Tetsuya Suhara scite author profile

Filamentous tau inclusions are hallmarks of Alzheimer's disease (AD) and related tauopathies, but earlier pathologies may herald disease onset. To investigate this, we studied wild-type and P301S mutant human tau transgenic (Tg) mice. Filamentous tau lesions developed in P301S Tg mice at 6 months of age, and progressively accumulated in association with striking neuron loss as well as hippocampal and entorhinal cortical atrophy by 9-12 months of age. Remarkably, hippocampal synapse loss and impaired synaptic function were detected in 3 month old P301S Tg mice before fibrillary tau tangles emerged. Prominent microglial activation also preceded tangle formation. Importantly, immunosuppression of young P301S Tg mice with FK506 attenuated tau pathology and increased lifespan, thereby linking neuroinflammation to early progression of tauopathies. Thus, hippocampal synaptic pathology and microgliosis may be the earliest manifestations of neurodegenerative tauopathies, and abrogation of tau-induced microglial activation could retard progression of these disorders.

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Imaging of Tau Pathology in a Tauopathy Mouse Model and in Alzheimer Patients Compared to Normal Controls

Maruyama¹,

Shimada²,

Suhara³

et al. 2013

Neuron

699

714

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Summary Deposition of intracellular tau fibrils has been the focus of research on the mechanisms of neurodegeneration in Alzheimer’s disease (AD) and related tauopathies. Here, we developed a new class of tau ligands, phenyl/pyridinyl-butadienyl-benzothiazoles/benzothiazoliums (PBBs), for visualizing diverse tau inclusions in brains of living patients with AD or non-AD tauopathies and animal models of these disorders. In vivo optical and positron emission tomographic (PET) imaging of a transgenic mouse model demonstrated sensitive detection of tau inclusions by PBBs. A pyridinated PBB, [11C]PBB3 was next applied in a clinical PET study, and its robust signal in the AD hippocampus wherein tau pathology is enriched contrasted strikingly with that of a senile plaque radioligand, [11C]Pittsburgh Compound-B ([11C]PIB). [11C]PBB3-PET data were also consistent with the spreading of tau pathology with AD progression. Furthermore, increased [11C]PBB3 signals were found in a corticobasal syndrome patient negative for [11C]PIB-PET.

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Synapse Loss and Microglial Activation Precede Tangles in a P301S Tauopathy Mouse Model

Yoshiyama¹,

Higuchi²,

Zhang³

et al. 2007

Neuron

377

617

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Linearized Reference Tissue Parametric Imaging Methods: Application to [¹¹C]DASB Positron Emission Tomography Studies of the Serotonin Transporter in Human Brain

Ichise

Liow

et al. 2003

J Cereb Blood Flow Metab

583

547

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The authors developed and applied two new linearized reference tissue models for parametric images of binding potential ( BP) and relative delivery ( R1) for [11C]DASB positron emission tomography imaging of serotonin transporters in human brain. The original multilinear reference tissue model (MRTMO) was modified (MRTM) and used to estimate a clearance rate ( k′2) from the cerebellum (reference). Then, the number of parameters was reduced from three (MRTM) to two (MRTM2) by fixing k′2. The resulting BP and R1 estimates were compared with the corresponding nonlinear reference tissue models, SRTM and SRTM2, and one-tissue kinetic analysis (1TKA), for simulated and actual [11C]DASB data. MRTM gave k′2 estimates with little bias (<1%) and small variability (<6%). MRTM2 was effectively identical to SRTM2 and 1TKA, reducing BP bias markedly over MRTMO from 12–70% to 1–4% at the expense of somewhat increased variability. MRTM2 substantially reduced BP variability by a factor of two or three over MRTM or SRTM. MRTM2, SRTM2, and 1TKA had R1 bias <0.3% and variability at least a factor of two lower than MRTM or SRTM. MRTM2 allowed rapid generation of parametric images with the noise reductions consistent with the simulations. Rapid parametric imaging by MRTM2 should be a useful method for human [11C]DASB positron emission tomography studies.

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Tetsuya Suhara

Consensus Nomenclature for in vivo Imaging of Reversibly Binding Radioligands

Synapse Loss and Microglial Activation Precede Tangles in a P301S Tauopathy Mouse Model

Imaging of Tau Pathology in a Tauopathy Mouse Model and in Alzheimer Patients Compared to Normal Controls

Synapse Loss and Microglial Activation Precede Tangles in a P301S Tauopathy Mouse Model

Linearized Reference Tissue Parametric Imaging Methods: Application to [¹¹C]DASB Positron Emission Tomography Studies of the Serotonin Transporter in Human Brain

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Tetsuya Suhara

Consensus Nomenclature for in vivo Imaging of Reversibly Binding Radioligands

Synapse Loss and Microglial Activation Precede Tangles in a P301S Tauopathy Mouse Model

Imaging of Tau Pathology in a Tauopathy Mouse Model and in Alzheimer Patients Compared to Normal Controls

Synapse Loss and Microglial Activation Precede Tangles in a P301S Tauopathy Mouse Model

Linearized Reference Tissue Parametric Imaging Methods: Application to [11C]DASB Positron Emission Tomography Studies of the Serotonin Transporter in Human Brain

Contact Info

Product

Resources

About

Linearized Reference Tissue Parametric Imaging Methods: Application to [¹¹C]DASB Positron Emission Tomography Studies of the Serotonin Transporter in Human Brain