SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022019423> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2022019423 endingPage "C599" @default.
W2022019423 startingPage "C588" @default.
W2022019423 abstract "Copper is an essential micronutrient in humans and is required for a wide range of physiological processes, including neurotransmitter biosynthesis, oxidative metabolism, protection against reactive oxygen species, and angiogenesis. The first step in the acquisition of dietary copper is absorption from the intestinal lumen. The major human high-affinity copper uptake protein, human copper transporter hCTR1, was recently shown to be at the basolateral or blood side of both intestinal and renal epithelial cell lines and thus does not play a direct role in this initial step. We sought to functionally identify the major transport pathways available for the absorption of dietary copper across the apical intestinal membrane using Caco2 cells, a well-established model for human enterocytes. The initial rate of apical copper uptake into confluent monolayers of Caco2 cells is greatly elevated if amino acids and serum proteins are removed from the growth media. Uptake from buffered saline solutions at neutral pH (but not at lower pH) is inhibited by either d- or l-histidine, unaltered by the removal of sodium ions, and inhibited by ∼90% when chloride ions are replaced by gluconate or sulfate. Chloride-dependent copper uptake occurs with Cu(II) or Cu(I), although Cu(I) uptake is not inhibited by histidine, nor by silver ions. A well-characterized inhibitor of anion exchange systems, DIDS, inhibited apical copper uptake by 60–70%, while the addition of Mn(II) or Fe(II), competitive substrates for the divalent metal transporter DMT1, had no effect on copper uptake. We propose that anion exchangers play an unexpected role in copper absorption, utilizing copper-chloride complexes as pseudo-substrates. This pathway is also observed in mouse embryonic fibroblasts, human embryonic kidney cells, and Cos-7 cells. The special environment of low pH, low concentration of protein, and protonation of amino acids in the early intestinal lumen make this pathway especially important in dietary copper acquisition." @default.
W2022019423 created "2016-06-24" @default.
W2022019423 creator A5003893618 @default.
W2022019423 creator A5048613121 @default.
W2022019423 creator A5074222765 @default.
W2022019423 date "2011-03-01" @default.
W2022019423 modified "2023-10-14" @default.
W2022019423 title "Acquisition of dietary copper: a role for anion transporters in intestinal apical copper uptake" @default.
W2022019423 cites W1543687525 @default.
W2022019423 cites W1582425715 @default.
W2022019423 cites W1964254856 @default.
W2022019423 cites W1970127992 @default.
W2022019423 cites W1972564424 @default.
W2022019423 cites W1975758347 @default.
W2022019423 cites W1985178815 @default.
W2022019423 cites W1987365971 @default.
W2022019423 cites W1988197962 @default.
W2022019423 cites W1992116057 @default.
W2022019423 cites W1992735902 @default.
W2022019423 cites W2006138834 @default.
W2022019423 cites W2016207457 @default.
W2022019423 cites W2021399436 @default.
W2022019423 cites W2024427829 @default.
W2022019423 cites W2024705852 @default.
W2022019423 cites W2025775591 @default.
W2022019423 cites W2033682153 @default.
W2022019423 cites W2042322781 @default.
W2022019423 cites W2051747959 @default.
W2022019423 cites W2055432880 @default.
W2022019423 cites W2061318928 @default.
W2022019423 cites W2061357021 @default.
W2022019423 cites W2063157862 @default.
W2022019423 cites W2070236309 @default.
W2022019423 cites W2074819870 @default.
W2022019423 cites W2079233555 @default.
W2022019423 cites W2079240282 @default.
W2022019423 cites W2084931895 @default.
W2022019423 cites W2091189156 @default.
W2022019423 cites W2094188161 @default.
W2022019423 cites W2097306022 @default.
W2022019423 cites W2104281953 @default.
W2022019423 cites W2115367317 @default.
W2022019423 cites W2117869728 @default.
W2022019423 cites W2120775496 @default.
W2022019423 cites W2123314654 @default.
W2022019423 cites W2135040692 @default.
W2022019423 cites W2140880010 @default.
W2022019423 cites W2147846966 @default.
W2022019423 cites W2148315550 @default.
W2022019423 cites W2152511204 @default.
W2022019423 cites W2156644611 @default.
W2022019423 cites W2168288152 @default.
W2022019423 cites W2171666776 @default.
W2022019423 cites W2239946382 @default.
W2022019423 cites W2247851187 @default.
W2022019423 cites W2286120744 @default.
W2022019423 cites W2344640582 @default.
W2022019423 cites W2418235822 @default.
W2022019423 doi "https://doi.org/10.1152/ajpcell.00054.2010" @default.
W2022019423 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3063964" @default.
W2022019423 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21191107" @default.
W2022019423 hasPublicationYear "2011" @default.
W2022019423 type Work @default.
W2022019423 sameAs 2022019423 @default.
W2022019423 citedByCount "76" @default.
W2022019423 countsByYear W20220194232012 @default.
W2022019423 countsByYear W20220194232013 @default.
W2022019423 countsByYear W20220194232014 @default.
W2022019423 countsByYear W20220194232015 @default.
W2022019423 countsByYear W20220194232016 @default.
W2022019423 countsByYear W20220194232017 @default.
W2022019423 countsByYear W20220194232018 @default.
W2022019423 countsByYear W20220194232019 @default.
W2022019423 countsByYear W20220194232020 @default.
W2022019423 countsByYear W20220194232021 @default.
W2022019423 countsByYear W20220194232022 @default.
W2022019423 countsByYear W20220194232023 @default.
W2022019423 crossrefType "journal-article" @default.
W2022019423 hasAuthorship W2022019423A5003893618 @default.
W2022019423 hasAuthorship W2022019423A5048613121 @default.
W2022019423 hasAuthorship W2022019423A5074222765 @default.
W2022019423 hasBestOaLocation W20220194232 @default.
W2022019423 hasConcept C104317684 @default.
W2022019423 hasConcept C12554922 @default.
W2022019423 hasConcept C149011108 @default.
W2022019423 hasConcept C178790620 @default.
W2022019423 hasConcept C179104552 @default.
W2022019423 hasConcept C185592680 @default.
W2022019423 hasConcept C2776531687 @default.
W2022019423 hasConcept C2778460671 @default.
W2022019423 hasConcept C2779533339 @default.
W2022019423 hasConcept C3018436504 @default.
W2022019423 hasConcept C41625074 @default.
W2022019423 hasConcept C515207424 @default.
W2022019423 hasConcept C544778455 @default.
W2022019423 hasConcept C55493867 @default.
W2022019423 hasConcept C62231903 @default.
W2022019423 hasConcept C86803240 @default.