Some of the enzymes involved in the biosynthesis of
uric acid have been investigated in two groups of patients:
hyperuricaemic and gouty individuals. A group of normal
controls has been used for comparison. Human erythrocyte
phosphoribosylpyrophosphate synthetase (2.7.6.1.) was found
to be much more stable in all samples than has been reported.
Kinetic parameters for this enzyme, using a modified assay,
were identical in individuals from the three clinical
groups. Inhibition studies using a range of inhibitors
of widely differing chemical structure showed uniformity
in characteristics amongst gouty or healthy individuals.
Some inhibitors revealed possible genetic variants of the
enzyme which are linked neither to hyperuricaemia nor to
gout.
Statistical analyses have shown a significant
increase in the enzymic activity of erythrocyte phosphoribosylpyrophosphate
synthetase in both the hyperuricaemic
groups compared with the controls. No correlation of age
with enzymic activity occurs in any of the three clinical
groups. A significant decrease has been found for the
enzymic activity of erythrocyte glutathione reductase
(1 .6.4 .2.) of thee gout group compered w:ith the other
two groups. The activities of these two enzymes do not
appear to be linked. A significant increase in serum
adenosine deaminase (3.5.4.4.) activities has been
found in a heterogeneous hyperuricaemic group compared
with controls.
Electrophoretic studies of erythrocyte phosphoribosylpyrophosphate
synthetase, adenosine deaminase,
hypoxanthineguanine phosphoribosyltransferase (2.4.2.8.)
and glutathione reductase have shown probable enzyme
polymorphisms which appear to be unrelated to hyperuricaemia
or gout. Modified staining techniques have been developed
for the detection of isoenzymes in all systems.
There is no evidence for urate binding to plasma
proteins in either healthy or hyperuricaemic individuals
from occlusion, ultrafiltration, electrophoresis or gel
filtration experiments. Urate appears to be present
in human leucocytes combined to protein or other component
of the cell. There is no evidence of the presence
of urate in human erythrocytes.
Date of Award | 1981 |
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Original language | English |
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Awarding Institution | |
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BIOCHEMICAL STUDIES OF HUMAN HYPERURICAEMIA
Hardwell, T. R. (Author). 1981
Student thesis: PhD