Reelin Depletion is an Early Phenomenon of Alzheimer's Pathology

Herring, Arne; Donath, Anja; Steiner, Katharina Marie; Widera, Manuel P.; Hamzehian, Samira; Kanakis, Dimitrios; Kölble, Konrad; ElAli, Ayman; Hermann, Dirk M.; Paulus, Werner; Keyvani, Kathy

doi:10.3233/jad-2012-112069

Cited by 78 publications

(60 citation statements)

References 51 publications

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“…In comparison to AD susceptible brain areas, there were no alterations in NMDARs subunit expression in cerebellum of AD patients (Bi and Sze, 2002). Conversely, other studies evidenced that mRNA levels of GluN1 (Bi Additionally to a decrease in mRNA levels, the decrease in GluN2B and GluN2A subunits could be due also to a decrease in reelin levels, a protein that mediates NMDAR activity, and which is depleted in AD brains (Herring et al, 2012). On the other hand, the decrease in NMDAR subunits may also be due to an increase in STEP 61 , which contributes to the endocytosis of GluN1/GluN2B and GluN1/GluN2A receptors (Snyder et al, 2005;Kurup et al, 2010).…”

Section: Synaptic and Extrasynaptic Localization And Activation Of Nmmentioning

confidence: 80%

Dysfunctional synapse in Alzheimer's disease – A focus on NMDA receptors

Mota¹,

Ferreira²,

Rego³

2014

Neuropharmacology

166

100

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Alzheimer's disease (AD) is the most prevalent form of dementia in the elderly.Alterations capable of causing brain circuitry dysfunctions in AD may take several years to develop. Oligomeric amyloid-beta peptide (Aβ) plays a complex role in the molecular events that lead to progressive loss of function and eventually to neurodegeneration in this devastating disease. Moreover, N-methyl-D-aspartate (NMDA) receptors (NMDARs) activation has been recently implicated in AD-related synaptic dysfunction. Thus, in this review we focus on glutamatergic neurotransmission impairment and the changes in NMDAR regulation in AD, following the description on the role and location of NMDARs at pre-and post-synaptic sites under physiological conditions. In addition, considering that there is currently no effective ways to cure AD or stop its progression, we further discuss the relevance of NMDARs antagonists to prevent AD symptomatology. This review posits additional information on the role played by Aβ in AD and the importance of targeting the tripartite glutamatergic synapse in early asymptomatic and possible reversible stages of the disease through preventive and/or disease-modifying therapeutic strategies.

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Section: Synaptic and Extrasynaptic Localization And Activation Of Nmmentioning

confidence: 80%

Dysfunctional synapse in Alzheimer's disease – A focus on NMDA receptors

Mota¹,

Ferreira²,

Rego³

2014

Neuropharmacology

166

100

View full text Add to dashboard Cite

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“…This is then followed by the integration of recent experimental findings addressing the role of the extracellular signaling protein Reelin that is selectively expressed along the affected circuits and shown to be a potent suppressor of Tau phosphorylation Chen, 2006, Knuesel, 2010). Moreover, the decline in Reelin expression is not only strongly affected by aging and chronic inflammatory conditions in animals (Knuesel et al, 2009), but constitutes also a very early phenomenon of AD pathophysiology in humans (Herring et al, 2012a). Based on the presented evidence we propose that reduction of Reelin-mediated signaling in the olfactory and limbic system accelerates and aggravates the age-associated hyperphosphorylation of Tau (Braak et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

“…1C) Here (Fig. 2), we propose that reduction of Reelin (Chin et al, 2007, Herring et al, 2012a, as a consequence of cumulative environmental injuries to the olfactory pathway (Okuyama-Yamamoto et al, 2005) or injury/disease/infection-induced chronic inflammation (Knuesel et al, 2009, Krstic andKnuesel, 2013), accelerates the age-dependent phosphorylation of Tau and instability of interneuronal connections. This will in turn result in a more pronounced synaptic loss and wide-spread formation of NFTs, a correlate of disease progression and dementia severity in patients with AD.…”

Section: An Integrated View On Ad Initiationmentioning

confidence: 99%

“…Finally, in humans both loss of Reelin expressing cells in the entorhinal cortex (Baloyannis, 2005, Chin et al, 2007 and drastically reduced levels of Reelin protein in the hippocampus, entorhinal and frontal cortex (Herring et al, 2012a) ), reflecting either a potentially compensatory mechanism or an effect of advanced disease processes. Unfortunately, as a likely consequence of the high inter-subject variability, the relative concentrations of Reelin and its proteolytic fragments in brain and CSF of AD patients and non-demented controls are inconclusive (Ignatova et al, 2004, Botella-Lopez et al, 2006, Notter and Knuesel, unpublished observations).…”

Section: And Promotesmentioning

confidence: 99%

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Decisive role of Reelin signaling during early stages of Alzheimer’s disease

et al. 2013

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Alzheimer's disease (AD) is one of the largest unmet medical concerns of our society. Around 25 million patients worldwide together with their families are still waiting for an effective treatment. We have recently initiated a re-evaluation of our knowledge of the molecular and cellular mechanisms underlying sporadic AD. Based on the existing literature, we have proposed a mechanistic explanation of how the late-onset form of the disease may evolve on the cellular level. Here, we expand this hypothesis by addressing the pathophysiological changes underlying the early and almost invariant appearance of the neurofibrillary tangles, the only reliable correlate of the cognitive status, in distinct brain areas and their consistent "spread" along interconnected neurons as the disease advances. In this review we present and discuss novel evidence that the extracellular signaling protein Reelin, expressed along the olfactory and limbic pathways in the adult brain, might hold a key to understand the earliest steps of the disease, highlighting the olfactory pathway as the brain's Achilles heel involved in the initiation of the pathophysiological characteristic of late-onset AD. AbstractAlzheimer`s disease (AD) is one of the largest unmet medical needs of our society. Around 25 million patients worldwide together with their families are still waiting for an effective treatment. We have recently initiated a re-evaluation of our knowledge of the molecular and cellular mechanisms underlying sporadic AD. Based on the existing literature, we have proposed a mechanistic explanation of how the late-onset form of the disease may evolve on the cellular level. Here, we expand this hypothesis by addressing the pathophysiological changes underlying the early and almost invariant appearance of the neurofibrillary tangles (NFTs), the only reliable correlate of the cognitive status, in distinct brain areas and their consistent "spread" along interconnected neurons as the disease advances. In this review we present and discuss novel evidence that the extracellular signaling protein Reelin, expressed along the olfactory and limbic pathways in the adult brain, might hold a key to understand the earliest steps of the disease, highlighting the olfactory pathway as the brain's Achilles heel involved in the initiation of the pathophysiology characteristic of late-onset AD.3

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“…Accordingly, Reelin expression is also decreased in brains of patients at the presymptomatic stages of AD. The progression of the disease causes in both cases, potentiate the Reelin deficiency from the hippocampus to the entorhinal cortex in mice and from the frontal cortex to the hippocampus and entorhinal cortex in humans [50,98]. The decrease in Reelin expression is linked to a reduction in CR cells at the cortical layer I in AD brains [61].…”

Section: Reelin Reduction In Ad Brainsmentioning

confidence: 99%