Publications by authors named "Yasuji Matsuoka"

One third of epilepsy patients are resistant to treatment with current anti-seizure medications. The ketogenic diet is used to treat some forms of refractory epilepsy, but the mechanism of its action has not yet been elucidated. In this study, we aimed to investigate whether the hydroxycarboxylic acid receptor 2 (HCA2), a known immunomodulatory receptor, plays a role in mediating the protective effect of this diet.

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Neuronal voltage-gated potassium channels, K7s, are the molecular mediators of the M current and regulate membrane excitability in the central and peripheral neuronal systems. Herein, we report novel small molecule K7 openers that demonstrate anti-seizure activities in electroshock and pentylenetetrazol-induced seizure models without influencing Rotarod readouts in mice. The anti-seizure activity was determined to be proportional to the unbound concentration in the brain.

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Aims: The NADPH oxidase (NOX) family of enzymes catalyzes the formation of reactive oxygen species (ROS). NOX enzymes not only have a key role in a variety of physiological processes but also contribute to oxidative stress in certain disease states. To date, while numerous small molecule inhibitors have been reported (in particular for NOX2), none have demonstrated inhibitory activity in vivo.

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Accumulation of amyloid β (Aβ) in brain is a pathological hallmark of Alzheimer's disease (AD). Aβ is generated after sequential cleavage of its parental molecule, amyloid precursor protein (APP), by β- and γ-secretases. Inhibition of γ-secretase activity is an effective approach for the reduction of Aβ levels.

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Several epidemiological and preclinical studies suggest that non-steroidal anti-inflammatory drugs (NSAIDs), which inhibit cyclooxygenase (COX), reduce the risk of Alzheimer's disease (AD) and can lower β-amyloid (Aβ) production and inhibit neuroinflammation. However, follow-up clinical trials, mostly using selective cyclooxygenase (COX)-2 inhibitors, failed to show any beneficial effect in AD patients with mild to severe cognitive deficits. Recent data indicated that COX-1, classically viewed as the homeostatic isoform, is localized in microglia and is actively involved in brain injury induced by pro-inflammatory stimuli including Aβ, lipopolysaccharide, and interleukins.

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γ-secretase inhibitors (GSIs) have been developed to reduce amyloid-β (Aβ) production for the treatment of Alzheimer's disease by inhibiting the cleavage of amyloid precursor protein (APP). However, cross-inhibitory activity on the processing of Notch can cause adverse reactions. To avoid these undesirable effects, γ-secretase modulators (GSMs) are being developed to selectively reduce toxic Aβ production without perturbing Notch signaling.

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SAR of a novel series of pyridine-derived γ-secretase modulators is described. Compound 5 was found to be a potent modulator in vitro, which on further profiling, was found to decrease Aβ42 and Aβ40, and maintain (or increase) the levels of total Aβ. Furthermore, representative compounds 1 and 5 demonstrated in vivo efficacy to lower Aβ42 in the brain without altering Notch processing in the peripheral.

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Fyn kinase phosphorylates tau and exacerbates amyloid beta (Aβ)-mediated synaptic dysfunction. However, Fyn also increases the nonpathological cleavage of amyloid precursor protein (APP), suggesting opposing roles for Fyn in the pathogenesis of Alzheimer's disease (AD). To determine the effect of Fyn on both Aβ and tau pathologies, we crossed homozygous Alzheimer's disease triple transgenic (3×Tg) mice harboring mutations in amyloid precursor protein, presenilin-1, and tau with wild-type or Fyn knockout mice to generate Fyn(+/+)3×Tg(+/-) or Fyn(+/-)3×Tg(+/-) mice.

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SAR of a novel series of pyridazine-derived γ-secretase modulators is described. Compound 25 was found to be a potent modulator in vitro, which on further profiling, was found to decrease Aβ42 and Aβ40, and maintain the levels of total Aβ. Furthermore, 25 demonstrated excellent pharmacokinetic parameters as well as good CNS penetration in the rat.

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In the course of a β-site APP-cleaving enzyme 1 (BACE1) inhibitor discovery project an in situ synthesis/screening protocol was employed to prepare 120 triazole-linked reduced amide isostere inhibitors. Among these compounds, four showed modest (single digit micromolar) BACE1 inhibition. Our ligand design was based on a potent reduced amide isostere 1, wherein the P(2) amide moiety was replaced with an anti-1,2,3-triazole unit.

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Humanin (HN), a 24-residue peptide, was identified as a novel neuroprotective factor and shows anti-cell death activity against a wide spectrum of Alzheimer's disease (AD)-related cytotoxicities, including exposure to amyloid beta (Abeta), in vitro. We previously demonstrated that the injection of S14G-HN, a highly potent HN derivative, into brain ameliorated memory loss in an Abeta-injection mouse model. To fully understand HN's functions under AD-associated pathological conditions, we examined the effect of S14G-HN on triple transgenic mice harboring APP(swe), tau(P310L), and PS-1(M146V) that show the age-dependent development of multiple pathologies relating to AD.

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Background: Passive immunization with antibodies directed to Aβ decreases brain Aβ/amyloid burden and preserves memory in transgenic mouse models of Alzheimer's disease (AD). This therapeutic strategy is under intense scrutiny in clinical studies, but its application is limited by neuroinflammatory side effects (autoimmune encephalitis and vasogenic edema).

Methods: We intravenously administered the monoclonal Aβ protofibril antibody PFA1 to aged (22 month) male and female 3 × tg AD mice with intermediate or advanced AD-like neuropathologies, respectively, and measured brain and serum Aβ and CNS cytokine levels.

