Casey Berridge scite author profile

In Alzheimer's disease (AD), a decline in explicit memory is one of the earliest signs of disease and is associated with hippocampal dysfunction. Amyloid protein exerts a disruptive impact on neuronal function, but the specific effects on hippocampal network activity are not well known. In this study, fast voltage-sensitive dye imaging and extracellular and whole-cell electrophysiology were used on entorhinal cortical-hippocampal slice preparations to characterize hippocampal network activity in 12–16 month old female APPswe/PSEN1DeltaE9 (APdE9 mice) mice. Aged APdE9 mice exhibited profound disruptions in dentate gyrus circuit activation. High frequency stimulation of the perforant pathway in the dentate gyrus (DG) area of APdE9 mouse tissue evoked abnormally large field potential responses corresponding to the wider neural activation maps. Whole-cell patch clamp recordings of the identified inhibitory interneurons in the molecular layer of DG revealed that they fail to reliably fire action potentials. Taken together, abnormal DG excitability and an inhibitory neuron failure to generate action potentials are suggested to be important contributors to the underlying cellular mechanisms of early-stage Alzheimer's disease pathophysiology.

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A novel function for proSAAS as an amyloid anti‐aggregant in Alzheimer's disease

Hoshino

Helwig

Rezaei

et al. 2013

Journal of Neurochemistry

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Neurodegenerative diseases such as Alzheimer's (AD) are characterized by an abnormal aggregation of misfolded beta-sheet rich proteins such as β-amyloid (Aβ). Various ubiquitously-expressed molecular chaperones control the correct folding of cellular proteins and prevent the accumulation of harmful species. We here describe a novel anti-aggregant chaperone function for the neuroendocrine protein proSAAS, an abundant secretory polypeptide that is widely expressed within neural and endocrine tissues and which has previously been associated with neurodegenerative disease in various proteomics studies. In the brains of 12-month old APdE9 mice, and in the cortex of a human AD-affected brain, proSAAS immunoreactivity was highly colocalized with amyloid pathology. Immunoreactive proSAAS co-immunoprecipitated with Aβ immunoreactivity in lysates from APdE9 mouse brains. In vitro, proSAAS efficiently prevented the fibrillation of Aβ1-42 at molar ratios of 1:10, and this anti-aggregation effect was dose-dependent. Structure-function studies showed that residues 97-180 were sufficient for the anti-aggregation function against Aβ. Finally, inclusion of recombinant proSAAS in the medium of Neuro2a cells, as well as lentiviral-mediated proSAAS overexpression, blocked the neurocytotoxic effect of Aβ1-42 in Neuro2a cells. Taken together, our results suggest that proSAAS may play a role in Alzheimer's disease pathology.

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The Neuroendocrine Protein 7B2 Suppresses the Aggregation of Neurodegenerative Disease-related Proteins

Helwig

Hoshino

Berridge

et al. 2013

Journal of Biological Chemistry

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Background: The neuroendocrine protein 7B2 blocks the aggregation of certain secreted proteins.Results: 7B2 co-localizes with protein aggregates in Parkinson and Alzheimer disease brains; blocks the fibrillation of Aβ1–40, Aβ1–42, and α-synuclein; and blocks Aβ1–42-induced Neuro-2A cell death.Conclusion: 7B2 inhibits the cytotoxicity of Aβ1–42 by modulation of oligomer formation.Significance: 7B2 is a novel anti-aggregation secretory chaperone associated with neurodegenerative disease.

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Elevated prostacyclin biosynthesis in mice impacts memory and anxiety-like behavior

Vollert

Ohia

Akasaka

et al. 2014

Behavioural Brain Research

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Prostacyclin is an endogenous lipid metabolite with properties of vasodilation and anti-platelet aggregation. While the effects of prostacyclin on the vascular protection have been well-documented, the role of this eicosanoid in the central nervous system has not been extensively studied. Recently, a transgenic mouse containing a hybrid enzyme, of cyclooxygenase-1 linked to prostacyclin synthase, was developed that produces elevated levels of prostacyclin in vivo. The goal of this study was to investigate whether increased prostacyclin biosynthesis could affect behavioral phenotypes in mice. Our results uncovered that elevated levels of prostacyclin broadly affect both cognitive and non-cognitive behaviors, including decreased anxiety-like behavior and improved learning in the fear-conditioning memory test. This study demonstrates that prostacyclin plays an important, but previously unrecognized, role in central nervous system function and behavior.

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PPPS-2013: Nanoelectroablation for human carcinoma therapy

Nuccitelli¹,

Kreis²,

Athos³

et al. 2013

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Casey Berridge

Inhibitory Neuron and Hippocampal Circuit Dysfunction in an Aged Mouse Model of Alzheimer's Disease

A novel function for proSAAS as an amyloid anti‐aggregant in Alzheimer's disease

The Neuroendocrine Protein 7B2 Suppresses the Aggregation of Neurodegenerative Disease-related Proteins

Elevated prostacyclin biosynthesis in mice impacts memory and anxiety-like behavior

PPPS-2013: Nanoelectroablation for human carcinoma therapy

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