The spectrum of hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency. Clinical experience based on 22 patients from 18 Spanish families.

The enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) catalyzes the reutilization of hypoxanthine and guanine to the purine nucleotides IMP and GMP, respectively. HPRT deficiency is an X-linked disorder characterized by uric acid overproduction and variable neurologic impairment. The complete deficiency of HPRT is diagnostic of Lesch-Nyhan syndrome manifested by choreoathetosis, spasticity, mental retardation, and self-injurious behavior. In some HPRT-deficient patients the enzyme defect appeared to be "partial" and the neurologic symptoms mild to severe (Kelley-Seegmiller syndrome). This has prompted the classification of HPRT deficiency in 2 distinct groups: Lesch-Nyhan syndrome and Kelley-Seegmiller syndrome, which has created much confusion. A spectrum of clinical consequences of HPRT deficiency has been recognized in small series of patients, but the complete spectrum of the neurologic disorder has not been described in a single series of patients examined by the same observers. We analyzed our experience with 22 patients belonging to 18 different families with HPRT deficiency diagnosed at "La Paz" University Hospital in Madrid over the past 16 years. The clinical spectrum of these HPRT-deficient Spanish patients was similar to the different phenotypes occasionally reported in the literature, in some cases diagnosed as Lesch-Nyhan "variants." The clinical, biochemical, enzymatic, and molecular genetic studies on these 22 patients allowed us to delineate a new classification of HPRT deficiency. Based on the neurologic symptoms, dependency for personal care, HPRT activity in hemolysate and in intact erythrocytes, and predicted protein size, patients were classified into 4 groups: Group 1 (2 patients), normal development with no neurologic symptoms, HPRT activity was detectable in hemolysates and in intact erythrocytes, and the mutation did not affect the predicted protein size. Group 2 (3 patients) mild neurologic symptoms that did not prevent independent lives, HPRT activity was detectable in intact erythrocytes, and the protein size was normal. Group 3 (2 patients), severe neurologic impairment that precluded an independent life, no residual HPRT activity, and normal protein size. Group 4 (15 patients), clinical characteristics of Lesch-Nyhan syndrome (some may not show self-injurious behavior), no residual HPRT activity, and in most (7 of 8 patients in whom the mutation could be detected) the mutation affected the predicted protein size. This classification of HPRT deficiency into 4 groups may be more useful in terms of accuracy, reproducibility, assessment for treatment trials and prognosis. The study of this Spanish series allows us to conclude that HPRT deficiency may be manifested by a wide spectrum of neurologic symptoms; the overall severity of the disease is associated with mutations permitting some degree of residual enzyme activity; and mutation analysis provides a valuable tool for prognosis, carrier identification, and prenatal diagnosis.

Molecular basis of hypoxanthine-guanine phosphoribosyltransferase deficiency in thirteen Spanish families.

We have determined the molecular basis of hypoxanthine-guanine phosphoribosyltransferase (HPRT; HPRT1) deficiency in eight Lesch-Nyhan patients and in five partially HPRT deficient patients with mild to severe neurologic symptoms. Eight of these thirteen mutations have not been previously described. HPRT Zaragoza II (a GG insertion in exon 2), HPRT Murcia (an AG deletion in exon 4), HPRT Asturias (a A deletion in exon 4) and HPRT Cartagena (a A insertion in exon 6) cause a frame-shift resulting in a premature stop codon. HPRT Sevilla is a splice-site mutation resulting in exon 8 skipping in the HPRT mRNA. HPRT Huelva, Madrid II and Zaragoza I are point mutations that result in single amino-acid changes in the mutated HPRT protein (118G-->A, G40R; 143G-->A, R 48 H; 397G-->A, V133 M, respectively). Three mutations have been previously described in unrelated families, and two mutations have been already published. All mutations that resulted in truncated proteins corresponded to patients with the Lesch-Nyhan phenotype. Characterization of the HPRT mutation allowed us to make carrier detection in 33 women and prenatal diagnosis in two fetuses. Hum Mutat 15:383, 2000.

Purine metabolism in female heterozygotes for hypoxanthine-guanine phosphoribosyltransferase deficiency.

