钙信号蛋白S100A12胞内靶蛋白的鉴定。

Takashi Hatakeyama, Miki Okada, Seiko Shimamoto, Yasuo Kubota, Ryoji Kobayashi
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引用次数: 46

摘要

在本报告中,我们将注意力集中在鉴定以Ca2+依赖方式结合S100A12的细胞内哺乳动物蛋白上。利用S100A12亲和层析,我们鉴定了胞质内NADP+依赖的异柠檬酸脱氢酶(IDH)、果糖-1,6-二磷酸醛缩酶A(醛缩酶)、甘油醛-3-磷酸脱氢酶(GAPDH)、膜联蛋白V、S100A9和S100A12本身是S100A12结合蛋白。免疫沉淀实验表明,体内S100A12与IDH、醛缩酶、GAPDH、膜联蛋白V和S100A9形成稳定的复合物。表面等离子体共振分析表明,S100A12、S100A9和膜联蛋白V与S100A12的结合具有严格的Ca2+依赖性,而GAPDH和IDH与S100A12的结合仅具有弱Ca2+依赖性。为了定位S100A12相互作用的位点,我们检测了一系列c端截断突变体与S100A12固定传感器芯片的结合。结果表明,S100A12自身的结合位点位于c端(残基87 ~ 92)。然而,截断突变体的交联实验表明,残基87-92不是S100A12二聚化所必需的。因此,S100A12与S100A9或固定化S100A12之间的相互作用不应被视为典型的S100同源或异源二聚化模型。Ca2+依赖亲和层析显示,S100A12与IDH、醛缩酶、GAPDH和膜联蛋白v相互作用的c端残基75-92不是必需的。为了分析S100A12的功能特性,我们研究了它在体外蛋白质折叠反应中的作用。在Ca2+不存在的情况下,S100A12促进了IDH或GAPDH的热聚集,而在Ca2+存在的情况下,S100A12将醛缩酶的聚集抑制到50%以下。这些结果表明S100A12可能具有Ca2+依赖性的伴侣/抗伴侣样功能。
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Identification of intracellular target proteins of the calcium-signaling protein S100A12.

In this report, we have focused our attention on identifying intracellular mammalian proteins that bind S100A12 in a Ca2+-dependent manner. Using S100A12 affinity chromatography, we have identified cytosolic NADP+-dependent isocitrate dehydrogenase (IDH), fructose-1,6-bisphosphate aldolase A (aldolase), glyceraldehyde-3-phosphate dehydrogenese (GAPDH), annexin V, S100A9, and S100A12 itself as S100A12-binding proteins. Immunoprecipitation experiments indicated the formation of stable complexes between S100A12 and IDH, aldolase, GAPDH, annexin V and S100A9 in vivo. Surface plasmon resonance analysis showed that the binding to S100A12, of S100A12, S100A9 and annexin V, was strictly Ca2+-dependent, whereas that of GAPDH and IDH was only weakly Ca2+-dependent. To localize the site of S100A12 interaction, we examined the binding of a series of C-terminal truncation mutants to the S100A12-immobilized sensor chip. The results indicated that the S100A12-binding site on S100A12 itself is located at the C-terminus (residues 87-92). However, cross-linking experiments with the truncation mutants indicated that residues 87-92 were not essential for S100A12 dimerization. Thus, the interaction between S100A12 and S100A9 or immobilized S100A12 should not be viewed as a typical S100 homo- or heterodimerization model. Ca2+-dependent affinity chromatography revealed that C-terminal residues 75-92 are not necessary for the interaction of S100A12 with IDH, aldolase, GAPDH and annexin V. To analyze the functional properties of S100A12, we studied its action in protein folding reactions in vitro. The thermal aggregation of IDH or GAPDH was facilitated by S100A12 in the absence of Ca2+, whereas in the presence of Ca2+ the protein suppressed the aggregation of aldolase to less than 50%. These results suggest that S100A12 may have a chaperone/antichaperone-like function which is Ca2+-dependent.

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