The LPS receptor (CD14) links innate immunity with Alzheimer's disease

Faßbender, Klaus; Walter, Silke; Kühl, Sandra; Landmann, Régine; Ishii, Kazuhiro; Bertsch, Thomas; Stalder, Anna K.; Muehlhauser, Frank; Liu, Y.; Ulmer, Artur J.; Rivest, Serge; Lentschat, Arnd; Gulbins, Erich; Jucker, Mathias; Staufenbiel, Matthias; Brechtel, K.; Walter, Jens M.; Multhaup, Gerd; Penke, Botond; Adachi, Yoshiyuki; Hartmann, Tobias; Beyreuther, Konrad

doi:10.1096/fj.03-0364fje

Cited by 288 publications

(230 citation statements)

References 37 publications

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“…It is interesting to note that several amyloids with a similar quaternary structure rich in ␤-sheets are also produced in humans, leading to inflammatory responses through the activation of TLRs. In the case of Alzheimer's disease, ␤-amyloid that forms plaques in the brain of the patients elicits nitric oxide and cytokine activation (49,57,76,77). Although various TLRs have been implicated in this inflammatory process, caused by the accumulation of ␤-amyloid (56,57,78), TLR2 has been demonstrated convincingly to recognize the quaternary fibrillar structure of ␤-amyloid as well as curli fibers (46,48).…”

Section: Discussionmentioning

confidence: 99%

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CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

Rapsinski

Newman

Oppong

et al. 2013

Journal of Biological Chemistry

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Background: Curli fibers are recognized by the TLR2/TLR1 complex. Results: CD14 binds curli fibers and enhances TLR2/TLR1-dependent NF-B activation as well as cytokine and nitrite production. Conclusion: CD14 is an adaptor protein for the TLR2/TLR1 complex binding the fibrillar structure of curli fibers. Significance: Understanding the immune receptor complexes that recognize amyloids will have implications for amyloidassociated diseases.

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Section: Discussionmentioning

confidence: 99%

“…Interestingly, blocking CD14 by neutralizing antibodies or genetic deficiency for this molecule on microglia results in reduced levels of immune activation by ␤-amyloid (76). Furthermore, deletion of CD14 attenuates the progression of Alzheimer's disease pathology in the brain in mouse models of Alzheimer's disease (57).…”

Section: Discussionmentioning

confidence: 99%

CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

Rapsinski

Newman

Oppong

et al. 2013

Journal of Biological Chemistry

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“…For example animal models of AD and patients with AD exhibit increased expression of CD14, (a co-receptor for TLR4), TLR4 and TLR2 [33][34][35][36], which are thought to occur independently in response to the presence of Aβ. Interestingly a polymorphism in TLR4 Asp299Gly resulted in a 2.7 fold reduction in risk for late onset AD [37].…”

Section: Role For Tlrs In Alzheimer's Diseasementioning

confidence: 99%

Evaluating the role of Toll-like receptors in diseases of the central nervous system

Carty

Bowie

2011

Biochemical Pharmacology

134

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A key part of the innate immune system is a network of pattern recognition receptors (PRRs) and their associated intracellular signalling pathways. Toll-like receptors (TLRs) are one such group of PRRs that detect pathogen associated molecular patterns (PAMPs). Activation of the TLRs with their respective agonists results in the activation of intracellular signalling pathways leading to the expression of proinflammatory mediators and anti-microbial effector molecules. Activation of the innate immune system through TLRs also triggers the adaptive immune response, resulting in a comprehensive immune program to eradicate invading pathogens. It is now known that immune surveillance and inflammatory responses occur in the central nervous system (CNS). Furthermore it is becoming increasingly clear that TLRs have a role in such CNS responses andare also implicated in the pathogenesis of a number of conditions in the CNS, such as Alzheimer's, stroke and multiple sclerosis. This is likely due to the generation of endogenous TLR agonists in these conditions which amplifies a detrimental neurotoxic inflammatory response. However TLRs in some situations can be neuroprotective, if triggered in a favourable context. This review aims to examine the recent literature on TLRs in the CNS thus demonstrating their importance in a range of infectious and non-infectious diseases of the brain.