BACKGROUND: Female carriers of the X-linked recessive disorder hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency show somatic cell mosaicism, and this may cause an increased synthesis of purines. We have examined whether urinary oxypurines could be useful for carrier diagnosis. METHODS: Carrier testing was performed in 35 women belonging to 16 unrelated Spanish families with at least one subject affected by the Lesch-Nyhan syndrome (11 families, 14 patients) or the Kelley-Seegmiller syndrome (five families, six patients) by means of HPRT and adenine phosphoribosyltransferase activities in hair follicles and/or molecular studies. Plasma and 24-h urinary concentrations of hypoxanthine, xanthine and uric acid were measured while subjects were on a purine-restricted diet. RESULTS: Mean plasma urate concentrations and 24-h urinary hypoxanthine, xanthine and uric acid excretion rates were significantly higher in 22 heterozygotes than in 13 non-carriers (P < 0.02). Daily urinary oxypurine excretion rates were also significantly higher in heterozygotes than in 12 normal women (P = 0.0011). Cumulative 5-day radioactivity excretion after [8-14C]-adenine infusion was markedly increased in 10 carrier women compared with five normal women (P = 0.0369). The sensitivity of 24-h urinary hypoxanthine and xanthine excretion rates was 86% and 77%, respectively, and the specificity 100% for both tests. CONCLUSION: Female heterozygotes for HPRT deficiency show an enhanced purine nucleotide degradation and purine overproduction. An elevated hypoxanthine and/or xanthine excretion rate differentiated most heterozygotes for HPRT deficiency from non-carrier women and thus could be useful for carrier diagnosis.

Purine metabolism in patients with gout: the role of lead.

Primary gout is characterized by increased plasma and decreased urinary concentrations of hypoxanthine, xanthine and uric acid. To examine whether lead could explain the disturbance of purine metabolism in gout, we determined hypoxanthine, xanthine and uric acid metabolism and 5-day cumulative urinary lead excretion rates after an EDTA (calcium disodium edetate) test in 27 patients with primary gout and reduced creatinine clearance (C(cr)) and in 50 patients with gout and normal C(cr). The results were compared to those obtained in 26 normal subjects matched for age. All gout patients evidenced a marked renal underexcretion of hypoxanthine, xanthine and uric acid relative to their increased plasma levels. Purine metabolism was remarkably similar in both gout groups except for a significantly lower uric acid excretion in patients with reduced C(cr). Blood lead levels and cumulative lead excretion rates were significantly higher in gout patients with renal failure as compared to patients with normal C(cr). Fourteen patients (52%) with renal insufficiency and 6 (12%) with normal C(cr) showed increased lead excretion rates (95% Cl for the difference, 29-51%, p < 0.001). Mobilizable lead was not significantly correlated with serum or urinary purine concentrations. Hypoxanthine, xanthine and uric acid underexcretion was similar in gout patients with increased or normal cumulative lead excretion rates. The prevalence of atheromatosis and arterial hypertension together was significantly higher in gout patients with renal failure than in patients with normal C(cr) (81 vs. 60%, 95% Cl for the difference, 11-31%, p < 0.005). These results indicate that lead is not a significant contributor to the renal underexcretion of purines in gout. An increased mobilizable lead is not by itself evidence that lead is the cause of the renal insufficiency in patients with primary gout. Atheromatous nephropathy and/or nephroangiosclerosis may explain impaired renal function in patients with primary gout.

Purine metabolism in women with primary gout.

PURPOSE: Uncontrolled studies have shown that women with gout have higher serum urate concentrations and similar or lower urinary uric acid excretion rates than do men with gout. These observations suggest a more defective tubular transport of uric acid in women than in men with gout. In this prospective study we assessed purine metabolism in women with primary gout under controlled conditions. We also examined whether there are sex-related differences in plasma and urinary purine concentrations among patients with primary gout. SUBJECTS AND METHODS: Ten women with crystal-proved primary gout and normal serum creatinine levels (below 116 mmol/L) were studied while they were on a purine-restricted diet and taking no medications known to influence uric acid metabolism. For comparison, 20 men with primary gout and 10 women without gout, matched for age, race, and body mass index, were studied under the same conditions. In each subject, plasma and 24-hour urinary uric acid, hypoxanthine, and xanthine concentrations were measured. The mean of three consecutive determinations for plasma purines and five for urinary purines was used. Standard formulas were used to calculate the renal clearances and the fractional excretion of purines. RESULTS: Mean plasma urate, hypoxanthine, and xanthine levels were significantly higher in women patients with primary gout compared with normal women (P < 0.05). Mean 24-hour urinary uric acid excretion was similar in both groups. Daily urinary hypoxanthine and xanthine excretion rates were significantly lower in gouty women patients than in control women (P < 0.05). The renal clearances and the fractional excretion of uric acid, hypoxanthine, and xanthine were markedly lower in women with primary gout than in control women (P < 0.05). Plasma and urinary purine concentrations were similarly increased and diminished, respectively, in women and men patients with primary gout. Plasma urate, hypoxanthine, and xanthine levels were inversely and significantly associated with the fractional excretion of uric acid (r = -0.520; P = 0.003), hypoxanthine (r = -0.555; P = 0.002), and xanthine (r = -0.384; P = 0.040), respectively. CONCLUSION: Women with primary gout have markedly diminished uric acid, hypoxanthine, and xanthine excretion rates. The disturbance of purine metabolism appears to be of a similar magnitude to that observed in gouty men. The absence of significant sex-related differences in plasma and urinary purine concentrations suggests a similar tubular dysfunction for purine excretion in women and men with primary gout.

