RNA aptamers selectively modulate protein recruitment to the cytoplasmic domain of b-secretase BACE1 in vitro

نویسندگان

  • ANDREA RENTMEISTER
  • ANKE BILL
  • TINA WAHLE
  • JOCHEN WALTER
  • MICHAEL FAMULOK
چکیده

The b-amyloid peptide (Ab) is a major component of the Alzheimer’s disease (AD)-associated senile plaques and is generated by sequential cleavage of the b-amyloid precursor protein (APP) by b-secretase and g-secretase. Since BACE1 initiates Ab generation it represents a valuable target to interfere with Ab production and treatment of AD. While the enzymatic activity of BACE1 resides in the extracellular domain, the protein also contains a short cytoplasmic tail (B1-CT). This domain serves as a binding site for at least two proteins, the copper chaperone for superoxide dismutase-1 (CCS), and the Golgi-localized, g-earcontaining, ADP ribosylation factor-binding (GGA1) protein, and contains a single phosphorylation site. However, the precise role of the B1-CT for the overall biological function of this protein is largely unknown. Functional studies focusing on the activity of this domain would strongly benefit from the availability of domain-specific inhibitors. Here we describe the isolation and characterization of RNA aptamers that selectively target the B1-CT. We show that these RNAs bind to authentic BACE1 and provide evidence that the binding site is restricted to the membrane-proximal half of the C terminus. Aptamer-binding specifically interferes with the recruitment of CCS, but still permits GGA1 association and casein kinase-dependent phosphorylation, consistent with selective binding site targeting within this short peptide. Because phosphorylation and GGA1 binding to B1-CT regulate BACE1 transport, these RNA inhibitors could be applied to investigate B1-CT activity without affecting the subcellular localization of BACE1.

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RNA aptamers selectively modulate protein recruitment to the cytoplasmic domain of beta-secretase BACE1 in vitro.

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تاریخ انتشار 2006