Modulation of Gamma-Secretase for the Treatment of Alzheimer's Disease

Tate, Barbara; McKee, Timothy D.; Loureiro, Robyn; Dumin, Jo Ann; Xia, Weiming; Pojasek, Kevin; Austin, W. F.; Fuller, Nathan O.; Hubbs, Jed L.; Shen, Ruichao; Jonker, Jeff; Ives, Jeff; Bronk, Brian S.

doi:10.1155/2012/210756

Cited by 23 publications

(39 citation statements)

References 35 publications

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“…The deterioration, which presumably resulted from semagacestat-induced collateral damage to other proteins affecting neurocognitive function [18], persisted after the drug was stopped. It is now known that TP was on placebo during at least the initial twelve months of the study.…”

Section: Clinical Response Of a Patient With Ad Dementia To Kme Trmentioning

confidence: 99%

A new way to produce hyperketonemia: Use of ketone ester in a case of Alzheimer's disease

Newport¹,

VanItallie²,

Kashiwaya³

et al. 2014

Alzheimer's & Dementia

174

157

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BackgroundProviding ketone bodies to the brain can bypass metabolic blocks to glucose utilization and improve function in energy‐starved neurons. For this, plasma ketones must be elevated well above the ≤0.2 mM default concentrations normally prevalent. Limitations of dietary methods currently used to produce therapeutic hyperketonemia have stimulated the search for better approaches.MethodDescribed herein is a new way to produce therapeutic hyperketonemia, entailing prolonged oral administration of a potent ketogenic agent—ketone monoester (KME)—to a patient with Alzheimer's disease dementia and a pretreatment Mini‐Mental State Examination score of 12.ResultsThe patient improved markedly in mood, affect, self‐care, and cognitive and daily activity performance. The KME was well tolerated throughout the 20‐month treatment period. Cognitive performance tracked plasma β‐hydroxybutyrate concentrations, with noticeable improvements in conversation and interaction at the higher levels, compared with predose levels.ConclusionKME‐induced hyperketonemia is robust, convenient, and safe, and the ester can be taken as an oral supplement without changing the habitual diet.

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Section: Clinical Response Of a Patient With Ad Dementia To Kme Trmentioning

confidence: 99%

A new way to produce hyperketonemia: Use of ketone ester in a case of Alzheimer's disease

Newport¹,

VanItallie²,

Kashiwaya³

et al. 2014

Alzheimer's & Dementia

174

157

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“…Next, it is thought that γ-secretase further cleaves the Aβ fragment every other 3 or 4 amino acids from the ζ-site to the γ-site until the Aβ fragment is freed from the membrane [70]. This leads to the production of Aβ fragments of varying sizes, from 37 to 46 amino acids in length (with heterogeneous C-termini), including neurotoxic Aβ(1-42), which can easily oligomerize and become more prone to aggregation [72]. Furthermore, mutations in APP and the PS1 protein in γ-secretase can lead to changes in this cleavage pattern [71].…”

Section: 0 App Processingmentioning

confidence: 99%

Abeta, oxidative stress in Alzheimer disease: Evidence based on proteomics studies

Swomley

Förster

Keeney

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

164

121

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The initiation and progression of Alzheimer disease (AD) is a complex process not yet fully understood. While many hypotheses have been provided as to the cause of the disease, the exact mechanisms remain elusive and difficult to verify. Proteomic applications in disease models of AD have provided valuable insights into the molecular basis of this disorder, demonstrating that on a protein level, disease progression impacts numerous cellular processes such as energy production, cellular structure, signal transduction, synaptic function, mitochondrial function, cell cycle progression, and proteasome function. Each of these cellular functions contributes to the overall health of the cell, and the dysregulation of one or more could contribute to the pathology and clinical presentation in AD. In this review, foci reside primarily on the amyloid β-peptide (Aβ) induced oxidative stress hypothesis and the proteomic studies that have been conducted by our laboratory and others that contribute to the overall understanding of this devastating neurodegenerative disease.

