Alteration of mTOR signaling occurs early in the progression of Alzheimer disease (AD): analysis of brain from subjects with pre‐clinical AD, amnestic mild cognitive impairment and late‐stage AD

Tramutola, Antonella; Triplett, Judy C.; Domenico, Fabio Di; Niedowicz, Dana M.; Murphy, Michael P.; Coccia, Raffaella; Perluigi, Marzia; Butterfield, D. Allan

doi:10.1111/jnc.13037

Cited by 272 publications

(219 citation statements)

References 52 publications

(70 reference statements)

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“…AD and DS neuropathology are characterized by increased OS and the concomitant impairment of the mTOR/autophagy axis [5,31]. In particular, DS patients demonstrated the early mTOR hyperactivation within the brain coupled with the impairment of autophagy, insulin cascade and increased amyloid-β load suggesting that all these events could trigger the appearance of AD symptoms in DS [21,32].…”

Section: Discussionmentioning

confidence: 99%

Increased Mammalian Target of Rapamycin Signaling Contributes to the Accumulation of Protein Oxidative Damage in a Mouse Model of Down's Syndrome

et al. 2015

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Background: Neurodegenerative diseases are characterized by increased levels of oxidative stress and an altered mammalian target of rapamycin (mTOR)/autophagy axis; however, the mutual relationship between these two events is controversial. Previous studies in Down's syndrome (DS) and Alzheimer's disease (AD) suggested that the accumulation of protein oxidative damage results from the increased free radical production, mainly related to metabolic alterations, mitochondrial degeneration and amyloid-β deposition, and aberrant activity of protein degradative systems. Summary: This study analyzed mTOR signaling in Ts65Dn mice, a model of DS, at 6 and 12 months of age compared with euploid mice showing the early aberrant hyperphosphorylation of mTOR coupled with the reduction of autophagosome formation. Moreover, the evaluation of protein oxidation shows an increase in protein nitration and protein-bound 4-hydroxynonenal in 12-month-old Ts65Dn mice suggesting the potential involvement of altered autophagy in the buildup of protein oxidative damage. In addition, data obtained on cell culture support the protective role of autophagy in reducing protein oxidation. Key Messages: Overall, this study provides further evidence for the role of mTOR hyperactivation and reduced autophagy in the accumulation of protein oxidative damage during DS and AD pathologies.

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Section: Discussionmentioning

confidence: 99%

Increased Mammalian Target of Rapamycin Signaling Contributes to the Accumulation of Protein Oxidative Damage in a Mouse Model of Down's Syndrome

et al. 2015

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“…In the meantime, mTORC1 inhibits autophagy, an essential protein-degradation and recycling system [52] ; for example, PI3K-Akt-mTOR is associated with autophagy impairment and is impaired in mild cognitive impairment and AD [53] . mTOR regulates both neuroprotective (via autophagy) and neuroregenerative (via protein synthesis) functions in various diseases of the central nervous system [42] .…”

Section: Autophagy-related Pathways In Depressionmentioning

confidence: 99%

Molecular network of neuronal autophagy in the pathophysiology and treatment of depression

Jia

Le²

2015

Neurosci. Bull.

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Major depressive disorder (MDD) is a complicated multifactorial induced disease, characterized by depressed mood, anhedonia, fatigue, and altered cognitive function. Recently, many studies have shown that antidepressants regulate autophagy. In fact, autophagy, a conserved lysosomal degradation pathway, is essential for the central nervous system. Dysregulation of autophagic pathways, such as the mammalian target of rapamycin (mTOR) signaling pathway and the beclin pathway, has been studied in neurodegenerative diseases. However, autophagy in MDD has not been fully studied. Here, we discuss whether the dysregulation of autophagy contributes to the pathophysiology and treatment of MDD and summarize the current evidence that shows the involvement of autophagy in MDD.

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“…Maintaining and controlling protein synthesis are the primary roles of mTORC1, whereas the role of mTORC2 is less clearly perceived [45]. While activation of mTORC1 will further phosphorylates/activates p70 ribosomal S6 protein kinase (p70S6K) and protein synthesis, its inhibition activates autophagy machinery to eliminate damaged components and save energy for stressful conditions [46]. Thus, due to the central role of mTOR in several signaling pathways, it is implicated in the pathogenesis of diseases in which growth and homeostasis are compromised, e.g.…”

Section: Protein and Amino Acidsmentioning

confidence: 99%

Nutritional supplementations and administration considerations for sarcopenia in older adults

Farshidfar

Shulgina

Myrie

2016

NUA

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Abstract. Sarcopenia is a progressive degenerative disorder affecting ≥40% of older adults over the age of 70 years. It is characterized by involuntary muscle loss leading to functional disability, weakness, and frailty in the elderly. Numerous mechanisms have been suggested as potential contributors to sarcopenia onset, including anorexia of aging, protein imbalances, and oxidative stress. While consensus preventive and management approaches for sarcopenia are not yet clearly defined, it is unquestionable that nutrition plays a critical role. This review focuses on the more widely studied, potent nutrients used to attenuate sarcopenia: protein/amino acids, vitamin D and calcium, antioxidants and omega-3 fatty acids. In efforts to achieve optimum delivery of these nutrients to target tissues in older adults it is important to also consider the issue of compromised digestive system that occurs with aging, which will contribute to suboptimal nutrients absorption and utilization. Therefore, this review aims to summarize key sarcopenia-attenuating nutrients and to distinguish for each identified nutrient whether a dietary or a supplemental form is the most effective therapy for nutrient delivery in sarcopenic older adults.

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Alteration of mTOR signaling occurs early in the progression of Alzheimer disease (AD): analysis of brain from subjects with pre‐clinical AD, amnestic mild cognitive impairment and late‐stage AD

Cited by 272 publications

References 52 publications

Increased Mammalian Target of Rapamycin Signaling Contributes to the Accumulation of Protein Oxidative Damage in a Mouse Model of Down's Syndrome

Increased Mammalian Target of Rapamycin Signaling Contributes to the Accumulation of Protein Oxidative Damage in a Mouse Model of Down's Syndrome

Molecular network of neuronal autophagy in the pathophysiology and treatment of depression

Nutritional supplementations and administration considerations for sarcopenia in older adults

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