Shoko Kobayashi scite author profile

Both chlorogenic and caffeic acids exhibited nonsaturable transport in Caco-2 cells, whereas caffeic acid also showed proton-coupled polarized absorption. Thus, the absorption efficiency of caffeic acid was greater than that of chlorogenic acid. Polarized transport of caffeic acid was inhibited by substrates of MCT such as benzoic and acetic acids. Almost all of the apically loaded chlorogenic and caffeic acid was retained on the apical side, and the transepithelial flux was inversely correlated with the paracellular permeability of Caco-2 cells. These results indicate that transport was mainly via paracellular diffusion, although caffeic acid was absorbed to a lesser extent by the monocarboxylic acid transporter (MCT). Furthermore, m-coumaric acid and 3-(m-hydroxyphenyl)propionic acid, the main metabolites of chlorogenic and caffeic acid by colonic microflora, competitively inhibited the transport of fluorescein, a known substrate of MCT. This suggests that their absorption could also be mediated by MCT. These findings have exemplified the physiological importance of MCT-mediated absorption in both phenolic acids per se and their colonic metabolites.

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Embryonic and fetal β-globin gene repression by the orphan nuclear receptors, TR2 and TR4

Takahashi

McPhee

Kobayashi

et al. 2007

EMBO J

144

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The TR2 and TR4 orphan nuclear receptors comprise the DNA-binding core of direct repeat erythroid definitive, a protein complex that binds to direct repeat elements in the embryonic and fetal beta-type globin gene promoters. Silencing of both the embryonic and fetal beta-type globin genes is delayed in definitive erythroid cells of Tr2 and Tr4 null mutant mice, whereas in transgenic mice that express dominant-negative TR4 (dnTR4), human embryonic epsilon-globin is activated in primitive and definitive erythroid cells. In contrast, human fetal gamma-globin is activated by dnTR4 only in definitive, but not in primitive, erythroid cells, implicating TR2/TR4 as a stage-selective repressor. Forced expression of wild-type TR2 and TR4 leads to precocious repression of epsilon-globin, but in contrast to induction of gamma-globin in definitive erythroid cells. These temporally specific, gene-selective alterations in epsilon- and gamma-globin gene expression by gain and loss of TR2/TR4 function provide the first genetic evidence for a role for these nuclear receptors in sequential, gene-autonomous silencing of the epsilon- and gamma-globin genes during development, and suggest that their differential utilization controls stage-specific repression of the human epsilon- and gamma-globin genes.

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Transepithelial Transport ofp-Coumaric Acid and Gallic Acid in Caco-2 Cell Monolayers

Konishi

Kobayashi

Shimizu

2003

Bioscience, Biotechnology, and Biochemistry

128

129

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Rosmarinic acid suppresses Alzheimer’s disease development by reducing amyloid β aggregation by increasing monoamine secretion

Hase

Shishido

Yamamoto

et al. 2019

Sci Rep

106

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A new mechanism is revealed by which a polyphenol, rosmarinic acid (RA), suppresses amyloid β (Aβ) accumulation in mice. Here we examined the brains of mice (Alzheimer’s disease model) using DNA microarray analysis and revealed that the dopamine (DA)-signaling pathway was enhanced in the group fed RA versus controls. In the cerebral cortex, the levels of monoamines, such as norepinephrine, 3,4-dihydroxyphenylacetic acid, DA, and levodopa, increased after RA feeding. The expression of DA-degrading enzymes, such as monoamine oxidase B (Maob), was significantly downregulated in the substantia nigra and ventral tegmental area, both DA synthesis regions. Following in vitro studies showing that monoamines inhibited Aβ aggregation, this in vivo study, in which RA intake increased concentration of monoamine by reducing Maob gene expression, builds on that knowledge by demonstrating that monoamines suppress Aβ aggregation. In conclusion, RA-initiated monoamine increase in the brain may beneficially act against AD.

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Shoko Kobayashi

Transepithelial Transport of Chlorogenic Acid, Caffeic Acid, and Their Colonic Metabolites in Intestinal Caco-2 Cell Monolayers

Embryonic and fetal β-globin gene repression by the orphan nuclear receptors, TR2 and TR4

Transepithelial Transport ofp-Coumaric Acid and Gallic Acid in Caco-2 Cell Monolayers

Rosmarinic acid suppresses Alzheimer’s disease development by reducing amyloid β aggregation by increasing monoamine secretion

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