[Clinical spectrum of hypoxanthine-guanine phosphoribosyltransferase deficiency: study of 12 cases]. / Espectro clínico de la deficiencia de hipoxantina-guanina fosforribosiltransferasa: estudio de 12 pacientes.

BACKGROUND: The hypoxanthine-guanine phosphoribosyltransferase deficiency (HGPRT) may have two clinical forms: that of the Lesch-Nyhan syndrome (complete HGPRT deficiency) and that of the Kelley-Seegmiller syndrome (partial HGPRT deficiency). The clinical and biochemical features of the HGPRT deficiency are not completely known. METHODS: A series of 12 patients, 8 with the Lesch-Nyhan syndrome and 4 with the Kelley-Seegmiller syndrome are described. The plasma and urine concentrations of hypoxanthine, xanthine and uric acid were compared with those obtained in 20 normal subjects and 41 patients with primary gout. The molecular defect which determines the deficient HGPRT activity was studied in one patient with the Kelley-Seegmiller syndrome. RESULTS: The 8 patients with the Lesch-Nyhan syndrome presented choreoathetosis, corticospinal motor system dysfunction, mental retardation and signs of self mutilation. The neurologic manifestations of the patients with the Kelley-Seegmiller syndrome were very heterogeneous: two patients had psychomotor retardation with spastic movement, one was mentally retarded with generalized dystonia and one patient only had gout with no neurologic manifestations. The erythrocytic HGPRT activity ranged between 0.28 and < 0.01 nmol/h and mg of hemoglobin in all the patients. Plasma and urine purine concentrations were very high, being greater than those in normal subjects and patients with gout (p < 0.01). A mutation was identified in exon 3 (substitution of guanine with thymine) conditioning the substitution of the normal glycine amino acid by valine (HGPRT Madrid) on molecular study. CONCLUSIONS: The hypoxanthine-guanine phosphoribosyltransferase deficiency has a heterogeneous clinical expression. The activity of this enzyme in erythrocytes and the results of the metabolism of the purines do not allow prediction of the severity of the clinical manifestations.

Clinical and biochemical aspects of uric acid overproduction.

Purine nucleotides are synthesized and degraded through a regulated series of reactions which end in the formation of uric acid. Increased uric acid synthesis may be the result of two major pathophysiological disorders: increased de novo purine synthesis and enhanced purine nucleotide degradation, both of which may be the result of an increased or decreased enzyme activity. In addition, some conditions and disorders associated with uric acid overproduction have been recognized as the result of increased ATP degradation or decreased synthesis of ATP. The clinical manifestations of the diseases leading to excess uric acid synthesis are heterogenous, but symptoms related to uric acid overproduction are always secondary to the precipitation of crystals in soft tissues, joints, and the kidney excretory system. In clinical practice, serum urate concentration and urinary uric acid excretion are used to assess uric acid synthesis, taking into account that a purine-rich diet can be a confounding variable. Quantification of uric acid precursors, such as adenosine, inosine, guanosine, hypoxanthine, and xanthine, in biological fluids and intracellular nucleotides has provided further insight into the metabolic disturbances underlying disorders associated with uric acid overproduction. Additional studies are necessary to define precisely the metabolic derangement in idiopathic uric acid overproduction and to assess fully the consequences of increased purine nucleotide degradation, such as free-radical formation, increased adenosine synthesis, and reduced synthesis of signal transducers.

Albumin excretion rate and metabolic modifications in patients with essential hypertension. Effects of two angiotensin converting enzyme inhibitors.

