发明授权
US07829669B2 Catalytically active recombinant memapsin and methods of use thereof
失效
催化活性重组膜突触蛋白及其使用方法
- 专利标题: Catalytically active recombinant memapsin and methods of use thereof
- 专利标题(中): 催化活性重组膜突触蛋白及其使用方法
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申请号: US11888920申请日: 2007-08-03
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公开(公告)号: US07829669B2公开(公告)日: 2010-11-09
- 发明人: Gerald Koelsch , Jordan J. N. Tang , Lin Hong , Arun K. Ghosh , Xinli Lin
- 申请人: Gerald Koelsch , Jordan J. N. Tang , Lin Hong , Arun K. Ghosh , Xinli Lin
- 申请人地址: US OK Oklahoma City US IL Urbana
- 专利权人: Oklahoma Medical Research Foundation,The Board of Trustees of the University of Illinois
- 当前专利权人: Oklahoma Medical Research Foundation,The Board of Trustees of the University of Illinois
- 当前专利权人地址: US OK Oklahoma City US IL Urbana
- 代理机构: Morrison & Foerster LLP
- 主分类号: C07K1/00
- IPC分类号: C07K1/00
摘要:
Methods for the production of purified, catalytically active, recombinant memapsin 2 have been developed. The substrate and subsite specificity of the catalytically active enzyme have been determined. The substrate and subsite specificity information was used to design substrate analogs of the natural memapsin 2 substrate that can inhibit the function of memapsin 2. The substrate analogs are based on peptide sequences, shown to be related to the natural peptide substrates for memapsin 2. The substrate analogs contain at least one analog of an amide bond which is not capable of being cleaved by memapsin 2. Processes for the synthesis of two substrate analogues including isosteres at the sites of the critical amino acid residues were developed and the substrate analogues, OMR99-1 and OM99-2, were synthesized. OM99-2 is based on an octapeptide Glu-Val-Asn-Leu-Ala-Ala-Glu-Phe (SEQ ID NO:28) with the Leu-Ala peptide bond substituted by a transition-state isostere hydroxyethylene group (FIG. 1). The inhibition constant of OM99-2 is 1.6×10−9 M against recombinant pro-memapsin 2. Crystallography of memapsin 2 bond to this inhibitor was used to determine the three dimensional structure of the protein, as well as the importance of the various residues in binding. This information can be used by those skilled in the art to design new inhibitors, using commercially available software programs and techniques familiar to those in organic chemistry and enzymology, to design new inhibitors to memapsin 2, useful in diagnostics and for the treatment and/or prevention of Alzheimer's disease.
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