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“…The amyloid hypothesis of AD suggests that dysregulation of amyloid-␤ (A␤) peptide metabolism triggers the innate immune response, in which microglial cells are activated to clear and phagocytose A␤, producing free radical species and neurotoxic cytokines. The CD14-dependent innate immune response to LPS is directly relevant to the immune response to accumulating A␤ peptide, in which microglial activation, phagocytosis, and elaboration of inflammatory mediators are, in part, CD14 dependent (Fassbender et al, 2004;Milatovic et al, 2004). Given that A␤ accumulation can elicit an innate immune response similar to that of LPS, we hypothesized that the EP2 receptor functioned similarly in mediating inflammatory oxidative damage in a transgenic model of familial AD.…”

Section: Introductionmentioning

confidence: 99%

Deletion of the Prostaglandin E₂EP2 Receptor Reduces Oxidative Damage and Amyloid Burden in a Model of Alzheimer's Disease

Liang¹,

Wang²,

Hand³

et al. 2005

J. Neurosci.

219

202

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Epidemiological studies demonstrate that chronic use of nonsteroidal anti-inflammatory drugs (NSAIDs) in normal aging populations reduces the risk of developing Alzheimer's disease (AD). NSAIDs inhibit the enzymatic activity of cyclooxygenase-1 (COX-1) and inducible COX-2, which catalyze the first committed step in the synthesis of prostaglandins. These studies implicate COX-mediated inflammation as an early and potentially reversible preclinical event; however, the mechanism by which COX activity promotes development of AD has not been determined. Recent studies implicate the prostaglandin E 2 (PGE 2 ) E prostanoid subtype 2 (EP2) receptor in the development of the innate immune response in brain. Here, we report that deletion of the PGE 2 EP2 receptor in the APPSwe-PS1⌬E9 model of familial AD results in marked reductions in lipid peroxidation in aging mice. This reduction in oxidative stress is associated with significant decreases in levels of amyloid-␤ (A␤) 40 and 42 peptides and amyloid deposition. Aged APPSwe-PS1⌬E9 mice lacking the EP2 receptor harbor lower levels of ␤ C-terminal fragments, the product of ␤-site APP cleaving enzyme (BACE1) processing of amyloid precursor protein. Increases in BACE1 processing have been demonstrated in models of aging and AD and after oxidative stress. Our results indicate that PGE 2 signaling via the EP2 receptor promotes age-dependent oxidative damage and increased A␤ peptide burden in this model of AD, possibly via effects on BACE1 activity. Our findings identify EP2 receptor signaling as a novel proinflammatory and proamyloidogenic pathway in this model of AD, and suggest a rationale for development of therapeutics targeting the EP2 receptor in neuroinflammatory diseases such as AD.

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The LPS receptor (CD14) links innate immunity with Alzheimer's disease

Cited by 288 publications

References 37 publications

CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

Evaluating the role of Toll-like receptors in diseases of the central nervous system

Deletion of the Prostaglandin E₂EP2 Receptor Reduces Oxidative Damage and Amyloid Burden in a Model of Alzheimer's Disease

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The LPS receptor (CD14) links innate immunity with Alzheimer's disease

Cited by 288 publications

References 37 publications

CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

CD14 Protein Acts as an Adaptor Molecule for the Immune Recognition of Salmonella Curli Fibers

Evaluating the role of Toll-like receptors in diseases of the central nervous system

Deletion of the Prostaglandin E2EP2 Receptor Reduces Oxidative Damage and Amyloid Burden in a Model of Alzheimer's Disease

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Deletion of the Prostaglandin E₂EP2 Receptor Reduces Oxidative Damage and Amyloid Burden in a Model of Alzheimer's Disease