Assessing Reactive Astrogliosis with <sup>18</sup>F-SMBT-1 Across the Alzheimer Disease Spectrum

Villemagne, Victor L.; Harada, Ryuichi; Doré, Vincent; Furumoto, Shozo; Mulligan, Rachel; Kudo, Yoshihisa; Burnham, Samantha; Krishnadas, Natasha; Bourgeat, Pierrick; Xia, Ying; Laws, Simon M.; Bozinovski, Svetlana; Huang, Kun; Ikonomović, Miloš D.; Fripp, Jürgen; Yanai, Kazuhiko; Okamura, Nobuyuki; Rowe, Christopher C.

doi:10.2967/jnumed.121.263255

Cited by 37 publications

(34 citation statements)

References 57 publications

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“…Astrocyte transcriptome analysis of AD brain tissue revealed gene changes associated with Aβ and pTau pathology in inflammation, protein regulation, oxidative stress, antioxidant function, lipid metabolism, and ion homeostasis (Viejo et al, 2022). Positron emission tomography (PET) and magnetic resonance imaging (MRI) (Choo et al, 2014;Vilemagne et al, 2022a) revealed dynamic changes in reactive astrocytes and Aβ due to mild cognition impairment. At preclinical stages, astrogliosis was induced by early Aβ deposition and loss of gray matter cells (Choo et al, 2014;Vilemagne et al, 2022a), whereas astrocyte atrophy appeared subsequently with greater Aβ deposition (Hsu et al, 2018).…”

Section: Astrocytes and Alzheimer's Diseasementioning

confidence: 99%

“…Positron emission tomography (PET) and magnetic resonance imaging (MRI) (Choo et al, 2014;Vilemagne et al, 2022a) revealed dynamic changes in reactive astrocytes and Aβ due to mild cognition impairment. At preclinical stages, astrogliosis was induced by early Aβ deposition and loss of gray matter cells (Choo et al, 2014;Vilemagne et al, 2022a), whereas astrocyte atrophy appeared subsequently with greater Aβ deposition (Hsu et al, 2018). Astroglia tracer also revealed that reactive astrogliosis increased and reached a peak in preclinical stages of AD, followed by a decrease of astrogliosis and then rise again in dementia stages, exerting neurotoxic functions (Kumar et al, 2021).…”

Section: Astrocytes and Alzheimer's Diseasementioning

confidence: 99%

“…A selective monoamine oxidase-B (MAO-B) tracer is also used to detect reactive astrogliosis since MAO-B is overexpressed in reactive astrocytes. The tracer identified the reactive astrogliosis in mild cognitive impairment (MCI) and AD (Vilemagne et al, 2022b) when compared to controls, and it was detectable at the preclinical stages of Aβ accumulation (Vilemagne et al, 2022a). Markers secreted by reactive astrocytes could also be implemented as a diagnostic tool in patients.…”

Section: Further Prospective Of Astrocytes In Neurodegenerationmentioning

confidence: 99%

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Astrocytes in Neurodegeneration: Inspiration From Genetics

Huang

Shang

2022

Front. Neurosci.

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Despite the discovery of numerous molecules and pathologies, the pathophysiology of various neurodegenerative diseases remains unknown. Genetics participates in the pathogenesis of neurodegeneration. Neural dysfunction, which is thought to be a cell-autonomous mechanism, is insufficient to explain the development of neurodegenerative disease, implying that other cells surrounding or related to neurons, such as glial cells, are involved in the pathogenesis. As the primary component of glial cells, astrocytes play a variety of roles in the maintenance of physiological functions in neurons and other glial cells. The pathophysiology of neurodegeneration is also influenced by reactive astrogliosis in response to central nervous system (CNS) injuries. Furthermore, those risk-gene variants identified in neurodegenerations are involved in astrocyte activation and senescence. In this review, we summarized the relationships between gene variants and astrocytes in four neurodegenerative diseases, including Alzheimer’s disease (AD), amyotrophic lateral sclerosis (ALS), frontotemporal dementia (FTD), and Parkinson’s disease (PD), and provided insights into the implications of astrocytes in the neurodegenerations.

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Section: Astrocytes and Alzheimer's Diseasementioning

confidence: 99%

Section: Astrocytes and Alzheimer's Diseasementioning

confidence: 99%

Section: Further Prospective Of Astrocytes In Neurodegenerationmentioning

confidence: 99%

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Astrocytes in Neurodegeneration: Inspiration From Genetics

Huang

Shang

2022

Front. Neurosci.

