The genetic and functional basis of purine nucleotide feedback-resistant phosphoribosylpyrophosphate synthetase superactivity.

Michael A. Becker; Patrick Smith; W. Herman Taylor; Reba Mustafi; Robert L. Switzer

doi:10.1172/jci118267

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The genetic and functional basis of purine nucleotide feedback-resistant phosphoribosylpyrophosphate synthetase superactivity.

Michael A. Becker, Patrick Smith, W. Herman Taylor, Reba Mustafi, Robert L. Switzer

American Society for Clinical Investigation (1995) • Volume 96, Issue 5, Pages 2133-2141

Empirical-PreclinicalPreclinical-InVitroPDF AvailableGrade Eligible

Overall Assessment

Adequate Methodological Quality

Assessment created by PaperScorers Medical AI v0.1.0 on Dec 18, 2025

C

64/100

Key Takeaways

•Six distinct PRPS1 point mutations identified in inhibitor-resistant PRS superactivity families.
•Recombinant mutant PRS1s recapitulate patients’ nucleotide inhibitor resistance patterns.
•Mutations reduce sensitivity to ADP/GDP and increase sensitivity to Pi activation.
•Kinetic changes imply disruption of allosteric inhibitory mechanisms, not ATP binding.
•Work explains biochemical basis for PRPP, purine nucleotide, and uric acid overproduction.

Conclusion

Distinct PRPS1 missense mutations cause PRS superactivity by altering allosteric regulation, conferring purine nucleotide inhibitor resistance and enhanced Pi activation.

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Quality Dimensions

Bias & Integrity

COI handling, outcome switching, selective reporting

B+80

Methods Rigour

Protocol clarity, sampling, controls

B78

External Validity

Generalisability, setting, population

D45

Transparency & Reproducibility

Data/code/materials availability, preregistration

F25

Significance & Novelty

Contribution vs prior art; context if known

A-85

Statistical Validity

Models, assumptions, multiplicity, CI priority

C62

Integrity & Transparency

Integrity checks

P-hacking risk?

?

None suspected

Signs of selective hypothesis testing or analysis choices that could inflate false positive rates.

Outcome switching?

?

None suspected

Evidence that primary outcomes were changed during or after the study, potentially distorting results.

Conflict of interest?

?

None suspected

Authors have financial or other relationships that could bias research findings.

Data integrity issues?

?

None suspected

Concerns about the accuracy, completeness, or authenticity of the reported data.

Open science signals

Research data

?

Not shared

Raw data used in the analyses is publicly available or accessible upon request.

Analysis code

?

Not shared

Code or scripts used to analyze the data are shared for reproducibility.

Study materials

?

Not shared

Protocols, questionnaires, and other materials are publicly available.

Premise

Primary Research Question

What genetic mutations underlie inhibitor-resistant PRS superactivity and how do they alter PRS regulation?

Hypothesis

Distinct PRPS1 point mutations cause purine nucleotide inhibitor resistance via altered allosteric regulation.

Hypothesis is Falsifiable

✓Yes

Sequencing could show no mutations; recombinant kinetics could fail to recapitulate patient phenotype.

PICO Framework

Population✓Yes

Fibroblasts from six unrelated affected males; normals as reference.

Intervention—Not specified

No intervention; mechanistic in vitro assays.

Comparison✓Yes

Compare mutant vs recombinant normal PRS1; fibroblast PRS vs recombinant.

Outcome✓Yes

Enzyme kinetics (Ki for ADP/GDP; Ka for Pi) directly test inhibitor resistance.

Literature Positioning

Literature Review Balanced

Well covered

Cites prior PRPS loci, isoforms, and clinical phenotypes extensively.

Evidence: pp. 2133–2134

Research Gap Clearly Stated

Well covered

Aim to define genetic aberrations causing inhibitor-resistant PRS superactivity and functional consequences.

