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Imaging of Reactive Astrogliosis by Positron Emission Tomography

Ryuichi Harada, Shozo Furumoto, Yukitsuka Kudo, Kazuhiko Yanai, Victor L. Villemagne, Nobuyuki Okamura

2022Frontiers in Neuroscience58 citationsDOIOpen Access PDF

Abstract

Many neurodegenerative diseases are neuropathologically characterized by neuronal loss, gliosis, and the deposition of misfolded proteins such as β-amyloid (Aβ) plaques and tau tangles in Alzheimer’s disease (AD). In postmortem AD brains, reactive astrocytes and activated microglia are observed surrounding Aβ plaques and tau tangles. These activated glial cells secrete pro-inflammatory cytokines and reactive oxygen species, which may contribute to neurodegeneration. Therefore, in vivo imaging of glial response by positron emission tomography (PET) combined with Aβ and tau PET would provide new insights to better understand the disease process, as well as aid in the differential diagnosis, and monitoring glial response disease-specific therapeutics. There are two promising targets proposed for imaging reactive astrogliosis: monoamine oxidase-B (MAO-B) and imidazoline 2 binding site (I 2 BS), which are predominantly expressed in the mitochondrial membranes of astrocytes and are upregulated in various neurodegenerative conditions. PET tracers targeting these two MAO-B and I 2 BS have been evaluated in humans. [ 18 F]THK-5351, which was originally designed to target tau aggregates in AD, showed high affinity for MAO-B and clearly visualized reactive astrocytes in progressive supranuclear palsy (PSP). However, the lack of selectivity of [ 18 F]THK-5351 binding to both MAO-B and tau, severely limits its clinical utility as a biomarker. Recently, [ 18 F]SMBT-1 was developed as a selective and reversible MAO-B PET tracer via compound optimization of [ 18 F]THK-5351. In this review, we summarize the strategy underlying molecular imaging of reactive astrogliosis and clinical studies using MAO-B and I 2 BS PET tracers.

Topics & Concepts

Positron emission tomographyAstrogliosisBrain positron emission tomographyPositron emissionTomographyPet imagingNuclear medicinePreclinical imagingMedicineRadiologyInternal medicineBiologyBiotechnologyIn vivoCentral nervous systemTraumatic Brain Injury and Neurovascular DisturbancesCerebrospinal fluid and hydrocephalusMedical Imaging Techniques and Applications
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