Is Alzheimer’s Disease a Liver Disease of the Brain?

Bassendine, Margaret F.; Taylor-Robinson, Simon D; Fertleman, Michael; Khan, Michael; Neely, Dermot

doi:10.3233/jad-190848

Cited by 68 publications

(64 citation statements)

References 125 publications

(134 reference statements)

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“…In the APP NL−F/NL−F mice, the time between 9 and 15 months of age was characterized by a slow and progressive tendency toward thickening of the retina with alternation of thinned retinal sectors, which vary over time and present only statistical significance at 15 months in some sectors of the total retinal thickness (outer and inner rings of inferior sector and inner ring of the temporal sector). These changes could correlate to the brain changes seen in this model at 9 months, when neuronal death was detected by necrosis in the cerebral cortex (Schedin-Weiss et al, 2020 ). At the same time, the effect of microgliosis and astrogliosis are significant in the APP NL−F/NL−F model in the cortex, hippocampus, and subcortical region compared to the WT mice (Masuda et al, 2016 ).…”

Section: Discussionsupporting

confidence: 57%

“…In addition, the accumulation of Aβ is age-dependent from 1 to 18 months (Petrache et al, 2019 ). Aβ brain deposits have been reported at 6 months of age in this AD model (Saito et al, 2014 ), developing first in the hippocampus and then becoming more significant in the cerebral cortex (Schedin-Weiss et al, 2020 ). At 9 months old, there was a significant amount of Aβ plaques in the parenchymal brain, with the Aβ plaque load reaching its maximum at 18 months (Schedin-Weiss et al, 2020 ).…”

Section: Discussionmentioning

confidence: 84%

“…In APP NL−F/NL−F model, at 3 months old, there was no presence of Aβ pathology, although there was already an alteration of the proteome in both the hippocampus and the cortex compared to WT mice. The early increase in Tris-soluble Aβ 42 levels suggests that the pre-symptomatic stages of AD begin before amyloidosis Aβ (Schedin-Weiss et al, 2020 ). In addition, the accumulation of Aβ is age-dependent from 1 to 18 months (Petrache et al, 2019 ).…”

Section: Discussionmentioning

confidence: 99%

“…The findings at this early time may also be secondary to the astrocyte reduction of glutamate synaptic recapture (Li et al, 2009 ) and to the excessive amount of Aβ dimers, as well as the Aβ 1−40 monomers and dimers, which increase the presynaptic release of glutamate (Fogel et al, 2014 ). Therefore, a combination of both causes could increase residual glutamate levels, thereby promoting neuronal hyperactivity, which is a precursor to plaque formation (Busche and Konnerth, 2016 ; Schedin-Weiss et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

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Retinal Thickness Changes Over Time in a Murine AD Model APPNL-F/NL-F

Salobrar‐García

López‐Cuenca

Sánchez-Puebla

et al. 2021

Front. Aging Neurosci.

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Background: Alzheimer's disease (AD) may present retinal changes before brain pathology, suggesting the retina as an accessible biomarker of AD. The present work is a diachronic study using spectral domain optical coherence tomography (SD-OCT) to determine the total retinal thickness and retinal nerve fiber layer (RNFL) thickness in an APPNL−F/NL−F mouse model of AD at 6, 9, 12, 15, 17, and 20 months old compared to wild type (WT) animals.Methods: Total retinal thickness and RNFL thickness were determined. The mean total retinal thickness was analyzed following the Early Treatment Diabetic Retinopathy Study sectors. RNFL was measured in six sectors of axonal ring scans around the optic nerve.Results: In the APPNL−F/NL−F group compared to WT animals, the total retinal thickness changes observed were the following: (i) At 6-months-old, a significant thinning in the outer temporal sector was observed; (ii) at 15-months-old a significant thinning in the inner temporal and in the inner and outer inferior retinal sectors was noticed; (iii) at 17-months-old, a significant thickening in the inferior and nasal sectors was found in both inner and outer rings; and (iv) at 20-months-old, a significant thinning in the inner ring of nasal, temporal, and inferior retina and in the outer ring of superior and temporal retina was seen. In RNFL thickness, there was significant thinning in the global analysis and in nasal and inner-temporal sectors at 6 months old. Thinning was also found in the supero-temporal and nasal sectors and global value at 20 months old.Conclusions: In the APPNL−F/NL−F AD model, the retinal thickness showed thinning, possibly produced by neurodegeneration alternating with thickening caused by deposits and neuroinflammation in some areas of the retina. These changes over time are similar to those observed in the human retina and could be a biomarker for AD. The APPNL−F/NL−F AD model may help us better understand the different retinal changes during the progression of AD.

