enzyme activity. The other cysteines are involved in the tightly filled hydrophobic core, and mutation of these residues was found to correlate with thermal stability and enzyme activity. These findings about the role of cysteine residues should allow us to obtain a stable JNK1 and thus promote the discovery of potent JNK1 inhibitors.
Biochemistry 09/2012; 51(42):8410-21. · 3.42 Impact Factor
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ABSTRACT: Mitogen-activated protein kinase kinase 6 (MAP2K6) plays a crucial role in the p38 MAP kinase signal cascade that regulates various stress-induced responses and is associated with pathological conditions. The crystal structure of human non-phosphorylated MAP2K6 (npMAP2K6) complexed with an ATP analogue was determined at 2.6 Å resolution and represents an auto-inhibition state of MAP2K6. Three characteristics of short α-helices configured in the activation loop region, termed activation helices (AH1, AH2 and AH3), are important in controlling the auto-inhibition mechanism. AH1 displaces the αC-helix, a component essential for forming the active configuration, away from the active site. AH1 and AH2 were found to enclose the γ-phosphate, the leaving group of ATP. A comparison with the related enzymes, MAP2K1 and MAP2K4 reveals that MAP2K6 has the unique auto-inhibition mechanism mediated by the three activation helices.
Journal of biochemistry 03/2012; 151(5):541-9. · 1.95 Impact Factor
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ABSTRACT: Human Lyn tyrosine kinase is expressed in hematopoietic tissues and plays crucial roles in the signal transduction of hematopoietic immune system. Its excess activity is involved in several tumors. The crystal structure has revealed that the potent inhibitor staurosporine binds to human Lyn kinase domain at the ATP-binding site. The remarkable structural features of the staurosporine-binding region will offer valuable structural insights for the structure-based design of novel Lyn-selective inhibitors.
Bioorganic & medicinal chemistry letters 12/2009; 19(23):6557-60. · 2.65 Impact Factor
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ABSTRACT: Lyn is a member of the Src family of non-receptor protein kinase. As well as all members of the Src family, Lyn is thought to participate in signal transduction from cell surface receptors. The crystal structure of Lyn would have a better understanding of Lyn function in various cells. For the purpose of crystallization, C-terminal catalytic segment of human Lyn kinase conjugating hexahistidine purification tag (His-tag) was expressed in Sf21 insect cells. After first step purification utilizing His-tag, an anion-exchange chromatogram yielded four major peaks which had distinguishable phosphorylation manner as judged by Western blot analysis, Native-PAGE analysis and kinase activity measurements. The fractioned samples were separately examined for crystallization screening using a commercial available screening kit. The mono-phosphorylated protein was crystallized with a small rod-shaped and needle clusters. The higher phosphorylated samples corresponding to the other three fractions on the anion-exchange chromatogram were aggregated or precipitated under the above conditions. A crystal of the mono-phosphorylated sample was diffracted to 3.2A with synchrotron source at Photon Factory and a complete X-ray diffraction data set was collected. The coarse structure was solved by a molecular replacement method and further structural refinement is currently underway.
Protein Expression and Purification 05/2008; 58(2):318-24. · 1.59 Impact Factor
