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Target Concepts:
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Query: UMLS:C0018099 (
gout
)
5,192
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Work is continuing in the attempt to increase knowledge of the regulation of the rate of purine synthesis in man by means of an analysis of biochemical alterations leading to purine overproduction among patients with
gout
. The authors are now assessing the frequency of kinetic mutations in enzymes whose alterations already have been associated with increased purine synthesis. Efforts in this regard have been rewarded by the identification of a new form of alteration leading to partial deficiency of HGPRT and a kinetic variant of PRPP synthetase with increased affinity for
ribose-5-phosphate
. In order to identify new forms of enzyme abnormalities associated with excessive purine synthesis, the value of a proposed classification scheme requiring measurement of PRPP and
ribose-5-phosphate
concentration and generation is being assessed in cultured fibroblasts. It is hoped that the results of these measurements will lead to the identification of additional kinetic variants of presently known enzyme abnormalities and will help to identify new classes of mutants in the regulation of human purine metabolism. The excessive purine synthesis that underlies the hyperuricemia of a substantial number of patients with gouty arthritis reflects alterations in the normal mechanism regulating the rate of purine nucleotide synthesis. The study of such purine "overproducers" has provided insight into the nature of this regulatory mechanism and has underscored the diversity of specific genetic and biochemical aberrations affecting it. Despite these advances, however, less than 10% of all patients with
gout
and excessive purine production can presently be accounted for by known enzyme abnormalities (1). Recognition that current knowledge of the regulation of the rate of purine nucleotide synthesis in man is incomplete has provided the authors impetus leading to the studies described here, which are preceded by a brief review of background.
...
PMID:Recent advances in the identification of enzyme abnormalities underlying excessive purine synthesis in man. 17 46
In the majority of patients with
gout
and excessive uric acid production, underlying enzyme abnormalities have not been identified. In the present study, measurement of both the rate of generation and concentration of phosphoribosylpyrophosphate (PP-ribose-P) and the concentration of
ribose-5-phosphate
in cultured cells were undertaken to establish a classification of purine overproducers to direct study of additional enzyme defects. Fibroblasts were cultured from 24 individuals assigned to 4 groups: group 1, 5 normal controls; group 2, 5 patients with
gout
and normal dialy urinary uric acid excretion (gouty controls); group 3, 7 patients with well-defined enzyme abnormalities and excessive urinary acid excretion (4 with hypoxanthine-guanine phosphoribosyltransferase deficiency and 3 with excessive PP-ribose-P synthetase activity); and group 4, 7 patients with
gout
and excessive uric acid excretion but without grossly abnormal activities of the above enzymes in erythrocyte lysates. In all 14 fibroblast strains from patients showing excessive production of uric acid (groups 3 and 4), rates of purine synthesis de novo and PP-ribose-P concentrations exceeded values for cells from control groups. Cells from group 3 patients with hypoxanthine-guanine phosphoribosyltransferase deficiency showed normal PP-ribose-P generation, while those with excessive PP-ribose-P synthetase activity demonstrated increased generation of this regulatory substrate. All strains from group 3 patients had normal
ribose-5-phosphate
concentrations. Five cell strains from group 4 patients showed one of the two patterns of abnormalities in these measurements seen in strains from group 3 patients: two resembled hypoxanthine-guanine phosphoribosyltransferase-deficient cells, and three resembled cells with excessive PP-ribose-P synthetase activity. Analyses of erythrocyte enzyme preparations from two of these patients in group 4 have led to identification of a kinetic variant of each enzyme as predicted from the foregoing patterns. Two additional group 4 cell lines that showed increased
ribose-5-phosphate
concentrations in addition to increased PP-ribose-P concentrations and generation were classified in a separate subgroup, since in the individuals excessive purine synthesis appeared to result from increases
ribose-5-phosphate
concentration, leading to increased availability of PP-ribose-P. No abnormality in either hypoxanthine-guanine phosphoribosyltransferase or PP-ribose-P synthetase has been found in erythrocyte preparations from one patient so classified.
...
PMID:Patterns of phosphoribosylpyrophosphate and ribose-5-phosphate concentration and generation in fibroblasts from patients with gout and purine overproduction. 17 78
Phosphoribosylpyrophosphate(PRPP) synthetase(PRS) catalyzes the formation of PRPP from ATP and
ribose-5-phosphate
. PRPP is an important substrate for the synthesis of purine, pyrimidine, and pyridine dinucleotides. Human PRS exists as complex aggregates composed of the 34 kDa catalytic subunits(PRS1 and PRS2) and other 39 kDa component designated PRPP synthetase-associated protein (PAP39). PRS superactivity is an X-chromosome linked disorder, characterized by
gout
and uric acid overproduction resulting from accelerated synthesis of PRPP and purine nucleotides. Among the nearly 30 affected families identified to date, there are several families in which PRS superactivity with purine nucleotide feedback resistance are associated with neurodevelopmental abnormalities in addition to hyperuricemia and
gout
. Different nucleotide substitutions in the PRPS1 gene encoding PRS1 have identified in six unrelated affected families with purine nucleotide feedback-resistant PRS superactivity.
...
PMID:[PRPP synthetase superactivity]. 897 11
