David Muyllaert scite author profile

The hypothesis that amyloid pathology precedes and induces the tau pathology of Alzheimer's disease is experimentally supported here through the identification of GSK-3 isozymes as a major link in the signaling pathway from amyloid to tau pathology. This study compares two novel bigenic mouse models: APP-V717I x Tau-P301L mice with combined amyloid and tau pathology and GSK-3beta x Tau-P301L mice with tauopathy only. Extensive and remarkable parallels were observed between these strains including 1) aggravation of tauopathy with highly fibrillar tangles in the hippocampus and cortex; 2) prolonged survival correlated to alleviated brainstem tauopathy; 3) development of severe cognitive and behavioral defects in young adults before the onset of amyloid deposition or tauopathy; and 4) presence of pathological phospho-epitopes of tau, including the characteristic GSK-3beta motif at S396/S404. Both GSK-3 isozymes were activated in the brain of parental APP-V717I amyloid mice, even at a young age when cognitive and behavioral defects are evident but before amyloid deposition. The data indicate that amyloid induces tauopathy through activation of GSK-3 and suggest a role for the kinase in maintaining the functional integrity of adult neurons.

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T-cell receptor-induced JNK activation requires proteolytic inactivation of CYLD by MALT1

Staal

et al. 2011

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The paracaspase mucosa-associated lymphoid tissue 1 (MALT1) is central to lymphocyte activation and lymphomagenesis. MALT1 mediates antigen receptor signalling to NF-jB by acting as a scaffold protein. Furthermore, MALT1 has proteolytic activity that contributes to optimal NF-jB activation by cleaving the NF-jB inhibitor A20. Whether MALT1 protease activity is involved in other signalling pathways, and the identity of the relevant substrates, is unknown. Here, we show that T-cell receptors (TCR) activation, as well as overexpression of the oncogenic API2-MALT1 fusion protein, results in proteolytic inactivation of CYLD by MALT1, which is specifically required for c-jun N-terminal kinase (JNK) activation and the inducible expression of a subset of genes. These results indicate a novel role for MALT1 proteolytic activity in TCRinduced JNK activation and reveal CYLD cleavage as the underlying mechanism.

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Glycogen synthase kinase‐3β, or a link between amyloid and tau pathology?

Muyllaert

Kremer

Jaworski

et al. 2008

Genes Brain and Behavior

121

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Phosphorylation is the most common post-translational modification of cellular proteins, essential for most physiological functions. Deregulation of phosphorylation has been invoked in disease mechanisms, and the case of Alzheimer's disease (AD) is no exception: both in the amyloid pathology and in the tauopathy are kinases deeply implicated. The glycogen synthase kinase-3 (GSK-3) isozymes participate in diverse cellular processes and important signalling pathways and have been implicitly linked to diverse medical problems, i.e. from diabetes and cancer to mood disorders and schizophrenia, and in the neurodegeneration of AD. Here, we review specific aspects of GSK-3 isozymes in the framework of recent data that we obtained in novel transgenic mouse models that robustly recapitulate the pathology and mechanistical problems of AD.

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Neuronal or Glial Expression of Human Apolipoprotein E4 Affects Parenchymal and Vascular Amyloid Pathology Differentially in Different Brain Regions of Double- and Triple-Transgenic Mice