A prospective randomized, double-blind, double-dummy study investigated the effects of two angiotensin converting enzyme (ACE) inhibitors on urinary albumin excretion in nondiabetic patients with mild to moderate essential hypertension. At the end of a 4-week placebo run-in period, 36 patients were randomly allocated to receive a 12-week course of treatment with quinapril (10, 20, or 40 mg) once daily or captopril (25, 50, or 75 mg) twice daily. Seventeen patients in each group completed the study. The mean change in mean blood pressure for patients taking quinapril (mean dose 32 mg/24 h) was -5 mm Hg (P = .002), and for patients taking captopril (mean dose 132 mg/24 h), -9 mm Hg (P = .002). The baseline urinary albumin excretion rate in both groups was (mean +/- EEM) 57 +/- 7 micrograms/min. Fifteen patients in the quinapril group and 12 patients in the captopril group had baseline albumin excretion rates of more than 20 micrograms/min. Mean urinary albumin excretion decreased in patients treated with quinapril from 55 to 33 micrograms/min (mean decrease 22 micrograms/min, 95% confidence interval [CI], 1 to 43 micrograms/min; P = .031) and with captopril from 59 to 41 micrograms/min (mean decrease 18 micrograms/min, 95% CI, 3 to 32 micrograms/min; P = .025). No significant modifications were observed in serum lipid concentrations, serum and urinary electrolytes, and magnesium or phosphorus metabolism. Mean urinary calcium excretion decreased in the quinapril-treated group (from 219 to 188 mg/24 h; P = .023) but not in the captopril group (from 264 to 267 mg/24 h).(ABSTRACT TRUNCATED AT 250 WORDS)

A simplified method for the determination of phosphoribosylpyrophosphate synthetase activity in hemolysates.

Methods currently employed for measurement of phosphoribosylpyrophosphate synthetase (ribophosphate pyrophosphokinase; PRPPs) activity are cumbersome and expensive, requiring an auxiliary enzyme reaction, a radioactive nucleobase and multiple incubations, or do not allow a complete kinetic study. The aim of the present study is to describe a simplified, single step, non-isotopic method for determination of PRPPs in hemolysate, appropriate for a complete screening of PRPPs activity disorders. Briefly, the charcoal-treated hemolysate is incubated with saturating amounts of substrates and P1 P5 di(adenosine 5') pentaphosphate (Ap5A), an inhibitor of human adenylate kinase, to prevent conversion of AMP to ADP. AMP generated in this reaction is then measured by HPLC. Adenylate kinase activity was fully inhibited by Ap5A, allowing the accurate determination of AMP. The method was sensitive and reproducible and mean and variance values compared closely with those reported using other, more complicated, assay procedures. The hyperbolic curve relating Pi concentration to initial reaction velocity was shifted to sigmoidal by addition of 0.02 mmol/l GDP which inhibited PRPPs activities only at inorganic phosphate concentrations < 2 mmol/l. This suggests that this method should provide sensitive and accurate screening for regulatory, as well as catalytic, defects underlying PRPPs superactivity.

Identification of two new nucleotide mutations (HPRTUtrecht and HPRTMadrid) in exon 3 of the human hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene.

Mutations in the X-linked hypoxanthine-guanine phosphoribosyl transferase gene (HPRT) result in deficiencies of HPRT enzyme activity, which may cause either a severe form of gout or Lesch-Nyhan syndrome depending on the residual enzyme activity. Mutations leading to these diseases are heterogeneous and include DNA base substitutions, DNA deletions, DNA base insertions and errors in RNA splicing. Identification of mutations has been performed at the RNA and DNA level. Sequencing genomic DNA of the HPRT gene offers the possibility of direct diagnostic analysis independent on the expression of the mature HPRT mRNA. We describe a Dutch and a Spanish family, in which the Lesch-Nyhan syndrome and a severe partial HPRT-deficient phenotype, respectively, were diagnosed. Direct sequencing of the exons coding for the HPRT gene was performed in both families. Two new exon 3 mutations have been identified. At position 16676, the normally present G was substituted by an A in the Dutch kindred (HPRTUtrecht), and led to an arginine for glycine change at residue 70. At position 16680, the G was substituted by a T in the Spanish family (HPRTMadrid); this substitutes a valine for glycine at residue 71. These new mutations are located within one of the clusters of hotspots in exon 3 of the HPRT gene in which HPRTYale and HPRTNew Haven have previously been identified.