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“…The compounds in this series, including SPI-1865, have a novel and proprietary structure, as well as the unique effect on the Aβ profile of lowering both Aβ 42 and Aβ 38 , without effecting Aβ 40 in cellular systems [33]. Using immunoprecipitation/mass spectrometry (IP/MS) analysis of conditioned media from Satori compound-treated versus control 2B7 cells, it was observed that the total Aβ levels are maintained with concomitant lowering of Aβ 38 and Aβ 42 and increases in Aβ 37 and Aβ 39 [34]. Furthermore, since increasing substrate levels do not result in an IC 50 shift, it is likely that SPI-1865 binds to the gamma-secretase complex as do other GSMs [35-37] instead of the APP substrate [33,34].…”

Section: Introductionmentioning

confidence: 99%

“…Using immunoprecipitation/mass spectrometry (IP/MS) analysis of conditioned media from Satori compound-treated versus control 2B7 cells, it was observed that the total Aβ levels are maintained with concomitant lowering of Aβ 38 and Aβ 42 and increases in Aβ 37 and Aβ 39 [34]. Furthermore, since increasing substrate levels do not result in an IC 50 shift, it is likely that SPI-1865 binds to the gamma-secretase complex as do other GSMs [35-37] instead of the APP substrate [33,34]. In the studies described here, the effects of SPI-1865 on Aβ 38 , Aβ 40 and Aβ 42 in both wild-type and transgenic animals were examined.…”

Section: Introductionmentioning

confidence: 99%

Efficacy of SPI-1865, a novel gamma-secretase modulator, in multiple rodent models

Loureiro¹,

Dumin²,

McKee³

et al. 2013

Alz Res Therapy

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IntroductionModulation of the gamma-secretase enzyme, which reduces the production of the amyloidogenic Aβ42 peptide while sparing the production of other Aβ species, is a promising therapeutic approach for the treatment of Alzheimer's disease. Satori has identified a unique class of small molecule gamma-secretase modulators (GSMs) capable of decreasing Aβ42 levels in cellular and rodent model systems. The compound class exhibits potency in the nM range in vitro and is selective for lowering Aβ42 and Aβ38 while sparing Aβ40 and total Aβ levels. In vivo, a compound from the series, SPI-1865, demonstrates similar pharmacology in wild-type CD1 mice, Tg2576 mice and Sprague Dawley rats.MethodsAnimals were orally administered either a single dose of SPI-1865 or dosed for multiple days. Aβ levels were measured using a sensitive plate-based ELISA system (MSD) and brain and plasma exposure of drug were assessed by LC/MS/MS.ResultsIn wild-type mice using either dosing regimen, brain Aβ42 and Aβ38 levels were decreased upon treatment with SPI-1865 and little to no statistically meaningful effect on Aβ40 was observed, reflecting the changes observed in vitro. In rats, brain Aβ levels were examined and similar to the mouse studies, brain Aβ42 and Aβ38 were lowered. Comparable changes were also observed in the Tg2576 mice, where Aβ levels were measured in brain as well as plasma and CSF.ConclusionsTaken together, these data indicate that SPI-1865 is orally bioavailable, brain penetrant, and effective at lowering Aβ42 in a dose responsive manner. With this unique profile, the class of compounds represented by SPI-1865 may be a promising new therapy for Alzheimer's disease.

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Modulation of Gamma-Secretase for the Treatment of Alzheimer's Disease

Cited by 23 publications

References 35 publications

A new way to produce hyperketonemia: Use of ketone ester in a case of Alzheimer's disease

A new way to produce hyperketonemia: Use of ketone ester in a case of Alzheimer's disease

Abeta, oxidative stress in Alzheimer disease: Evidence based on proteomics studies

Efficacy of SPI-1865, a novel gamma-secretase modulator, in multiple rodent models

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