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The metabolism of the amyloid precursor protein (APP) and tau are central to the pathobiology of Alzheimer's disease (AD). We have examined the in vivo turnover of APP, secreted APP (sAPP), Abeta and tau in the wild-type and Tg2576 mouse brain using cycloheximide to block protein synthesis. In spite of overexpression of APP in the Tg2576 mouse, APP is rapidly degraded, similar to the rapid turnover of the endogenous protein in the wild-type mouse.

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To study the relationship between plasma levels of amyloid beta (Abeta) peptides and dementia in aging individuals with Down syndrome, we investigated the relationship among plasma Abeta, apolipoprotein E genotype and cognitive and clinical factors using baseline specimens form participants in an ongoing clinical trial in individuals with Down syndrome 50 years of age and older. Because of substantial skew in the distribution of peptide levels, analyses used log transformations of the data. The ratio of Abeta42 to Abeta40 was associated with the presence of dementia (P=0.

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Synaptic deficits are closely correlated with cognitive dysfunction in Alzheimer's disease (AD), and synaptic integrity is regulated by the actin cytoskeleton. We demonstrated here that the Wiskott-Aldrich syndrome protein family verprolin-homologous protein (WAVE), a key molecule for actin assembly, co-aggregated with both hyperphosphorylated tau and phosphorylated collapsin response mediator protein 2 (CRMP2) in neurofibrillary tangles and abnormal neurites of the AD brain. Although phosphorylated CRMP2 accumulation was induced in the brains of JNPL3 mice, WAVE accumulation was not detected in the brains of either JNPL3 or Tg2576 mice that developed neurofibrillary tangles and amyloid-beta (Abeta) plaques, respectively.

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The overproduction and extracellular buildup of amyloid-beta peptide (Abeta) is a critical step in the etiology of Alzheimer's disease. Recent data suggest that intracellular trafficking is of central importance in the production of Abeta. Here we use a neuronal cell line to examine two structurally similar clathrin assembly proteins, AP180 and CALM.

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Amyloid-beta (Abeta) peptides, found in Alzheimer's disease brain, accumulate rapidly after traumatic brain injury (TBI) in both humans and animals. Here we show that blocking either beta- or gamma-secretase, enzymes required for production of Abeta from amyloid precursor protein (APP), can ameliorate motor and cognitive deficits and reduce cell loss after experimental TBI in mice. Thus, APP secretases are promising targets for treatment of TBI.

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Article Synopsis
  • - The study investigates the role of amyloid precursor protein (APP) in the brain, particularly its presence in the postsynaptic density of synapses and its interaction with N-methyl-d-aspartate receptors (NMDARs).
  • - Findings show that APP influences the trafficking and processing of NMDARs, with effects such as overexpression increasing APP surface levels while activation of NMDARs promotes the production of the Alzheimer-associated peptide Abeta.
  • - Electrophysiological experiments reveal that altering APP levels affects NMDAR current density and activity, indicating that APP plays a significant role in enhancing NMDAR function through the recruitment of specific NR2B-containing receptors.
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The clinical progression of Alzheimer's disease is closely related to tau pathology. Hyperphosphorylation of tau precedes histopathological evidence of tangle formation, and modulation of tau phosphorylation is a promising therapeutic target. Although some phosphorylation sites are more critical in pathological processes, the importance of each phosphorylation site is unclear.

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Epidemiological studies indicate that women have a higher risk of Alzheimer's disease (AD) even after adjustment for age. Though transgenic mouse models of AD develop AD-related amyloid beta (Abeta) and/or tau pathology, gender differences have not been well documented in these models. In this study, we found that female 3xTg-AD transgenic mice expressing mutant APP, presenilin-1 and tau have significantly more aggressive Abeta pathology.

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Beta-site amyloid precursor protein-cleaving enzyme-1 (BACE1) initiates generation of amyloid beta (Abeta), a pathological hallmark of Alzheimer's disease. We investigated the impact of BACE1 protein level on endogenous Abeta. Endogenous Abeta and BACE1 protein levels were concurrently and significantly reduced during early life.

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Gangliosides have been shown to be necessary for beta-amyloid (Abeta) binding and aggregation. GD3 synthase (GD3S) is responsible for biosynthesis of the b- and c-series gangliosides, including two of the four major brain gangliosides. We examined Abeta-ganglioside interactions in neural tissue from mice lacking the gene coding for GD3S (St8sia1), and in a double-transgenic (APP/PSEN1) mouse model of Alzheimer's disease cross-bred with GD3S-/- mice.

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Neurofibrillary tangles composed of aggregated, hyperphosphorylated tau in an abnormal conformation represent one of the major pathological hallmarks of Alzheimer's disease (AD) and other tauopathies. However, recent data suggest that the pathogenic processes leading to cognitive impairment occur before the formation of classic tangles. In the earliest stages of tauopathy, tau detaches from microtubules and accumulates in the cytosol of the somatodendritic compartment of cells.

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Dab1 is an intracellular adaptor protein that interacts with amyloid precursor protein (APP) and apoE receptor 2 (apoEr2), increases their levels on the cell surface, and increases their cleavage by alpha-secretases. To investigate the mechanism underlying these alterations in processing and trafficking of APP and apoEr2, we examined the effect of Fyn, an Src family-tyrosine kinase known to interact with and phosphorylate Dab1. Co-immunoprecipitation, co-immunostaining, and fluorescence lifetime imaging demonstrated an association between Fyn and APP.

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