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W4210347913 endingPage "2100853" @default.
W4210347913 startingPage "2100853" @default.
W4210347913 abstract "The molecular basis underlying the anti-inflammatory and anticarcinogenic properties of cranberries is incompletely understood. The effects of a cranberry proanthocyanidin-rich extract (PAC) and two of its gut microbial metabolites, 3,4-dihydroxyphenylacetic acid (DHPAA) and 3-(4-hydroxyphenyl)-propionic acid (HPPA), on intestinal epithelial cells microRNA (miRNA) expression and their downstream pathways at homeostasis and in inflammatory conditions, are investigated.The expression of 799 miRNAs is quantitatively assessed in differentiated Caco-2BBe1 cells pre-treated with PAC, DHPAA, or HPPA and stimulated with interleukin (IL)-1β or not. PAC, DHPAA, and HPPA generate subsets of shared and distinct miRNA responses. At homeostasis, miRNAs affected by the metabolites, but not PAC, targeted genes enriched in kinase, Wnt, and growth factor signaling, cell growth and proliferation, apoptosis, and specific cancer pathways. In an inflammatory environment, PAC and DHPAA, but not HPPA, reverses the expression of 16 and two IL-1β-induced miRNAs, respectively, regulating inflammatory and cancer pathways.miRNA modulation is a novel mechanism for PAC bioactivity in the gut. The gut microbiota may be necessary to unlock these effects at homeostasis and partially in inflammation." @default.
W4210347913 created "2022-02-08" @default.
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W4210347913 date "2022-02-15" @default.
W4210347913 modified "2023-10-05" @default.
W4210347913 title "Cranberry Proanthocyanidin and Its Microbial Metabolite 3,4‐Dihydroxyphenylacetic Acid, but Not 3‐(4‐Hydroxyphenyl)‐Propionic Acid, Partially Reverse Pro‐Inflammatory microRNA Responses in Human Intestinal Epithelial Cells" @default.
W4210347913 cites W144423133 @default.
W4210347913 cites W1537587107 @default.
W4210347913 cites W1640670825 @default.
W4210347913 cites W1826133046 @default.
W4210347913 cites W1893584805 @default.
W4210347913 cites W1973213010 @default.
W4210347913 cites W1973913750 @default.
W4210347913 cites W1981181520 @default.
W4210347913 cites W1988001692 @default.
W4210347913 cites W1994089958 @default.
W4210347913 cites W2003395833 @default.
W4210347913 cites W2013270187 @default.
W4210347913 cites W2013822780 @default.
W4210347913 cites W2014418136 @default.
W4210347913 cites W2014622025 @default.
W4210347913 cites W2026064204 @default.
W4210347913 cites W2026570544 @default.
W4210347913 cites W2030911950 @default.
W4210347913 cites W2038566784 @default.
W4210347913 cites W2047848539 @default.
W4210347913 cites W2054550188 @default.
W4210347913 cites W2056056123 @default.
W4210347913 cites W2060379087 @default.
W4210347913 cites W2062620141 @default.
W4210347913 cites W2069566291 @default.
W4210347913 cites W2070359556 @default.
W4210347913 cites W2070391335 @default.
W4210347913 cites W2077838973 @default.
W4210347913 cites W2078694607 @default.
W4210347913 cites W2080476488 @default.
W4210347913 cites W2085963067 @default.
W4210347913 cites W2107277218 @default.
W4210347913 cites W2125402520 @default.
W4210347913 cites W2132022654 @default.
W4210347913 cites W2135061646 @default.
W4210347913 cites W2136059996 @default.
W4210347913 cites W2142436655 @default.
W4210347913 cites W2147923982 @default.
W4210347913 cites W2148268346 @default.
W4210347913 cites W2150875162 @default.
W4210347913 cites W2157197396 @default.
W4210347913 cites W2159675211 @default.
W4210347913 cites W2164557215 @default.
W4210347913 cites W2167215692 @default.
W4210347913 cites W2171352366 @default.
W4210347913 cites W2186679996 @default.
W4210347913 cites W2276827481 @default.
W4210347913 cites W2291170828 @default.
W4210347913 cites W2343509140 @default.
W4210347913 cites W2412815564 @default.
W4210347913 cites W2558585189 @default.
W4210347913 cites W2571845962 @default.
W4210347913 cites W2594158458 @default.
W4210347913 cites W2595820393 @default.
W4210347913 cites W2627092521 @default.
W4210347913 cites W2765836325 @default.
W4210347913 cites W2768237001 @default.
W4210347913 cites W2768781242 @default.
W4210347913 cites W2794248674 @default.
W4210347913 cites W2891671847 @default.
W4210347913 cites W2896668397 @default.
W4210347913 cites W2898440040 @default.
W4210347913 cites W2900205080 @default.
W4210347913 cites W2901002870 @default.
W4210347913 cites W2943052391 @default.
W4210347913 cites W2951095950 @default.
W4210347913 cites W2951230290 @default.
W4210347913 cites W2968203396 @default.
W4210347913 cites W2984535964 @default.
W4210347913 cites W3001892728 @default.
W4210347913 cites W3019214744 @default.
W4210347913 cites W3180068080 @default.
W4210347913 cites W3206972099 @default.
W4210347913 doi "https://doi.org/10.1002/mnfr.202100853" @default.
W4210347913 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35112478" @default.
W4210347913 hasPublicationYear "2022" @default.
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