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Am J Physiol Gastrointest Liver Physiol 251: G501-G508, 1986;
0193-1857/86 $5.00
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AJP - Gastrointestinal and Liver Physiology, Vol 251, Issue 4 501-G508, Copyright © 1986 by American Physiological Society

ARTICLES

Uptake pathways for amino acids in mouse intestine

W. Karasov, D. Solberg, S. Carter, M. Hughes, D. Phan, F. Zollman and J. Diamond

This paper characterizes amino acid (AA) uptake pathways in an everted-sleeve preparation of mouse jejunum. AA uptake is linear with time for 2-4 min, depending on the particular AA and its uptake rate. Escape of tracer to the serosal surface is still negligible at these times. Errors due to metabolism of labeled AAs to volatile products can be minimized by using 14C- rather than 3H-labeled AAs and by not drying tissues before counting. The dependence of AA uptake on concentration shows saturable kinetics, with apparent Km values in the range 1-4 mM. By 25 or 50 mM an uptake plateau is reached for leucine, lysine, methionine, and methylaminoisobutyric acid but not for aspartic acid, histidine, or proline. Proline kinetics are the result of a saturable Na+-dependent component, a linear diffusional component, and possibly a small saturable Na+-independent component. The Na+-dependent component of uptake for six AAs averages 83% of the total at 0.01 mM and 54% at 25 or 50 mM. Leucine and D-glucose exhibit modest (32%) cross-inhibition of Na+-dependent uptake. For the same six AAs we determined the percent inhibition of both the Na+-dependent and the Na+-independent components by the other AAs. These results suggest the presence of at least five or six AA uptake pathways in mouse jejunum: distinct Na+-dependent pathways for acidic, basic, and neutral AAs and for imino acids; a shared Na+-independent pathway for basic and neutral AAs; and possibly a Na+-independent pathway for acidic AAs. Comparisons of AA uptake pathways in mouse, rabbit, and rat intestine reveal many similarities but also some differences.


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S. Broer
Amino Acid Transport Across Mammalian Intestinal and Renal Epithelia
Physiol Rev, January 1, 2008; 88(1): 249 - 286.
[Abstract] [Full Text] [PDF]


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