Curcumin Suppresses Soluble Tau Dimers and Corrects Molecular Chaperone, Synaptic, and Behavioral Deficits in Aged Human Tau Transgenic Mice

Panchanan Maiti,Oliver J Ubeda,Xiaohong Zuo,Bruce Teter,Greg M Cole,Sally A Frautschy,Edmond Teng,Shuxin Hu,Fusheng Yang,Ping-Ping Chen,Dana J Gant,Qiu-Lan Ma,Mher Alaverdyan

doi:10.1074/jbc.m112.393751

Panchanan Maiti, Oliver J Ubeda + Show 11 more

Open Access

https://doi.org/10.1074/jbc.m112.393751

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Abstract

The mechanisms underlying Tau-related synaptic and cognitive deficits and the interrelationships between Tau species, their clearance pathways, and synaptic impairments remain poorly understood. To gain insight into these mechanisms, we examined these interrelationships in aged non-mutant genomic human Tau mice, with established Tau pathology and neuron loss. We also examined how these interrelationships changed with an intervention by feeding mice either a control diet or one containing the brain permeable beta-amyloid and Tau aggregate binding molecule curcumin. Transgene-dependent elevations in soluble and insoluble phospho-Tau monomer and soluble Tau dimers accompanied deficits in behavior, hippocampal excitatory synaptic markers, and molecular chaperones (heat shock proteins (HSPs)) involved in Tau degradation and microtubule stability. In human Tau mice but not control mice, HSP70, HSP70/HSP72, and HSP90 were reduced in membrane-enriched fractions but not in cytosolic fractions. The synaptic proteins PSD95 and NR2B were reduced in dendritic fields and redistributed into perikarya, corresponding to changes observed by immunoblot. Curcumin selectively suppressed levels of soluble Tau dimers, but not of insoluble and monomeric phospho-Tau, while correcting behavioral, synaptic, and HSP deficits. Treatment increased PSD95 co-immunoprecipitating with NR2B and, independent of transgene, increased HSPs implicated in Tau clearance. It elevated HSP90 and HSC70 without increasing HSP mRNAs; that is, without induction of the heat shock response. Instead curcumin differentially impacted HSP90 client kinases, reducing Fyn without reducing Akt. In summary, curcumin reduced soluble Tau and elevated HSPs involved in Tau clearance, showing that even after tangles have formed, Tau-dependent behavioral and synaptic deficits can be corrected.

Highlights

Various types of Tau aggregates in Alzheimer disease (AD) brains may differentially impact neurodegeneration
Treatment increased PSD95 co-immunoprecipitating with NR2B and, independent of transgene, increased heat shock protein (HSP) implicated in Tau clearance
HSP 70, 70/72, and 90 levels measured from human Tau (hTau) mice were all highly correlated inversely with soluble 140-kDa Tau dimers detected by anti-protein Tau (p-Tau) or total Tau, but only HSP70/HSP72 showed any correlation with soluble or insoluble ϳ52–75-kDa Tau monomers in Tris-buffered saline (TBS), lysis, or SDS fractions

Summary

Background

Various types of Tau aggregates in AD brains may differentially impact neurodegeneration. Transgene-dependent elevations in soluble and insoluble phospho-Tau monomer and soluble Tau dimers accompanied deficits in behavior, hippocampal excitatory synaptic markers, and molecular chaperones (heat shock proteins (HSPs)) involved in Tau degradation and microtubule stability. Aged mice, expressing native human Tau but lacking NFTs, still develop memory deficits in conjunction with increased soluble hyperphosphorylated Tau and synapse loss [2]. This suggests that strategies such as Tau epitope-specific vaccines [12] or drugs that alter selective Tau assemblies may target pathogenic soluble p-Tau species without impacting non-pathogenic p-Tau species [13]. To best emulate potential in human clinical trials in subjects who typically have existing NFT deposition, we delayed treatment until significant Tau pathology and neuron loss had developed and begun to plateau in aged hTau mice

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION