Abstract
Increased processing of amyloid precursor protein (APP) and accumulation of neurotoxic amyloid β peptide (Aβ) in the brain is central to the pathogenesis of Alzheimer's disease (AD). Therefore, the identification of molecules that regulate Aβ generation is crucial for future therapeutic approaches for AD. We demonstrated previously that RanBP9 regulates Aβ generation in a number of cell lines and primary neuronal cultures by forming tripartite protein complexes with APP, low-density lipoprotein-related protein, and BACE1, consequently leading to increased amyloid plaque burden in the brain. RanBP9 is a scaffold protein that exists and functions in multiprotein complexes. To identify other proteins that may bind RanBP9 and regulate Aβ levels, we used a two-hybrid analysis against a human brain cDNA library and identified COPS5 as a novel RanBP9-interacting protein. This interaction was confirmed by coimmunoprecipitation experiments in both neuronal and non-neuronal cells and mouse brain. Colocalization of COPS5 and RanBP9 in the same subcellular compartments further supported the interaction of both proteins. Furthermore, like RanBP9, COPS5 robustly increased Aβ generation, followed by increased soluble APP-β (sAPP-β) and decreased soluble-APP-α (sAPP-α) levels. Most importantly, down-regulation of COPS5 by siRNAs reduced Aβ generation, implying that endogenous COPS5 regulates Aβ generation. Finally, COPS5 levels were increased significantly in AD brains and APΔE9 transgenic mice, and overexpression of COPS5 strongly increased RanBP9 protein levels by increasing its half-life. Taken together, these results suggest that COPS5 increases Aβ generation by increasing RanBP9 levels. Thus, COPS5 is a novel RanBP9-binding protein that increases APP processing and Aβ generation by stabilizing RanBP9 protein levels.
Highlights
Increased generation of toxic amyloid  peptide (A) in the brain is central to the pathogenesis of Alzheimer’s disease (AD)
We were interested in a clone that turned out to contain the partial cDNA for the COP9 constitutive photomorphogenic homolog subunit 5 (COPS5, called Jab1)
Yeast colonies that turned blue only when COPS5 was cotransformed with the RanBP9-LIS1 Homology (LisH) domain, but not when cotransformed with RanBP9-C-terminal to LisH (CTLH) domain or when transformed with pGB-empty vector alone or with pGB-lamin used as a negative control, suggested a positive interaction between COPS5 and the RanBP9LisH domain (Fig. 1A)
Summary
Increased generation of toxic amyloid  peptide (A) in the brain is central to the pathogenesis of Alzheimer’s disease (AD). COPS5 is a novel RanBP9-binding protein that increases APP processing and A generation by stabilizing RanBP9 protein levels. COPS5 Increases A Generation at the clinical trials because of unacceptable levels of toxicity indicates the need for the identification of all proteins that regulate or modulate A generation so that they may be targeted for novel designs in future therapeutic approaches. Even before this finding, we showed for the first time that RanBP9 protein levels are increased 6-fold in AD brains [10] and that RanBP9 overexpression increases A generation 4-fold in cell cultures by increasing -secretase-mediated processing of APP [11] and increases amyloid plaques in mouse brains [12], which, in turn, leads to a significant loss of synaptic proteins [12]. We show here that COPS5 increases A generation by stabilizing RanBP9 protein levels
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