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Article type: Research Article
Authors: Paley, Elena L.a; b; *
Affiliations: [a] Expert Biomed, Inc., Miami, FL, USA | [b] Stop Alzheimers Corp, Miami, FL, USA
Correspondence: [*] Correspondence to: Elena L. Paley, Expert Biomed, Inc, 11933 SW 271st TER Homestead, Miami-Dade, FL 33032-3305, USA. E-mail: elena_paley@bellsouth.net.
Abstract: Alzheimer’s disease (AD)-associated sequence (ADAS) of cultured fecal bacteria was discovered in human gut targeted screening. This study provides important information to expand our current understanding of the structure/activity relationship of ADAS and putative inhibitors/activators that are potentially involved in ADAS appearance/disappearance. The NCBI database analysis revealed that ADAS presents at a large proportion in American Indian Oklahoman (C&A) with a high prevalence of obesity/diabetes and in colorectal cancer (CRC) patients from the US and China. An Oklahoman non-native group (NNI) showed no ADAS. Comparison of two large US populations reveals that ADAS is more frequent in individuals aged ≥66 and in females. Prevalence and levels of fecal metabolites are altered in the C&A and CRC groups versus controls. Biogenic amines (histamine, tryptamine, tyramine, phenylethylamine, cadaverine, putrescine, agmatine, spermidine) that present in food and are produced by gut microbiota are significantly higher in C&A (e.g., histamine/histidine 95-fold) versus NNI (histamine/histidine 16-fold). The majority of these bio-amines are cytotoxic at concentrations found in food. Inositol phosphate signaling implicated in AD is altered in C&A and CRC. Tryptamine stimulated accumulation of inositol phosphate. The seizure-eliciting tryptamine induced cytoplasmic vacuolization and vesiculation with cell fragmentation. Present additions of ADAS-carriers at different ages including infants led to an ADAS-comprising human sample size of 2,830 from 27 studies from four continents (North America, Australia, Asia, Europe). Levels of food-derived monoamine oxidase inhibitors and anti-bacterial compounds, the potential modulators of ADAS-bacteria growth and biogenic amine production, were altered in C&A versus NNI. ADAS is attributable to potentially modifiable risk factors of AD associated diseases.
Keywords: Alzheimer’s human gut metagenome, angiogenesis, biogenic amines, food, gut metabolomics, protein biosynthesis
DOI: 10.3233/JAD-190873
Journal: Journal of Alzheimer's Disease, vol. 72, no. 1, pp. 319-355, 2019
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