Lactic Acid Induces Aberrant Amyloid Precursor Protein Processing by Promoting Its Interaction with Endoplasmic Reticulum Chaperone Proteins

Xiang, Yiwen; Xu, Guilian; Aken, Kirsten A. K. Weigel-Van

doi:10.1371/journal.pone.0013820

Cited by 22 publications

(14 citation statements)

References 29 publications

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“…CoA is also a purinergic negative modulator of neuronal acetylcholine release (Cook, Hamilton, & Okwuasaba, ), which is itself impaired in AD (Corkin, ; Richter et al, ). Similarly, alteration of CoA metabolism and its flux through oxidative phosphorylation may reflect alternative and/or compensatory bioenergetic strategies to metabolic stress and insult (Xiang, Xu, & Weigel‐Van Aken, ).…”

Section: Discussionmentioning

confidence: 99%

“…This figure reflects the relevant findings of this study and the biochemical pathways implicated in DS-AD. The pathway interactions suggest a shift in energy metabolism in DS-AD from oxidative phosphorylation to alternate, less efficient means of energy production which may have broad effects on cell membrane integrity, synaptic plasticity, and oxidative stress of CoA metabolism and its flux through oxidative phosphorylation may reflect alternative and/or compensatory bioenergetic strategies to metabolic stress and insult (Xiang, Xu, & Weigel-Van Aken, 2010).…”

Section: T a B L E 2 Metabolic Pathwaysmentioning

confidence: 99%

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Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Groß

Doran

Cheema

et al. 2019

Developmental Neurobiology

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Down syndrome (DS) is a well‐known neurodevelopmental disorder most commonly caused by trisomy of chromosome 21. Because individuals with DS almost universally develop heavy amyloid burden and Alzheimer's disease (AD), biomarker discovery in this population may be extremely fruitful. Moreover, any AD biomarker in DS that does not directly involve amyloid pathology may be of high value for understanding broader mechanisms of AD generalizable to the neurotypical population. In this retrospective biomarker discovery study, we examined banked peripheral plasma samples from 78 individuals with DS who met clinical criteria for AD at the time of the blood draw (DS‐AD) and 68 individuals with DS who did not (DS‐NAD). We measured the relative abundance of approximately 5,000 putative features in the plasma using untargeted mass spectrometry (MS). We found significantly higher levels of a peak putatively annotated as lactic acid in the DS‐AD group (q = .014), a finding confirmed using targeted MS (q = .011). Because lactate is the terminal product of glycolysis and subsequent lactic acid fermentation, we performed additional targeted MS focusing on central carbon metabolism which revealed significantly increased levels of pyruvic (q = .03) and methyladipic (q = .03) acids in addition to significantly lower levels of uridine (q = .007) in the DS‐AD group. These data suggest that AD in DS is accompanied by a shift from aerobic respiration toward the less efficient fermentative metabolism and that bioenergetically derived metabolites observable in peripheral blood may be useful for detecting this shift.

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Section: Discussionmentioning

confidence: 99%

Section: T a B L E 2 Metabolic Pathwaysmentioning

confidence: 99%

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Groß

Doran

Cheema

et al. 2019

Developmental Neurobiology

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“…Recently, cell-based studies have demonstrated that incubation of cultured cells with lactic acid induces aberrant amyloid precursor protein processing to increase Aβ40 and 42 peptides (Xiang et al, 2010) and enhances AMPK activation (Chen et al, 2010a). Besides, H 2 O 2 treatment of SH-SY5Y cells was shown to cause not only oxidative stress but also AMPK activation, and such oxidative stress was protected by decreasing AMPK level via gene knockdown (Chen et al, 2010b).…”

Section: Introductionmentioning

confidence: 99%

Adenosine monophosphate-activated protein kinase overactivation leads to accumulation of α-synuclein oligomers and decrease of neurites

