2016
DOI: 10.1212/wnl.0000000000003391
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Gram-negative bacterial molecules associate with Alzheimer disease pathology

Abstract: Objective:We determined whether Gram-negative bacterial molecules are associated with Alzheimer disease (AD) neuropathology given that previous studies demonstrate Gram-negative Escherichia coli bacteria can form extracellular amyloid and Gram-negative bacteria have been reported as the predominant bacteria found in normal human brains.Methods:Brain samples from gray and white matter were studied from patients with AD (n = 24) and age-matched controls (n = 18). Lipopolysaccharide (LPS) and E coli K99 pili prot… Show more

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Cited by 429 publications
(389 citation statements)
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“…Gram-negative bacterial species (such as Escherichia coli K99) are the predominant sources of bacteria-derived factors in normal human brains, and levels of these molecules are increased in AD brains, along with levels of the bacterial cell wall component lipopolysaccharide 128 . Lipopolysaccharide colocalizes with Aβ in plaques in AD brains 128 , suggesting that Gram-negative bacteria are associated with AD pathogenesis. Probiotic supplementation is associated with improved cognition in patients with AD 129 , which further supports a role for the gut microbiota in AD development.…”
Section: Gut Microbiota Disturbance and Infectionmentioning
confidence: 99%
“…Gram-negative bacterial species (such as Escherichia coli K99) are the predominant sources of bacteria-derived factors in normal human brains, and levels of these molecules are increased in AD brains, along with levels of the bacterial cell wall component lipopolysaccharide 128 . Lipopolysaccharide colocalizes with Aβ in plaques in AD brains 128 , suggesting that Gram-negative bacteria are associated with AD pathogenesis. Probiotic supplementation is associated with improved cognition in patients with AD 129 , which further supports a role for the gut microbiota in AD development.…”
Section: Gut Microbiota Disturbance and Infectionmentioning
confidence: 99%
“…Of further related interest are the recent observations: (i) that the increased abundance of gram-negative GI tract bacteria such as B. fragilis in AD patients appears to result in increased generation and translocation of LPS and other Bacteroides-derived neurotoxins from the GI tract into the systemic circulation, which in turn may contribute to AD neuropathology through the release of pro-inflammatory cytokines, systemic inflammation, an increase in GI-tract or BBB permeability or other AD-relevant pathogenic mechanisms [9,[29][30][31][32], and (ii) that an increase in Bacteroidetes in the GI tract is also associated with Parkinson's disease (PD; [33]) and with sporadic AD hippocampus and neocortex, two anatomical regions targeted by the AD process [6,[34][35][36]. Importantly, while only the inflammatory potential of LPS towards primary human neuronal-glial (HNG) co-cultures have been studied and quantified by the induction of the pro-inflammatory NFkB p50/p65 complex, Bacteroidetes species are capable of secreting an unusually complex array of highly lethal neurotoxins including amyloids, sncRNAs and endotoxins which, when released from the confines of the healthy GI tract, are systemically pathogenic and can be highly detrimental to the homeostatic function of human CNS neurons [15].…”
Section: Bacteroidetes and Bacterioides Fragilis Abundance And Prolifmentioning
confidence: 99%
“…As fore-mentioned, microbes such as B. fragilis and Escherichia coli (E. coli), abundant anaerobic Gram-negative bacilli of the human GI-tract microbiome, appear to direct critical regulatory roles of pathogenicity through the stress-induced secretion of a complex mixture of bacterial amyloids, endotoxins and exotoxins, 'microRNA-like' sncRNAs and LPS. Recently work from several independent groups has further described the presence of intact bacteria, bacterial-derived nucleic acid sequences and/or bacterial-derived neurotoxins such as a highly pro-inflammatory LPS that is associated with neuronal parenchyma and in particular the neuronal nuclei of anatomical regions of the ADaffected brain exhibiting characteristic neuropathology [1,9,28,29,[34][35][36][37][38][39]. Interestingly, the close association of bacterial LPS with neuronal nuclei may prevent the efficient export of messenger RNA (mRNA) from a highly active neuronal genome resulting in the down-regulation of gene expression in AD as is widely observed [6,15].…”
Section: Bacterial Nucleic Acid Sequences In Cns Compartmentsmentioning
confidence: 99%
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