Roberto Cappai scite author profile

sorLA (sorting protein-related receptor) is a type-1 membrane protein of unknown function that is expressed in neurons. Its homology to sorting receptors that shuttle between the plasma membrane, endosomes, and the Golgi suggests a related function in neuronal trafficking processes. Because expression of sorLA is reduced in the brain of patients with Alzheimer's disease (AD), we tested involvement of this receptor in intracellular transport and processing of the amyloid precursor protein (APP) to the amyloid ␤-peptide (A␤), the principal component of senile plaques. We demonstrate that sorLA interacts with APP in vitro and in living cells and that both proteins colocalize in endosomal and Golgi compartments. Overexpression of sorLA in neurons causes redistribution of APP to the Golgi and decreased processing to A␤, whereas ablation of sorLA expression in knockout mice results in increased levels of A␤ in the brain similar to the situation in AD patients. Thus, sorLA acts as a sorting receptor that protects APP from processing into A␤ and thereby reduces the burden of amyloidogenic peptide formation. Consequently, reduced receptor expression in the human brain may increase A␤ production and plaque formation and promote spontaneous AD.endocytic receptors ͉ knockout mouse ͉ neurodegeneration ͉ Vps10p-domain receptors S orting protein-related receptor (sorLA), also known as LR11, is a 250-kDa type-1 membrane protein of unknown function that is expressed in neurons of the central and peripheral nervous system (1-4). The protein is a member of a family of neuronal receptors that share structural similarity with the vacuolar protein sorting 10 protein (Vps10p), a sorting protein in yeast that transports carboxypeptidase Y from the Golgi to the vacuole (5). Other family members include the proneurotrophin receptor sortilin (6) and the head activator-binding protein in hydra (7). Because sorLA interacts with the family of GGA (Golgi-localizing, ␥-adaptin ear homology domain, ARFinteracting) adaptors that shuttle between the Golgi and endosomes͞lysosomes, the receptor was proposed to act in intracellular protein trafficking (8). The relevance of such sorLAmediated protein transport in neurons is unclear at present. However, expression profiling has demonstrated reduction of sorLA expression in the brain of patients suffering from Alzheimer's disease (AD), suggesting a causal role for the receptor in the pathogenesis of this disease (9).Central to the pathogenesis of AD is the proteolytic processing of a neuronal membrane protein called the amyloid precursor protein (APP). APP follows a complex intracellular trafficking pathway that influences processing to either a soluble fragment sAPP␣ (nonamyloidogenic) or to sAPP␤ and the insoluble amyloid ␤-peptide (A␤), the principal component of senile plaques (10). The rate of A␤ production is considered the major risk factor for onset of AD (10). En route through the secretory pathway to the cell surface, most newly synthesized APP molecules are cleaved into sAPP␣ by ␣-secretase;...

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Rapid Restoration of Cognition in Alzheimer's Transgenic Mice with 8-Hydroxy Quinoline Analogs Is Associated with Decreased Interstitial Aβ

Adlard

Cherny

Finkelstein

et al. 2008

Neuron

626

672

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As a disease-modifying approach for Alzheimer's disease (AD), clioquinol (CQ) targets beta-amyloid (Abeta) reactions with synaptic Zn and Cu yet promotes metal uptake. Here we characterize the second-generation 8-hydroxy quinoline analog PBT2, which also targets metal-induced aggregation of Abeta, but is more effective as a Zn/Cu ionophore and has greater blood-brain barrier permeability. Given orally to two types of amyloid-bearing transgenic mouse models of AD, PBT2 outperformed CQ by markedly decreasing soluble interstitial brain Abeta within hours and improving cognitive performance to exceed that of normal littermate controls within days. Nontransgenic mice were unaffected by PBT2. The current data demonstrate that ionophore activity, inhibition of in vitro metal-mediated Abeta reactions, and blood-brain barrier permeability are indices that predict a potential disease-modifying drug for AD. The speed of recovery of the animals underscores the acutely reversible nature of the cognitive deficits associated with transgenic models of AD.

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Roberto Cappai

Neuronal sorting protein-related receptor sorLA/LR11 regulates processing of the amyloid precursor protein

Rapid Restoration of Cognition in Alzheimer's Transgenic Mice with 8-Hydroxy Quinoline Analogs Is Associated with Decreased Interstitial Aβ

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