TY - JOUR
T1 - Facilitated transport of uracil and 5‐fluorouracil, and permeation of orotic acid into cultured mammalian cells
AU - Wohlhueter, Robert M.
AU - McIvor, R. Scott
AU - Plagemann, Peter G.W.
PY - 1980/9
Y1 - 1980/9
N2 - The mode of permeation of uracil, 5–fluorouracil, and orotic acid into cells has been investigated in four established cell lines (Novikoff rat hepatoma, P388 mouse leukemia, mouse L, and Chinese hamster ovary cells) in attempts to assess the rate‐determining step(s) in their incorporation into the nucleotide pool and nucleic acids. Uracil and 5–fluorouracil shared a saturable transport system (Km = 5 to 15 mM) capable of rapid equilibration of these substrates across the cell membrane (t1/2 at 25 in first‐order range of concentration = 25 to 58 sec). Thus it seems unlikely that transport is limiting the incorporation hypoxanthine. Only the non‐ionized form of fluorouracil was a substrate for the transporter; exclusion of charged pyrimidines may explain why orotate was not a substrate at physiological pH. Orotate permeated the cell membrane much more slowly (t1/2 = 2890 to 6930 sec); its permeation was apparently non‐mediated and rate‐determining in the conversion of extracellular orotate to intracellular nucleotides.
AB - The mode of permeation of uracil, 5–fluorouracil, and orotic acid into cells has been investigated in four established cell lines (Novikoff rat hepatoma, P388 mouse leukemia, mouse L, and Chinese hamster ovary cells) in attempts to assess the rate‐determining step(s) in their incorporation into the nucleotide pool and nucleic acids. Uracil and 5–fluorouracil shared a saturable transport system (Km = 5 to 15 mM) capable of rapid equilibration of these substrates across the cell membrane (t1/2 at 25 in first‐order range of concentration = 25 to 58 sec). Thus it seems unlikely that transport is limiting the incorporation hypoxanthine. Only the non‐ionized form of fluorouracil was a substrate for the transporter; exclusion of charged pyrimidines may explain why orotate was not a substrate at physiological pH. Orotate permeated the cell membrane much more slowly (t1/2 = 2890 to 6930 sec); its permeation was apparently non‐mediated and rate‐determining in the conversion of extracellular orotate to intracellular nucleotides.
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U2 - 10.1002/jcp.1041040305
DO - 10.1002/jcp.1041040305
M3 - Article
C2 - 7419607
AN - SCOPUS:0019277437
SN - 0021-9541
VL - 104
SP - 309
EP - 319
JO - Journal of cellular physiology
JF - Journal of cellular physiology
IS - 3
ER -