Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Katahira, Sendai 980-8577, Japan.
J Inorg Biochem. 2012 Apr;109:66-71. doi: 10.1016/j.jinorgbio.2012.01.001. Epub 2012 Jan 11.
Ec DOS, a heme-regulated phosphodiesterase from Escherichia coli, is an oxygen sensor enzyme composed of a heme-bound O(2) sensor domain at the N-terminus and a catalytic domain at the C-terminus. The catalytic activity of Ec DOS is substantially enhanced with the formation of a Fe(II) heme-O(2) complex. The physiological importance of H(2)S as a fourth signaling gas molecule in addition to O(2), CO and NO is an emerging focus of research, since H(2)S participates in various physiological functions. In the present study, we showed that catalysis by Ec DOS is markedly increased by H(2)S under aerobic conditions. Absorption spectral findings suggest that SH(-)-modified heme iron complexes, such as Fe(III)-SH(-) and Fe(II)-O(2) complexes, represent the active species for H(2)S-induced catalysis. We further examined the role of Cys residues in H(2)S-induced catalysis using Cys→Ala mutant enzymes. Based on the collective data, we speculate that H(2)S-induced catalytic enhancement is facilitated by an admixture of Fe(III)-SH(-) and Fe(II)-O(2) complexes formed during catalysis and modification of specific Cys residue(s) in the catalytic domain.
大肠杆菌中的 Ec DOS 是一种血红素调节的磷酸二酯酶,由位于 N 端的血红素结合的 O(2)传感器结构域和位于 C 端的催化结构域组成。当形成 Fe(II)血红素-O(2)复合物时,Ec DOS 的催化活性会显著增强。H(2)S 作为继 O(2)、CO 和 NO 之后的第四种信号气体分子在生理上的重要性,是当前研究的一个新兴焦点,因为 H(2)S 参与了各种生理功能。在本研究中,我们表明 Ec DOS 的催化作用在有氧条件下会被 H(2)S 显著增强。吸收光谱研究结果表明,SH(-)修饰的血红素铁配合物,如 Fe(III)-SH(-)和 Fe(II)-O(2)配合物,代表了 H(2)S 诱导催化的活性物质。我们进一步使用 Cys→Ala 突变酶研究了 Cys 残基在 H(2)S 诱导催化中的作用。基于这些综合数据,我们推测 H(2)S 诱导的催化增强是由催化和修饰过程中形成的 Fe(III)-SH(-)和 Fe(II)-O(2)复合物的混合物以及催化结构域中特定 Cys 残基的修饰所促进的。
