[18F]FDG PET/CT Studies in Transgenic Hualpha-Syn (A53T) Parkinson’s Disease Mouse Model of α-Synucleinopathy

Mondal, Rommani; Campoy, Anthony-David Tawatao; Liang, Christopher

doi:10.3389/fnins.2021.676257

Cited by 15 publications

(17 citation statements)

References 26 publications

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“…At follow-up, clusters encompassed large portions of the bilateral SN 29 , supporting our previous conclusion that they represent metabolic consequences of cell loss in high energy consuming populations. Hypometabolism in the midbrain or specifically SN has also been reported recently in FDG-PET studies in animal models of PD 30 , 31 . Strikingly, our results indicate shifts of hypometabolism towards the medial and ventral SN, which degenerate after the lateroventral parts 32 .…”

Section: Discussionsupporting

confidence: 53%

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

Steidel

Ruppert

Greuel

et al. 2022

npj Parkinsons Dis.

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The prevailing network perspective of Parkinson’s disease (PD) emerges not least from the ascending neuropathology traceable in histological studies. However, whether longitudinal in vivo correlates of network degeneration in PD can be observed remains unresolved. Here, we applied a trimodal imaging protocol combining 18F-fluorodeoxyglucose (FDG)- and 18F-fluoro-L-Dopa- (FDOPA)-PET with resting-state functional MRI to assess longitudinal changes in midbrain metabolism, striatal dopamine depletion and striatocortical dysconnectivity in 17 well-characterized PD patients. Whole-brain (un)paired-t-tests with focus on midbrain or striatum were performed between visits and in relation to 14 healthy controls (HC) in PET modalities. Resulting clusters of FDOPA-PET comparisons provided volumes for seed-based functional connectivity (FC) analyses between visits and in relation to HC. FDG metabolism in the left midbrain decreased compared to baseline along with caudatal FDOPA-uptake. This caudate cluster exhibited a longitudinal FC decrease to sensorimotor and frontal areas. Compared to healthy subjects, dopamine-depleted putamina indicated stronger decline in striatocortical FC at follow-up with respect to baseline. Increasing nigrostriatal deficits and striatocortical decoupling were associated with deterioration in motor scores between visits in repeated-measures correlations. In summary, our results demonstrate the feasibility of in-vivo tracking of progressive network degeneration using a multimodal imaging approach. Specifically, our data suggest advancing striatal and widespread striatocortical dysfunction via an anterior-posterior gradient originating from a hypometabolic midbrain cluster within a well-characterized and only mild to moderately affected PD cohort during a relatively short period.

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Section: Discussionsupporting

confidence: 53%

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

Steidel

Ruppert

Greuel

et al. 2022

npj Parkinsons Dis.

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“…The overall regional brain distribution of [ 18 F]nifene in the non-carrier and A53T PD mice was similar, except that the amounts of bound [ 18 F]nifene in the A53T PD mice was lower. Standard uptake values (SUV) of [ 18 F]nifene were computed for the various brain regions in the non-carrier mice and the A53T PD mice using our previously reported mouse brain template [ 23 ]. Ratio of SUV of A53T PD mice over the non-carrier mice for various brain regions are shown in Figure 7 G. Several brain regions exhibited greater than 20% reductions in [ 18 F]nifene binding in the A53T PD mice brains.…”

Section: Resultsmentioning

confidence: 99%

“…The Hualpha-Syn ((A53T) PD mice have been shown to accumulate α-synuclein aggregates in these brain regions and spinal cord, potentially affecting other neurotransmitter receptor systems [ 30 ], resulting in motoric and nonmotoric deficits. Our previous [ 18 F]FDG PET/CT studies in these Hualpha-Syn ((A53T) PD mice also observed significant metabolic deficits in these brain regions and spinal cord, contributing to hind limb muscle hypometabolism and leading to hind limb paralysis [ 23 ].…”

Section: Discussionmentioning

confidence: 99%

“…Several transgenic mice models of α-synucleinopathy allow the study of PD progression [ 22 ]. Using PET/CT studies in Hualpha-Syn(A53T) α-synuclein mutant mice, we recently reported [ 18 F]FDG brain deficits, limb muscle deficits and reduction of metabolic activity in regions of the spinal cord [ 23 ]. These findings are consistent with the increased α-synuclein expression in the Hualpha-Syn(A53T) transgenic mice and spontaneously develop neurodegenerative disease between nine to 16 months of age [ 24 , 25 ].…”

Section: Introductionmentioning

confidence: 99%

“…Similar to human PD, neuronal abnormalities include pathological accumulations of α-synuclein and ubiquitin and Lewy body inclusions in neurons, with profound deficits in their motor neurons resulting in paralysis [ 22 ]. Our preliminary findings suggested hypometabolism in the lower spinal cord suggesting degeneration as a probable cause for the paralysis [ 23 ]. The Hualpha-Syn(A53T) mice also develop fine, sensorimotor, and synaptic deficits before developing age-related gross motor and cognitive impairment [ 25 ].…”