Dooren

Muyllaert

Borghgraef

et al. 2006

The American Journal of Pathology

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Apolipoprotein E4 (ApoE4) is associated with Alzheimer's disease by unknown mechanisms. We generated six transgenic mice strains expressing human ApoE4 in combination with mutant amyloid precursor protein (APP) and mutant presenilin-1 (PS1) in single-, double-, or triple-transgenic combinations. Diffuse, but not dense, amyloid plaque-load in subiculum and cortex was increased by neuronal but not glial ApoE4 in old (15 months) double-transgenic mice, whereas both diffuse and dense plaques formed in thalamus in both genotypes. Neuronal and glial ApoE4 promoted cerebral amyloid angiopathy as extensively as mutant PS1 but with pronounced regional differences: cortical angiopathy was induced by neuronal ApoE4 while thalamic angiopathy was again independent of ApoE4 source. Angiopathy correlated more strongly with soluble A␤40 and A␤42 levels in cortex than in thalamus throughout the six genotypes. Neither neuronal nor glial ApoE4 affected APP proteolytic processing, as opposed to mutant PS1. Neuronal ApoE4 increased soluble amyloid levels more than glial ApoE4, but the A␤42/40 ratios were similar, although significantly higher than in single APP transgenic mice. We conclude that although the cellular origin of ApoE4 differentially affects regional amyloid pathology, ApoE4 acts on the disposition of amyloid peptides downstream from their excision from APP but without induction of tauopathy. Alzheimer's disease (AD) is characterized by pathological accumulations in the brain of extracellular amyloid plaques and intraneuronal accumulations of protein tau known as neurofibrillary tangles. The amyloid peptides A␤40 and A␤42 are the major components of the amyloid deposits in parenchyma and vasculature.1 The amyloid peptides are excised from the integral membrane protein amyloid precursor protein (APP) by sequential endoproteolytic cleavages by ␤-and ␥-secretases.2 The exact causes and consequences, in terms of normal processes and mechanisms that are disturbed by the amyloid peptides and causing neurodegeneration, remain primarily unclear. 3Besides APP and presenilins (PS1, PS2), the apolipoprotein E (ApoE) is genetically linked to AD. 4 The ApoE4 lipoprotein or its encoding ⑀4 allele, are epidemiologically associated with AD and confer an increased risk and earlier age of onset relative to the more common ApoE3 protein or ⑀3 allele. [5][6][7] ApoE is a 34-kd protein abundantly expressed in liver and brain. In the circulation, ApoE-lipoproteins mediate transport of lipids and cholesterol from and to liver and extrahepatic tissues. In contrast to the peripheral functions of ApoE that are well understood, details of its actions in the central nervous system remain primarily unknown. Actually, the epidemiological association of the ⑀4-allele to AD provided a strong impetus to research, by pointing out our lack of understanding the physiology of lipid and cholesterol homeostasis and of their transport in brain, in particular the contribution of ApoE and various ApoE receptors. 8,9

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Neurodegeneration and Neuroinflammation in cdk5/p25-Inducible Mice

Muyllaert

Terwel

Kremer

et al. 2008

The American Journal of Pathology

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The cyclin-dependent kinase cdk5 is atypically active in postmitotic neurons and enigmatic among the kinases proposed as molecular actors in neurodegeneration. We generated transgenic mice to express p25, the N-terminally truncated p35 activator of cdk5, in forebrain under tetracycline control (TET-off). Neuronal expression of p25 (p25 ON ) caused high mortality postnatally and early in life. Mortality was completely prevented by administration of doxycycline in the drinking water of pregnant dams and litters until P42, allowing us to study the action of p25 in adult mouse forebrain. Neuronal p25 triggered neurodegeneration and also microgliosis, rapidly and intensely in hippocampus and cortex. Progressive neurodegeneration was severe with marked neuron loss, causing brain atrophy (40% loss at age 5 months) with nearly complete elimination of the hippocampus. Neurodegeneration did not involve phosphorylation of protein tau or generation of amyloid peptide. Degenerating neurons did not stain for terminal deoxynucleotidyl transferase-mediated dUTP nickend labeling or activated caspase-3 but were marked by FluoroJadeB in early stages. Diseased neurons were always closely associated with activated microglia already very early in the disease process. Primary neurons derived from p25 embryos were more prone to apoptosis than wild-type neurons, and they activated microglial cells in co-culture. The inducible p25 mice present as a model for neurodegeneration in hippocampal sclerosis and neocortical degeneration, with important contributions of activated microglia.

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David Muyllaert

Amyloid Activates GSK-3β to Aggravate Neuronal Tauopathy in Bigenic Mice

T-cell receptor-induced JNK activation requires proteolytic inactivation of CYLD by MALT1

Glycogen synthase kinase‐3β, or a link between amyloid and tau pathology?

Neuronal or Glial Expression of Human Apolipoprotein E4 Affects Parenchymal and Vascular Amyloid Pathology Differentially in Different Brain Regions of Double- and Triple-Transgenic Mice

Neurodegeneration and Neuroinflammation in cdk5/p25-Inducible Mice

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