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“…Removing senescent glial cells prevented tau-dependent pathology and cognitive decline in PS19 mice [111]. Early astrocytosis has been demonstrated by positron emission tomography tracers in both patients with AD and amyloidosis animal models [112][113][114][115][116][117][118]. Tau accumulates in hilar astrocytes of the dentate gyrus in postmortem brains from patients with AD [119][120][121] and induces neuronal dysfunction and memory deficits in a mouse model [122].…”

Section: Discussionmentioning

confidence: 99%

Aquaporin 4 is differentially increased and depolarized in association with tau and amyloid-beta

Kecheliev

Boss

Maheshwari

et al. 2022

Preprint

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Neurovascular-glymphatic dysfunction plays an important role in Alzheimer’s disease and has been analyzed mainly in association with amyloid-beta (Aβ) pathology. The neurovascular-glymphatic link with tauopathies has not been well elucidated. Here, we aimed to investigate the alterations in the neurovasculature and map the aquaporin 4 (AQP4) distribution and depolarization associated with tau and Aβ. Perfusion, susceptibility weighted imaging and structural magnetic resonance imaging (MRI) were performed in the pR5 P301L mouse model of 4-repeat tau and the arcAβ mouse model of amyloidosis. Immunofluorescence staining was performed using antibodies against AQP4, CD31, astroglia (GFAP, s100β), phospho-tau (AT-8) and Aβ (6E10) in brain tissue slices from P301L, arcAβ and nontransgenic mice. P301L mice showed regional atrophy, preserved cerebral blood flow and reduced cerebral vessel density compared to nontransgenic mice, while arcAβ mice showed cerebral microbleeds and reduced cerebral vessel density. AQP4 depolarization and peri-tau enrichment in the hippocampus and increased AQP4 levels in the forebrain and hippocampus were detected in P301L mice compared to nontransgenic mice. In comparison, cortical AQP4 depolarization and cortical/hippocampal peri-plaque increases were observed in arcAβ mice. Increased s100β-GFAP fluorescence intensities indicative of reactive astrocytes were detected surrounding tau inclusions in P301L mice and Aβ plaques in arcAβ mice. In conclusion, we observed a divergent region-specific AQP4 increase and association with phospho-tau and Aβ pathologies.

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“…Preclinical studies of [ 18 F]SMBT-1 demonstrated that high binding affinity and high binding selectivity to MAO-B with low non-specific binding as well as good PK and metabolic profiles (Harada et al, 2021). Preliminary cross-sectional human PET studies in a wide range of ages are indicating that [ 18 F]SMBT-1 is a selective MAO-B tracer with low non-specific binding, high entry into the brain while displaying favorable reversible kinetics, and have significantly higher binding in Aβ + AD (Figure 4) and Aβ + cognitively unimpaired controls (Villemagne et al, 2022), similarly to what has been reported with plasma GFAP (Verberk et al, 2020;Chatterjee et al, 2021). These findings suggest that reactive astrogliosis as measured by MAO-B through [ 18 F]SMBT-1 is associated with early Aβ accumulation, providing strong support for its use as surrogate marker of astrogliosis.…”

Section: Recent Progress In the Development Of Novel Monoamine Oxidas...mentioning

confidence: 98%

Imaging of Reactive Astrogliosis by Positron Emission Tomography

et al. 2022

Self Cite

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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 imidazoline2 binding site (I2BS), 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 I2BS have been evaluated in humans. [18F]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 [18F]THK-5351 binding to both MAO-B and tau, severely limits its clinical utility as a biomarker. Recently, [18F]SMBT-1 was developed as a selective and reversible MAO-B PET tracer via compound optimization of [18F]THK-5351. In this review, we summarize the strategy underlying molecular imaging of reactive astrogliosis and clinical studies using MAO-B and I2BS PET tracers.

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Assessing Reactive Astrogliosis with ¹⁸F-SMBT-1 Across the Alzheimer Disease Spectrum

Cited by 37 publications

References 57 publications

Astrocytes in Neurodegeneration: Inspiration From Genetics

Astrocytes in Neurodegeneration: Inspiration From Genetics

Aquaporin 4 is differentially increased and depolarized in association with tau and amyloid-beta

Imaging of Reactive Astrogliosis by Positron Emission Tomography

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Assessing Reactive Astrogliosis with 18F-SMBT-1 Across the Alzheimer Disease Spectrum

Cited by 37 publications

References 57 publications

Astrocytes in Neurodegeneration: Inspiration From Genetics

Astrocytes in Neurodegeneration: Inspiration From Genetics

Aquaporin 4 is differentially increased and depolarized in association with tau and amyloid-beta

Imaging of Reactive Astrogliosis by Positron Emission Tomography

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Product

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Assessing Reactive Astrogliosis with ¹⁸F-SMBT-1 Across the Alzheimer Disease Spectrum