Section: Introductionmentioning

confidence: 99%

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[18F]Nifene PET/CT Imaging in Mice: Improved Methods and Preliminary Studies of α4β2* Nicotinic Acetylcholinergic Receptors in Transgenic A53T Mouse Model of α-Synucleinopathy and Post-Mortem Human Parkinson’s Disease

et al. 2021

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We report [18F]nifene binding to α4β2* nicotinic acetylcholinergic receptors (nAChRs) in Parkinson’s disease (PD). The study used transgenic Hualpha-Syn(A53T) PD mouse model of α-synucleinopathy for PET/CT studies in vivo and autoradiography in vitro. Additionally, postmortem human PD brain sections comprising of anterior cingulate were used in vitro to assess translation to human studies. Because the small size of mice brain poses challenges for PET imaging, improved methods for radiosynthesis of [18F]nifene and simplified PET/CT procedures in mice were developed by comparing intravenous (IV) and intraperitoneal (IP) administered [18F]nifene. An optimal PET/CT imaging time of 30–60 min post injection of [18F]nifene was established to provide thalamus to cerebellum ratio of 2.5 (with IV) and 2 (with IP). Transgenic Hualpha-Syn(A53T) mice brain slices exhibited 20–35% decrease while in vivo a 20–30% decrease of [18F]nifene was observed. Lewy bodies and α-synuclein aggregates were confirmed in human PD brain sections which lowered the [18F]nifene binding by more than 50% in anterior cingulate. Thus [18F]nifene offers a valuable tool for PET imaging studies of PD.

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Abnormal [¹⁸F]NIFENE binding in transgenic 5xFAD mouse model of Alzheimer's disease: In vivo PET/CT imaging studies of α4β2* nicotinic acetylcholinergic receptors and in vitro correlations with Aβ plaques

Liang

Nguyen

Danh

et al. 2023

Synapse

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Since cholinergic dysfunction has been implicated in Alzheimer's disease (AD), the effects of Aβ plaques on nicotinic acetylcholine receptors (nAChRs) α4β2* subtype were studied using the transgenic 5xFAD mouse model of AD. Using the PET radiotracer [18F]nifene for α4β2* nAChRs, in vitro autoradiography and in vivo PET/CT studies in 5xFAD mice were carried out and compared with wild‐type (C57BL/6) mice. Ratios of [18F]nifene binding in brain regions versus cerebellum (CB) in 5xFAD mice brains were for thalamus (TH) = 17, hippocampus‐subiculum = 7, frontal cortex (FC) = 5.5, and striatum = 4.7. [125I]IBETA and immunohistochemistry (IHC) in 5xFAD brain slices confirmed Aβ plaques. Nicotine and acetylcholine displaced [18F]nifene in 5xFAD mice (IC50 nicotine = 31–73 nM; ACh = 38–83 nM) and C57BL/6 (IC50 nicotine = 16–18 nM; ACh = 34–55 nM). Average [18F]nifene SUVR (CB as reference) in 5xFAD mice was significantly higher in FC = 3.04 compared to C57BL/6 mice FC = 1.92 (p = .001), whereas TH difference between 5xFAD mice (SUVR = 2.58) and C57BL/6 mice (SUVR = 2.38) was not significant. Nicotine‐induced dissociation half life (t1/2) of [18F]nifene for TH were 37 min for 5xFAD mice and 26 min for C57BL/6 mice. Dissociation half life for FC in C57BL/6 mice was 77 min , while no dissociation of [18F]nifene occurred in the medial prefrontal cortex (mFC) of 5xFAD mice. Coregistration of [18F]nifene PET with MR suggested that the mPFC, and anterior cingulate (AC) regions exhibited high uptake in 5xFAD mice compared to C57BL/6 mice. Ex vivo [18F]nifene and in vitro [125I]IBETA Aβ plaque autoradiography after in vivo PET/CT scan of 5xFAD mouse brain were moderately correlated (r2 = 0.68). In conclusion, 5xFAD mice showed increased non‐displaceable [18F]nifene binding in mPFC.

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[18F]FDG PET/CT Studies in Transgenic Hualpha-Syn (A53T) Parkinson’s Disease Mouse Model of α-Synucleinopathy

Cited by 15 publications

References 26 publications

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

[18F]Nifene PET/CT Imaging in Mice: Improved Methods and Preliminary Studies of α4β2* Nicotinic Acetylcholinergic Receptors in Transgenic A53T Mouse Model of α-Synucleinopathy and Post-Mortem Human Parkinson’s Disease

Abnormal [¹⁸F]NIFENE binding in transgenic 5xFAD mouse model of Alzheimer's disease: In vivo PET/CT imaging studies of α4β2* nicotinic acetylcholinergic receptors and in vitro correlations with Aβ plaques

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[18F]FDG PET/CT Studies in Transgenic Hualpha-Syn (A53T) Parkinson’s Disease Mouse Model of α-Synucleinopathy

Cited by 15 publications

References 26 publications

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

Longitudinal trimodal imaging of midbrain-associated network degeneration in Parkinson’s disease

[18F]Nifene PET/CT Imaging in Mice: Improved Methods and Preliminary Studies of α4β2* Nicotinic Acetylcholinergic Receptors in Transgenic A53T Mouse Model of α-Synucleinopathy and Post-Mortem Human Parkinson’s Disease

Abnormal [18F]NIFENE binding in transgenic 5xFAD mouse model of Alzheimer's disease: In vivo PET/CT imaging studies of α4β2* nicotinic acetylcholinergic receptors and in vitro correlations with Aβ plaques

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Abnormal [¹⁸F]NIFENE binding in transgenic 5xFAD mouse model of Alzheimer's disease: In vivo PET/CT imaging studies of α4β2* nicotinic acetylcholinergic receptors and in vitro correlations with Aβ plaques