SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2155698747> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W2155698747 endingPage "419" @default.
W2155698747 startingPage "408" @default.
W2155698747 abstract "Membrane transport processes, at both the plasma membranes and intracellular membranes, play critical roles in renal function and are a determining factor in the susceptibility of renal epithelial cells to blood-borne drugs and toxic chemicals. Proximal tubular epithelial cells possess a large array of transport proteins for organic anions, organic cations, and peptides on both basolateral and brush-border plasma membranes. Although these transporters function in excretion of waste products and reabsorption of nutrients, they also play a role in the susceptibility of the kidneys to drugs and other toxicants in the blood. The proximal tubules are typically the primary target cells because they are the first epithelial cell population exposed to such chemicals in either the renal plasma or glomerular filtrate and because of their large array of membrane transporters. Besides transport across the basolateral and brush-border plasma membranes, transport across intracellular membranes such as the mitochondrial inner membrane is a critical determinant of metabolite distribution. To illustrate the function of these transporters, carrier-mediated processes for transport of the tripeptide and antioxidant glutathione across the basolateral, brush-border, and mitochondrial inner membranes of the renal proximal tubule are reviewed. Studies are summarized that have identified the involvement of specific carrier proteins and characterized the role of these transporters in glutathione metabolism and turnover, susceptibility of the proximal tubules to oxidative and other stresses, and modulation in disease and other pathological processes." @default.
W2155698747 created "2016-06-24" @default.
W2155698747 creator A5076950649 @default.
W2155698747 date "2010-07-23" @default.
W2155698747 modified "2023-10-17" @default.
W2155698747 title "Renal Membrane Transport of Glutathione in Toxicology and Disease" @default.
W2155698747 cites W1037298509 @default.
W2155698747 cites W1488271004 @default.
W2155698747 cites W1489129939 @default.
W2155698747 cites W1489389457 @default.
W2155698747 cites W1595378465 @default.
W2155698747 cites W1662066112 @default.
W2155698747 cites W1931505520 @default.
W2155698747 cites W1943860034 @default.
W2155698747 cites W1964868326 @default.
W2155698747 cites W1966621383 @default.
W2155698747 cites W1967285364 @default.
W2155698747 cites W1968425502 @default.
W2155698747 cites W1971752280 @default.
W2155698747 cites W1971901938 @default.
W2155698747 cites W1971972739 @default.
W2155698747 cites W1972907759 @default.
W2155698747 cites W1986918318 @default.
W2155698747 cites W1993076809 @default.
W2155698747 cites W1993796792 @default.
W2155698747 cites W1995370236 @default.
W2155698747 cites W1999827010 @default.
W2155698747 cites W2001778733 @default.
W2155698747 cites W2002955143 @default.
W2155698747 cites W2004814469 @default.
W2155698747 cites W2007788761 @default.
W2155698747 cites W2008182673 @default.
W2155698747 cites W2008249399 @default.
W2155698747 cites W2008840452 @default.
W2155698747 cites W2011578535 @default.
W2155698747 cites W2012157279 @default.
W2155698747 cites W2014051119 @default.
W2155698747 cites W2015026246 @default.
W2155698747 cites W2017660035 @default.
W2155698747 cites W2022834029 @default.
W2155698747 cites W2023499544 @default.
W2155698747 cites W2023910889 @default.
W2155698747 cites W2025515659 @default.
W2155698747 cites W2025520684 @default.
W2155698747 cites W2030548279 @default.
W2155698747 cites W2038238219 @default.
W2155698747 cites W2044437167 @default.
W2155698747 cites W2045161916 @default.
W2155698747 cites W2048541050 @default.
W2155698747 cites W2049229528 @default.
W2155698747 cites W2051295849 @default.
W2155698747 cites W2051887350 @default.
W2155698747 cites W2059983326 @default.
W2155698747 cites W2060634509 @default.
W2155698747 cites W2070972281 @default.
W2155698747 cites W2071774543 @default.
W2155698747 cites W2072537748 @default.
W2155698747 cites W2075525736 @default.
W2155698747 cites W2075697830 @default.
W2155698747 cites W2077043184 @default.
W2155698747 cites W2078094121 @default.
W2155698747 cites W2078621849 @default.
W2155698747 cites W2078862746 @default.
W2155698747 cites W2079516645 @default.
W2155698747 cites W2084703008 @default.
W2155698747 cites W2087213057 @default.
W2155698747 cites W2087598382 @default.
W2155698747 cites W2087777464 @default.
W2155698747 cites W2091102127 @default.
W2155698747 cites W2092621535 @default.
W2155698747 cites W2092943664 @default.
W2155698747 cites W2095574453 @default.
W2155698747 cites W2099795292 @default.
W2155698747 cites W2105754268 @default.
W2155698747 cites W2106189131 @default.
W2155698747 cites W2109519393 @default.
W2155698747 cites W2112022806 @default.
W2155698747 cites W2119046591 @default.
W2155698747 cites W2121713073 @default.
W2155698747 cites W2130692096 @default.
W2155698747 cites W2133613922 @default.
W2155698747 cites W2146810715 @default.
W2155698747 cites W2148820240 @default.
W2155698747 cites W2156585220 @default.
W2155698747 cites W2165860016 @default.
W2155698747 cites W2168024298 @default.
W2155698747 cites W2410851680 @default.
W2155698747 cites W2413738188 @default.
W2155698747 cites W4252245575 @default.
W2155698747 cites W4253824341 @default.
W2155698747 cites W2074250670 @default.
W2155698747 doi "https://doi.org/10.1177/0300985810375811" @default.
W2155698747 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20656901" @default.
W2155698747 hasPublicationYear "2010" @default.
W2155698747 type Work @default.
W2155698747 sameAs 2155698747 @default.
W2155698747 citedByCount "28" @default.
W2155698747 countsByYear W21556987472012 @default.