Early alteration of the locus coeruleus in phenotypic variants of Alzheimer’s disease

Olivieri, Pauline; Lagarde, Julien; Lehericy, Stéphane; Valabrègue, Romain; Michel, Adeline; Macé, Pierre; Caillé, Fabien; Gervais, Philippe; Bottlaender, Michel; Sarazin, Marie

doi:10.1002/acn3.50818

Cited by 55 publications

(49 citation statements)

References 28 publications

(40 reference statements)

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“…Most of the noradrenergic neurons in the CNS originate from the locus coeruleus (LC) and project to different areas of the brain, such as the cortex, hippocampus, amygdala, thalamus, and hypothalamus 10 . Hyperphosphorylation of Tau protein in the LC appears at an early stage of AD pathogenesis 11 , and the number of neurons in the LC has been shown to progressively decrease during the disease, beginning at the prodromal stage of AD 8,[12][13][14][15][16][17] . Based on the current literature, one of the ideas that has emerged is that the onset of AD is preceded by abnormal hyperactivation of the LC, resulting in oversecretion of NA in the cortex 18 .…”

Section: The Noradrenergic System and Admentioning

confidence: 99%

Correlation between cognition and plasma noradrenaline level in Alzheimer’s disease: a potential new blood marker of disease evolution

et al. 2020

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Recent evidence showing degeneration of the noradrenergic system in the locus coeruleus (LC) in Alzheimer's disease (AD) has motivated great interest in noradrenaline (NA) as a potential brain hallmark of the disease. Despite the current exploration of blood markers for AD, the deregulation of the plasma NA concentration ([NA] plasma) in AD is currently not well understood. This retrospective study includes a cohort of 71 patients (32 AD patients, 22 with other dementia and 17 without dementia) who were given consultations for memory complaints in the Cognitive Neurology Center of Lariboisière (Paris) between 2009 and 2014. As previously described in brain tissue, we show for the first time a linear correlation between [NA] plasma and Mini Mental State Examination (MMSE) score in AD patients. We observed that high [NA] plasma in AD patients was associated with higher [Aβ 1-42 ] CSF than in other AD patients with [NA] plasma similar to NC patients. In parallel, we observed a lower (p-Tau/Tau) CSF in AD patients with low [NA] plasma than in non-AD patients with [NA] plasma similar to [NA] plasma in NC patients. Our data suggest that [NA] plasma could be a potential biomarker of disease evolution in the context of AD and could possibly improve early diagnosis.

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Section: The Noradrenergic System and Admentioning

confidence: 99%

Correlation between cognition and plasma noradrenaline level in Alzheimer’s disease: a potential new blood marker of disease evolution

et al. 2020

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“…LC contrast is lower in AD and PD ( Figure 1E ) ( Sasaki et al, 2006 ; Takahashi et al, 2015 ; Dordevic et al, 2017 ; Wang et al, 2018 ; Betts et al, 2019a ; Olivieri et al, 2019 ). In AD, lower LC contrast is localized to the rostral and middle thirds of the nucleus ( Betts et al, 2019a ), which is in agreement with previous postmortem reports indicating patterned LC volume loss in AD but not PD ( German et al, 1992 ; Theofilas et al, 2017 ).…”

Section: Human Studiesmentioning

confidence: 97%

“…In healthy older adults, higher LC contrast is positively associated with cortical thickness ( Bachman et al, 2020 ), better memory performance ( Hämmerer et al, 2018 ; Dahl et al, 2019 ), and preserved cognition ( Liu et al, 2020 ). Early evidence suggests that even in subjects with typical AD presentation, high LC contrast is associated with better memory performance ( Olivieri et al, 2019 ). These studies are consistent with reports that postmortem LC integrity appears to encode neural reserve and cognitive function during healthy aging ( Robertson, 2013 ; Wilson et al, 2013 ), and LC contrast does correlate with known measures of neural reserve ( Clewett et al, 2016 ).…”

Section: Human Studiesmentioning

confidence: 99%

What’s That (Blue) Spot on my MRI? Multimodal Neuroimaging of the Locus Coeruleus in Neurodegenerative Disease

Kelberman

Keilholz

2020

Front. Neurosci.

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The locus coeruleus (LC) has long been underappreciated for its role in the pathophysiology of Alzheimer’s disease (AD), Parkinson’s disease (PD), and other neurodegenerative disorders. While AD and PD are distinct in clinical presentation, both are characterized by prodromal protein aggregation in the LC, late-stage degeneration of the LC, and comorbid conditions indicative of LC dysfunction. Many of these early studies were limited to post-mortem histological techniques due to the LC’s small size and location deep in the brainstem. Thus, there is a growing interest in utilizing in vivo imaging of the LC as a predictor of preclinical neurodegenerative processes and biomarker of disease progression. Simultaneously, neuroimaging in animal models of neurodegenerative disease holds promise for identifying early alterations to LC circuits, but has thus far been underutilized. While still in its infancy, a handful of studies have reported effects of single gene mutations and pathology on LC function in disease using various neuroimaging techniques. Furthermore, combining imaging and optogenetics or chemogenetics allows for interrogation of network connectivity in response to changes in LC activity. The purpose of this article is twofold: (1) to review what magnetic resonance imaging (MRI) and positron emission tomography (PET) have revealed about LC dysfunction in neurodegenerative disease and its potential as a biomarker in humans, and (2) to explore how animal models can be used to test hypotheses derived from clinical data and establish a mechanistic framework to inform LC-focused therapeutic interventions to alleviate symptoms and impede disease progression.

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“…For the in vivo imaging of the LC, neuromelanin-sensitive MRI protocols were developed ( Keren et al, 2009 ; Priovoulos et al, 2018 ; Sasaki et al, 2006 ) and validated with histology ( Keren et al, 2015 ). These MRI protocols have been applied successfully in various studies to quantify the morphometry and signal intensity changes due to aging ( Betts et al, 2017 ; Clewett et al, 2015 ; Dahl et al, 2019 ; Liu et al, 2019 ) and AD ( Betts et al, 2019 ; Olivieri et al, 2019 ; Takahashi et al, 2015 ). In addition, resting state fMRI (rsfMRI) was applied recently to examine the functional connectivity of LC ( Jacobs et al, 2018b ; Zhang et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

A probabilistic atlas of locus coeruleus pathways to transentorhinal cortex for connectome imaging in Alzheimer's disease

Sun

Tang²,

Qiao

et al. 2020

NeuroImage

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Early alteration of the locus coeruleus in phenotypic variants of Alzheimer’s disease

Cited by 55 publications

References 28 publications

Correlation between cognition and plasma noradrenaline level in Alzheimer’s disease: a potential new blood marker of disease evolution

Correlation between cognition and plasma noradrenaline level in Alzheimer’s disease: a potential new blood marker of disease evolution

What’s That (Blue) Spot on my MRI? Multimodal Neuroimaging of the Locus Coeruleus in Neurodegenerative Disease

A probabilistic atlas of locus coeruleus pathways to transentorhinal cortex for connectome imaging in Alzheimer's disease

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