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Section: Discussionsupporting

confidence: 57%

Section: Discussionmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Retinal Thickness Changes Over Time in a Murine AD Model APPNL-F/NL-F

Salobrar‐García

López‐Cuenca

Sánchez-Puebla

et al. 2021

Front. Aging Neurosci.

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“…Thus, increased peripheral Aβ levels after anti-Aβ treatment was reported to parallel a decrease of brain Aβ; reducing peripheral Aβ was su cient to reduced brain Aβ, and recent studies favor a diagnostic utility of the relationship between plasma and CSF Aβ 1 − 42 [35,48,49]. Thus, the relationship between peripheral and central Aβ is still under debate [50]; indeed, a substantial part of brain Aβ clearance in humans takes place in the periphery [51].…”

Section: Discussionmentioning

confidence: 99%

Circulating insulin-like growth factor I is involved in the effect of diet on peripheral amyloid β clearance

Herrero-Labrador

Trueba-Saiz

Martinez-Rachadell

et al. 2020

Preprint

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BackgroundObesity is a risk factor for Alzheimer´s disease (AD), but underlying mechanisms are not clear.MethodsWe analyzed peripheral clearance of amyloid β (Aβ) in overweight mice because its systemic elimination may impact on brain Aβ load, a major landmark of AD pathology. We also analyzed whether circulating insulin-like growth factor I (IGF-I) intervenes in the effects of overweight as this growth factor modulates brain Aβ clearance, and is increased in serum of overweight mice. Results Overweight mice showed increased peripheral Aβ clearance by the liver, the major site of elimination of systemic Aβ, but unaltered brain Aβ levels. We also found that Aβ clearance by hepatocytes is stimulated by IGF-I, and that mice with low serum IGF-I levels show reduced peripheral Aβ clearance and unchanged brain Aβ levels. In the brain, IGF-I favored association of its receptor (IGF-IR) with Aβ precursor protein (APP), and at the same time stimulated non-amyloidogenic processing of APP in astrocytes, as indicated by an increased sAPPα/sAPPβ ratio after IGF-I treatment. Since serum IGF-I enters into the brain in an activity-dependent manner, we analyzed in overweight mice the effect of brain activation by environmental enrichment (EE) on brain IGF-IR phosphorylation and its association to APP, as a readout of IGF-I activity. After EE, significantly reduced brain IGF-IR phosphorylation and APP/IGF-IR association was found in overweight mice as compared to lean controls. Conclusions Collectively, these results indicate that diet influences peripheral clearance of Aβ without affecting brain Aβ load. Increased serum IGF-I likely contributes to enhanced peripheral Aβ clearance in overweight mice, without affecting brain Aβ clearance probably because its brain entrance is reduced.

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Association of liver fibrosis with cognitive test performance and brain imaging parameters in the UK Biobank study

Parikh

Kamel

Zhang

et al. 2022

Alzheimer's & Dementia

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Introduction:We hypothesized that liver fibrosis is associated with worse cognitive performance and corresponding brain imaging changes. Methods:We examined the association of liver fibrosis with cognition and brain imaging parameters in the UK Biobank study. Liver fibrosis was assessed using the Fibrosis-4 (FIB-4) score. The primary cognitive outcome was the digit symbol substitution test (DSST); secondary outcomes were additional executive function/processing speed and memory tests. Imaging outcomes were hippocampal, total brain, and white matter hyperintensity (WMH) volumes. Results:We included 105,313 participants with cognitive test data, and 41,982 with magnetic resonance imaging (MRI). In adjusted models, liver fibrosis was associated with worse performance on the DSST and tests of executive function but not memory.Liver fibrosis was associated with lower hippocampal and total brain volumes, without compelling association with WMH volume.Discussion: Liver fibrosis is associated with worse performance on select cognitive tests and lower hippocampal and total brain volumes.

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Is Alzheimer’s Disease a Liver Disease of the Brain?

Cited by 68 publications

References 125 publications

Retinal Thickness Changes Over Time in a Murine AD Model APPNL-F/NL-F

Retinal Thickness Changes Over Time in a Murine AD Model APPNL-F/NL-F

Circulating insulin-like growth factor I is involved in the effect of diet on peripheral amyloid β clearance

Association of liver fibrosis with cognitive test performance and brain imaging parameters in the UK Biobank study

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