Broadening the definition of brain insulin resistance in aging and Alzheimer's disease

Frazier, Hilaree N.; Ghoweri, Adam O.; Anderson, Katie L.; Lin, Ruei‐Lung; Porter, Nada M.; Thibault, Olivier

doi:10.1016/j.expneurol.2018.12.007

Cited by 56 publications

(50 citation statements)

References 130 publications

(162 reference statements)

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“…In particular, we expect to demonstrate that exercise and mindfulness training impact physiological processes related to aging, 85 such as insulin sensitivity, inflammation, and stress hormone levels. [86][87][88] We will also test whether brain structural and functional changes mediate the cognitive benefits of the interventions on neuropsychological performance and behavioral measures of everyday functioning. This study has considerable clinical implications because of its potential to establish the use of behavioral interventions to preserve cognitive function and independence in older adults.…”

Section: Limitations Of the Studymentioning

confidence: 99%

Mindfulness, Education, and Exercise for age-related cognitive decline: Study protocol, pilot study results, and description of the baseline sample

et al. 2020

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Background/Aims Age-related cognitive decline is a pervasive problem in our aging population. To date, no pharmacological treatments to halt or reverse cognitive decline are available. Behavioral interventions, such as physical exercise and Mindfulness-Based Stress Reduction, may reduce or reverse cognitive decline, but rigorously designed randomized controlled trials are needed to test the efficacy of such interventions. Methods Here, we describe the design of the Mindfulness, Education, and Exercise study, an 18-month randomized controlled trial that will assess the effect of two interventions—mindfulness training plus moderate-to-vigorous intensity exercise or moderate-to-vigorous intensity exercise alone—compared with a health education control group on cognitive function in older adults. An extensive battery of biobehavioral assessments will be used to understand the mechanisms of cognitive remediation, by using structural and resting state functional magnetic resonance imaging, insulin sensitivity, inflammation, and metabolic and behavioral assessments. Results We provide the results from a preliminary study (n = 29) of non-randomized pilot participants who received both the exercise and Mindfulness-Based Stress Reduction interventions. We also provide details on the recruitment and baseline characteristics of the randomized controlled trial sample (n = 585). Conclusion When complete, the Mindfulness, Education, and Exercise study will inform the research community on the efficacy of these widely available interventions improve cognitive functioning in older adults.

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Section: Limitations Of the Studymentioning

confidence: 99%

Mindfulness, Education, and Exercise for age-related cognitive decline: Study protocol, pilot study results, and description of the baseline sample

et al. 2020

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“…In vitro analysis has also found, for example, that IGF signaling can be neuroprotective in response to injury, but can also promote epileptogenesis [42]. Insulin peptide signaling may also play a role in Alzheimer's Disease (AD) [6]. Although the role for insulin signaling in the brain is still unclear, levels of insulin and insulin receptors are markedly decreased in the brains of AD patients.…”

Section: Plos Onementioning

confidence: 99%

Neuronal transcriptome analyses reveal novel neuropeptide modulators of excitation and inhibition imbalance in C. elegans

2020

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Neuropeptides are secreted molecules that have conserved roles modulating many processes, including mood, reproduction, and feeding. Dysregulation of neuropeptide signaling is also implicated in neurological disorders such as epilepsy. However, much is unknown about the mechanisms regulating specific neuropeptides to mediate behavior. Here, we report that the expression levels of dozens of neuropeptides are up-regulated in response to circuit activity imbalance in C. elegans. acr-2 encodes a homolog of human nicotinic receptors, and functions in the cholinergic motoneurons. A hyperactive mutation, acr-2(gf), causes an activity imbalance in the motor circuit. We performed cell-type specific transcriptomic analysis and identified genes differentially expressed in acr-2(gf), compared to wild type. The most over-represented class of genes are neuropeptides, with insulin-like-peptides (ILPs) the most affected. Moreover, up-regulation of neuropeptides occurs in motoneurons, as well as sensory neurons. In particular, the induced expression of the ILP ins-29 occurs in the BAG neurons, which were previously shown to function in gas-sensing. We also show that this up-regulation of ins-29 in acr-2(gf) animals is activity-dependent. Our genetic and molecular analyses support cooperative effects for ILPs and other neuropeptides in promoting motor circuit activity in the acr-2(gf) background. Together, this data reveals that a major transcriptional response to motor circuit dysregulation is in up-regulation of multiple neuropeptides, and suggests that BAG sensory neurons can respond to intrinsic activity states to feedback on the motor circuit.

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“…Insulin also potentiates NMDA receptor activity via delivery of NMDA receptors to the cell surface [ 97 ] and NMDA receptor phosphorylation [ 98 ], processes that may induce long-lasting meta-plastic changes. In addition to effects on synaptic plasticity [ 99 ], there is some evidence that insulin benefits regional brain glucose uptake by activating the neuronal glucose transporter type 4 and enhances glycogen uptake in regions such as the basal forebrain, hippocampus, amygdala, and cortex [ 100 , 101 ] (for reviews see [ 102 , 103 ]), in particular under conditions of high cognitive demand [ 104 , 105 ]. In experiments in healthy humans relying on 18 F-fluorodeoxyglucose positron emission tomography (FDG-PET) measurements during intravenous insulin infusion while endogenous insulin production was suppressed by somatostatin, whole-brain glucose utilization was found to be stimulated by insulin [ 106 ], whereas experiments using 1 H-magnetic resonance spectroscopy yielded no effect of insulin infusion on brain glucose [ 14 ].…”

Section: Intranasal Insulin and Memorymentioning

confidence: 99%

Intranasal Insulin for Alzheimer’s Disease

Hallschmid

2021

CNS Drugs

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Brain insulin signaling contributes to memory function and might be a viable target in the prevention and treatment of memory impairments including Alzheimer’s disease. This short narrative review explores the potential of central nervous system (CNS) insulin administration via the intranasal pathway to improve memory performance in health and disease, with a focus on the most recent results. Proof-of-concept studies and (pilot) clinical trials in individuals with mild cognitive impairment or Alzheimer’s disease indicate that acute and prolonged intranasal insulin administration enhances memory performance, and suggest that brain insulin resistance is a pathophysiological factor in Alzheimer’s disease with or without concomitant metabolic dysfunction. Intranasally administered insulin is assumed to trigger improvements in synaptic plasticity and regional glucose uptake as well as alleviations of Alzheimer’s disease neuropathology; additional contributions of changes in hypothalamus-pituitary-adrenocortical axis activity and sleep-related mechanisms are discussed. While intranasal insulin delivery has been conclusively demonstrated to be effective and safe, the recent outcomes of large-scale clinical studies underline the need for further investigations, which might also yield new insights into sex differences in the response to intranasal insulin and contribute to the optimization of delivery devices to grasp the full potential of intranasal insulin for Alzheimer’s disease.

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Broadening the definition of brain insulin resistance in aging and Alzheimer's disease

Cited by 56 publications

References 130 publications

Mindfulness, Education, and Exercise for age-related cognitive decline: Study protocol, pilot study results, and description of the baseline sample

Mindfulness, Education, and Exercise for age-related cognitive decline: Study protocol, pilot study results, and description of the baseline sample

Neuronal transcriptome analyses reveal novel neuropeptide modulators of excitation and inhibition imbalance in C. elegans

Intranasal Insulin for Alzheimer’s Disease

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