Zuccola H J, Rozzelle J E, Lemon S M, Erickson B W, Hogle J M
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA 02115, USA.
Structure. 1998 Jul 15;6(7):821-30. doi: 10.1016/s0969-2126(98)00084-7.
The hepatitis D virus (HDV) is a small satellite virus of hepatitis B virus (HBV). Coinfection with HBV and HDV causes severe liver disease in humans. The small 195 amino-acid form of the hepatitis delta antigen (HDAg) functions as a trans activator of HDV replication. A larger form of the protein containing a 19 amino acid C-terminal extension inhibits viral replication. Both of these functions are mediated in part by a stretch of amino acids predicted to form a coiled coil (residues 13-48) that is common to both forms. It is believed that HDAg forms dimers and higher ordered structures through this coiled-coil region.
The high-resolution crystal structure of a synthetic peptide corresponding to residues 12 to 60 of HDAg has been solved. The peptide forms an antiparallel coiled coil, with hydrophobic residues near the termini of each peptide forming an extensive hydrophobic core with residues C-terminal to the coiled-coil domain in the dimer protein. The structure shows how HDAg forms dimers, but also shows the dimers forming an octamer that forms a 50 A ring lined with basic sidechains. This is confirmed by cross-linking studies of full-length recombinant small HDAg.
HDAg dimerizes through an antiparallel coiled coil. Dimers then associate further to form octamers through residues in the coiled-coil domain and residues C-terminal to this region. Our findings suggest that the structure of HDAg represents a previously unseen organization of a nucleocapsid protein and raise the possibility that the N terminus may play a role in binding the viral RNA.
丁型肝炎病毒(HDV)是乙型肝炎病毒(HBV)的一种小型卫星病毒。HBV与HDV的共同感染会导致人类严重的肝脏疾病。丁型肝炎抗原(HDAg)的195个氨基酸的小形式作为HDV复制的反式激活因子发挥作用。含有19个氨基酸C末端延伸的较大形式的蛋白质会抑制病毒复制。这两种功能部分是由一段预计会形成卷曲螺旋的氨基酸序列(第13 - 48位残基)介导的,这两种形式都有该序列。据信,HDAg通过这个卷曲螺旋区域形成二聚体和更高阶的结构。
已解析出与HDAg第12至60位残基相对应的合成肽的高分辨率晶体结构。该肽形成一个反平行卷曲螺旋,每个肽末端附近的疏水残基与二聚体蛋白中卷曲螺旋结构域C末端的残基形成一个广泛的疏水核心。该结构展示了HDAg如何形成二聚体,还展示了二聚体形成一个八聚体,该八聚体形成一个由碱性侧链排列的50埃环。全长重组小HDAg的交联研究证实了这一点。
HDAg通过反平行卷曲螺旋形成二聚体。然后二聚体通过卷曲螺旋结构域中的残基以及该区域C末端的残基进一步结合形成八聚体。我们的研究结果表明,HDAg的结构代表了一种以前未见的核衣壳蛋白组织形式,并增加了N末端可能在结合病毒RNA中发挥作用的可能性。
