O'Farrell P A, Gonzalez F, Zheng W, Johnston S A, Joshua-Tor L
WM Keck Structural Biology Laboratory, Cold Spring Harbor Laboratory, NY 11724, USA.
Structure. 1999 Jun 15;7(6):619-27. doi: 10.1016/s0969-2126(99)80083-5.
Bleomycin hydrolase (BH) is a cysteine protease that is found in all tissues in mammals as well as in many other eukaryotes and prokaryotes. Although its conserved cellular function is as yet unknown, human bleomycin hydrolase (hBH) has clinical significance in that it is thought to be the major cause of tumor cell resistance to bleomycin chemotherapy. In addition, it has been reported that an allelic variant of hBH is genetically linked to Alzheimer's disease.
We have determined the crystal structures of wild-type hBH and of a mutant form of the enzyme. The overall structure is very similar to that of the previously determined yeast homolog, however, there is a striking difference in the charge distribution. The central channel, which has a strong positive electrostatic potential in the yeast protein, is slightly negative in hBH. We have determined that hBH does not have the DNA-binding activity of the yeast protein and that the enzyme is localized to the cytoplasm.
The difference in charge distribution between the yeast and human BH enzymes is most likely responsible for the difference in DNA-binding activity. Nevertheless, the C-terminal autoprocessing activity and the role of the C terminus as a determinant for peptidase activity are conserved between the yeast and human forms. The structure of hBH suggests that the putative Alzheimer's disease linked variation does not directly alter the intrinsic peptidase activity. Rather, the position of the mutation suggests that it could affect interactions with another protein, which may modulate peptidase activity through repositioning of the C terminus.
博来霉素水解酶(BH)是一种半胱氨酸蛋白酶,存在于哺乳动物的所有组织以及许多其他真核生物和原核生物中。尽管其保守的细胞功能尚不清楚,但人博来霉素水解酶(hBH)具有临床意义,因为它被认为是肿瘤细胞对博来霉素化疗耐药的主要原因。此外,据报道,hBH的一个等位基因变体与阿尔茨海默病存在遗传关联。
我们确定了野生型hBH及其突变形式的晶体结构。其整体结构与先前确定的酵母同源物非常相似,然而,电荷分布存在显著差异。酵母蛋白中具有强正静电势的中央通道,在hBH中略显负电。我们确定hBH不具有酵母蛋白的DNA结合活性,且该酶定位于细胞质中。
酵母和人BH酶之间电荷分布的差异很可能是DNA结合活性差异的原因。尽管如此,酵母和人形式的BH在C末端自加工活性以及C末端作为肽酶活性决定因素的作用方面是保守的。hBH的结构表明,假定的与阿尔茨海默病相关的变异不会直接改变内在肽酶活性。相反,突变的位置表明它可能影响与另一种蛋白质的相互作用,这可能通过C末端的重新定位来调节肽酶活性。
