Metabolism
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Urea synthesis in the liver, and potentially fatal hyperammonaemia in a child
Studies with isolated hepatocytes
Krebs
and Henseleit used very thin slices of liver, approximately one cell thick,
for their studies. The results here are from more recent experiments using isolated
liver parenchymal cells (hepatocytes).
Isolated hepatocytes provide an extremely convenient
system for metabolic investigations. The isolated cells are prepared by perfusion
of the liver in situ with collagenase; as the collagen in connective
tissue is hydrolysed, so the cells can be separated by gentle pressure, and
suspended in buffer for incubation. A relatively large number of experiments
can be performed using the cells from the liver of each rat or mouse.
The main urinary
nitrogen metabolite in mammals is urea.
What is the main factor that determines how much urea is synthesised and excreted?
The dietary intake of protein is the main factor that determines how much urea is synthesised and secreted, since protein is the main source of nitrogenous compounds in the diet. Remember that for an adult in nitrogen balance the excretion of nitrogenous compounds (mainly urea in the urine) is equal to the dietary intake of nitrogenous compounds. See the exercise on Nitrogen balance and protein requirements for more on this topic.
When isolated hepatocytes with increasing concentrations of ammonium, there is a steady increase in the formation of urea at low concentrations of ammonium, levelling off as the pathway for urea formation becomes saturated. If such studies are performed with isotopically labelled ammonium (15N, a stable isotope) only one of the two N atoms in urea is labelled.
The
sources of ammonium ions in the liver
There are two ways in which ammonium is formed in the liver: from glutamine by the action of glutaminase, and from adenosine, by the action of adenosine deaminase. Each provides about half the ammonium that is incorporated into urea directly.
Glutamine is formed from ammonium in peripheral tissues, as a way of transporting ammonium arising from amino acid and amine metabolism to the liver.
What is the pathway of glutamine formation in peripheral tissues?