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Title: Short-term metabolic fate of 13N-labeled glutamate, alanine, and glutamine(amide) in rat liver. Author: Cooper AJ, Nieves E, Rosenspire KC, Filc-DeRicco S, Gelbard AS, Brusilow SW. Journal: J Biol Chem; 1988 Sep 05; 263(25):12268-73. PubMed ID: 2900834. Abstract: Tracer quantities (in 0.2 ml) of 13N-labeled glutamate, alanine, or glutamine(amide) were administered rapidly (less than or equal to 2 s) via the portal vein of anesthetized adult male rats. Liver content of tracer at 5 s was 57 +/- 6 (n = 6), 24 +/- 1 (n = 3), and 69 +/- 7 (n = 3)% of the injected dose, respectively. Portal-hepatic vein differences for the corresponding amino acids were 17 +/- 6, 26 +/- 8, and 19 +/- 9% (n = 4), respectively, suggesting some export of glutamate and glutamine, but not of alanine, to the hepatic vein. Following L-[13N]glutamate administration, label rapidly appeared in liver alanine and aspartate (within seconds). The data emphasize the rapidity of nitrogen exchange via linked transaminases. By 30 s following administration of either L-[13N]glutamate or L-[13N]alanine, label in liver glutamate was comparable; yet, by 1 min greater than or equal to 9 times as much label was present in liver glutamine(amine) following L-[13N]glutamate administration than following L-[13N]alanine administration. Conversely, label in liver urea at 1 min was more pronounced in the latter case despite: (a) comparable total pool sizes of glutamate and alanine in liver; and (b) label incorporation from alanine into urea must occur via prior transfer of alanine nitrogen to glutamate. The data provide evidence for zonal differences in uptake of alanine and glutamate from the portal vein in vivo. The rate of turnover of L-[amide-13N]glutamine was considerably slower than that of L-[13N]alanine or of L-[13N]glutamate, presumably due in part to the higher concentration of glutamine in that organ. Nevertheless, it was possible to show that despite occasional suggestions to the contrary, glutamine(amide) is a source of urea nitrogen in vivo. The present findings continue to emphasize the rapidity of nitrogen exchange reactions in vivo.[Abstract] [Full Text] [Related] [New Search]