Human X-linked phosphoribosylpyrophosphate synthetase superactivity is associated with distinct point mutations in the PRPS1 gene.

Superactivity of phosphoribosylpyrophosphate synthetase (PRS) is an X chromosome-linked disorder of purine metabolism, characterized by gout with uric acid overproduction and, in some families, neurodevelopmental impairment. Two highly homologous isoforms of PRS (PRS1 and PRS2), each encoded by a distinct X chromosome-linked locus, have been identified, and PRS1 and 2 cDNAs have been cloned. The entire 954-base pair translated regions of PRS1 and 2 cDNAs derived from cultured lymphoblasts and fibroblasts from two patients in whom purine nucleotide feedback resistance of PRS is associated with enzyme superactivity and neurodevelopmental defects were examined by direct sequencing after polymerase chain reaction amplification of PRS transcripts. Nucleotide sequences of PRS2 cDNAs from the patients and normal individuals were identical. In contrast, PRS1 cDNAs from the patients differ from normal PRS1 cDNA, each by a single base substitution. PRS1 cDNA from patient N. B. showed an A to G transition at nucleotide 341, corresponding to an asparagine to serine change at amino acid residue 113 of mature PRS1. A G to C transversion at nucleotide 547, indicating an aspartic acid to histidine change at amino acid 182, was found for PRS1 cDNA from patient S. M. Point mutations at the sites identified in the PRS1 cDNAs of the two patients were confirmed by the results of RNase mapping analysis. Normal, N. B., and S. M. PRS1 cDNAs were introduced into Escherichia coli BL21 (DE3)/pLyS, and recombinant N. B. and S. M. PRS1s showed the purine nucleotide feedback resistance phenotypes characteristic of PRS from patients' cells.

Overexpression, purification, and characterization of recombinant human 5-phosphoribosyl-1-pyrophosphate synthetase isozymes I and II.

Human 5-phosphoribosyl-1-pyrophosphate synthetase isozymes I and II (PRSI and PRSII) have been isolated independently and characterized in pure form. cDNAs for PRSI and PRSII were overexpressed in an Escherichia coli strain which lacks the bacterial 5-phosphoribosyl-1-pyrophosphate synthetase. The recombinant isoforms were purified to virtual homogeneity with specific activities of 25.0 and 35.7 units/mg, respectively, values which are 5-10-fold higher than any previously reported for this enzyme from human sources. Despite 95% amino acid sequence identity, the isoforms differed significantly in several physical and kinetic properties. PRSII was more sensitive to heat inactivation at 55 degrees C and more susceptible to disaggregation to inactive forms in the absence of Mg2+ and ATP than was PRSI. The isoforms were separable on the basis of isoelectric point. PRSI and PRSII also differed significantly in Km values for MgATP and ribose 5-phosphate, pH optima, and Mg2+ and Pi activation curves. PRSII was less sensitive to feedback inhibition by purine nucleotides and more sensitive to inhibition by 2,3-diphosphoglycerate than PRSI. Differences in kinetic properties between PRSI and PRSII are consistent with the suggestion that PRSII predominates in rapidly proliferating cells.

Immunohistochemical demonstration of H antigen, peanut agglutinin receptor, and Saphora japonica receptor expression in infant thymuses and thymic neoplasias.

Ten infant thymuses and 13 primary thymic tumors obtained from archived paraffin-embedded tissue were examined for the presence of tissue blood group O antigen (H), peanut agglutinin receptor antigen (PNA-r), Saphora japonica agglutinin receptor antigen (SJA-r), carcinoembryonic antigen (CEA), cytokeratin (CK), and epithelial membrane antigen (EMA). In the thymuses studied, Hassall's corpuscles contained abundant immunoreactive CK, PNA-r, and H antigens, whereas CEA, SJA-r, and EMA were present focally in Hassall's corpuscles. Immunoreactive CK, PNA-r, and CEA were demonstrated focally in the subcapsular region, cortical nurse cells, and subcapsular-perivascular monocytic cells, respectively. PNA-r was present in all 12 epithelial type tumors, including all eight thymomas. CEA was present in nine tumors, including six thymomas. Six thymomas contained H antigen and SJA-r; five continued CK and EMA. SJA-r and EMA were also present in one carcinoid tumor of thymic origin. In epithelial thymomas, the antigens stained nests of epithelial cells resembling the pattern of staining in Hassall's corpuscles. Membrane staining of spindle cells of both spindle cell and epithelial thymomas was less intense than staining of epithelial type cells.