Jiang

Ming

Ebrahim

et al. 2013

Neurobiology of Aging

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Neuronal inclusions of α-synuclein (α-syn), termed Lewy bodies, are a hallmark of Parkinson disease (PD). Increased α-syn levels can occur in brains of aging human and neurotoxin treated mice. Since previous studies have shown increased brain lactate levels in aging brains, in PD affected subjects when compared to age-matched controls, and in mice treated with MPTP, we tested the effects of lactate exposure on α-syn in a cell based-study. We demonstrated that (i) lactate treatment led to α-syn accumulation and oligomerization in a time- and concentration-dependent manner, (ii) such alterations were mediated via adenosine-monophosphate activated protein kinase (AMPK) and associated with increasing cytoplasmic phosphorylated AMPK levels, (iii) AMPK activation facilitated α-syn accumulation and phosphorylation, (iv) lactate treatment or overexpression of active form of AMPK decreased α-syn turnover and neurite outgrowth and (v) Lewy body-bearing neurons displayed abnormal cytoplasmic distribution of phosphorylated AMPK, which normally is located in nuclei. Together, our results suggest that chronic neuronal accumulation of α-syn induced by lactate-triggered AMPK activation in aging brains may be a novel mechanism underlying α-synucleionpathies in PD and related disorders.

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“…Aluminium-induced activation of glial cells (Elizabeth et al, 2020) causes conformational changes in neuroenergetics during neuroinflammation by shunting more pyruvate for glycolytic conversion to lactate (Mason, 2017), thereby availing more ATP to reactive astrocyte. Despite the advantage of the metabolic reprogramming, sustained lactate accumulation has been documented to exacerbate amyloidogenesis by promoting molecular interaction between endoplasmic reticulum chaperone and APP (Xiang et al, 2010), which may explain the increase argentophilic bodies around the soma of corticohippocampal neurons. Increase lactate activity, as induced by aluminium in this study, has also been reported to be an indicator of cellular hypoxia and promote cell death (Firth et al, 1995;Koukourakis et al, 2003;Rama Rao and Kielian, 2015), which may justify the observed perturbed corticohippocampal histomorphology.…”

Section: Discussionmentioning

confidence: 99%

Corticohippocampal Neuroenergetics and histomorphology in aluminium-induced neurotoxicity: Putative therapeutic roles of ascorbic acid and nicotine

Gbadamosi

Omotoso

2020

Preprint

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Alzheimer's disease is the most common cause of dementia and is hallmarked by β-amyloid plaque and neurofibrillary tangles deposition in the CNS. The complex mechanism that underlies AD pathogenesis has made the development of a definitive cure futile. Exploring the possible therapeutic advantages of combining two neuromodulatory molecules with different mechanisms of neuroprotection is an interesting way of drug discovery. Ascorbic acid (AA), a potent antioxidant molecule, and nicotine (NIC), an allosteric modulator of nAChRs, have both been documented to independently proffer neuroprotection in experimental and clinical neurodegenerative cases. This study elucidated the putative therapeutic advantages of combining ascorbic acid and nicotine as a treatment regimen against the aluminium induced anxiety, corticohippocampal histopathology and perturbed neuroenergetics in rats induced with Alzheimer-like neuropathology Rats treated with 100 mg/kg aluminium chloride for 28 days presented with significantly increased stretch attend posture frequency and centre square entry. Aluminium significantly depleted the activities of G6PDH while increasing lactate levels. Corticohippocampal histomorphology of these animals showed poor histoarchitecture, increased congophilic and argentophilic densities that were coupled with increased anti-NSE immunopositivity. Animals post-treated with NIC (10mg/kg) and AA (100mg/kg) for 28 days presented with reduced anxiety level and improved corticohippocampal histomorphology. AA normalized G6PDH and lactate levels while the congophilic density was reduced by NIC. Corticohippocampal argentophilic density anti-NSE immunopositivity were also normalized by AA+NIC. The findings from this study have shown that a combination of ascorbic acid and nicotine effectively mitigated aluminium-induced corticohippocampal neuropathology and perturbed neuroenergetics.

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Lactic Acid Induces Aberrant Amyloid Precursor Protein Processing by Promoting Its Interaction with Endoplasmic Reticulum Chaperone Proteins

Cited by 22 publications

References 29 publications

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Adenosine monophosphate-activated protein kinase overactivation leads to accumulation of α-synuclein oligomers and decrease of neurites

Corticohippocampal Neuroenergetics and histomorphology in aluminium-induced neurotoxicity: Putative therapeutic roles of ascorbic acid and nicotine

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