Evidence: Intro p. 2133–2134

Stated Contribution Clear

Well covered

Identifies distinct PRPS1 point mutations in 6 families and demonstrates altered allosteric regulation.

Evidence: Abstract p. 2133; Results pp. 2135–2139

Study Provenance

Peer reviewed venueGrant funding disclosedCOI not reportedAffiliations listed

Authors & Affiliations

University of Chicago (Rheumatology, Dept of Medicine) and University of Illinois (Biochemistry).

Funding Statement

Supported by NIH DK-28554, DK-13488, GM-47712 and Arthritis Foundation (Greater Chicago Chapter).

Conflicts of Interest

Not reported

Peer Review

✓Journal of Clinical Investigation is a peer-reviewed journal (1995).

Evidence: journal

Methodological Assessment

Preclinical StudyARRIVEPreclinical

6 applicable checklist items.

Yes 2 · No 3 · Unclear 1

✗

Randomisation Reported

No randomisation applicable to in vitro enzyme assays.

Evidence: Methods pp. 2134–2136

✗

Blinding Reported

No blinding reported for lab assays or analyses.

Evidence: Methods pp. 2134–2136

✗

Sample Size Calculation Reported

No sample size/power calculation; typical for enzymology but unreported.

Evidence: Methods pp. 2134–2136

✓

Inclusion/Exclusion Criteria Clear

Inclusion of six unrelated affected males; controls described; cDNA confirmation twice.

Evidence: Results p. 2135; Table I

✓

Animal Model Justified

Model justified: PRPS1 mutations tested via recombinant expression and kinetics.

Evidence: Intro p. 2133–2134; Methods p. 2135

?

Multiplicity Controlled

Multiple comparisons across mutants; no correction needed but not addressed.

Evidence: Tables II–III; Fig. 3–5

Modules without applicable checklist items (9)

These designs were fully marked as not applicable but remain available for reference.

Abstract

The genetic and functional basis of phosphoribosylpyrophosphate synthetase (PRS) superactivity associated with purine nucleotide inhibitor-resistance was studied in six families with this X chromosome-linked purine metabolic and neurodevelopmental disorder. Cloning and sequencing of PRS1 and PRS2 cDNAs, derived from fibroblast total RNA of affected male patients by reverse transcription and PCR amplification, demonstrated that each PRS1 cDNA contained a distinctive single base substitution predicting a corresponding amino acid substitution in the PRS1 isoform. Overall, the array of substitutions encompassed a substantial portion of the translated sequence of PRS1 cDNA. Plasmid-mediated expression of variant PRS1 cDNAs in Escherichia coli BL21 (DE3/pLysS) yielded recombinant mutant PRS1s, which, in each case, displayed a pattern and magnitude of purine nucleoside diphosphate inhibitor-resistance comparable to that found in cells of the respective patient. Kinetic analysis of recombinant mutant PRS1s showed that widely dispersed point mutations in the X chromosome-linked PRPS1 gene encoding the PRS1 isoform result in alteration of the allosteric mechanisms regulating both enzyme inhibition by purine nucleotides and activation by inorganic phosphate. The functional consequences of these mutations provide a tenable basis for the enhanced production of phosphoribosylpyrophosphate, purine nucleotides, and uric acid that are the biochemical hallmarks of PRS superactivity.

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Study Overview

Study Design

Preclinical In Vitro

Primary classification used to evaluate this research.

Population

Human fibroblast lines from six unrelated affected males (PRS superactivity) and normals; recombinant PRS1 expressed in E. coli.

Brief summary of who or what was studied.

Sample Size

6

Number of participants included in the study analyses.

Pre-registration

Not registered

Indicates whether the protocol or trial was registered before data collection.

Primary Outcome

Primary outcome was not pre-specified.

Reviewer Notes

In vitro molecular genetics and enzyme kinetics using patient-derived cDNAs and recombinant expression; no clinical outcomes.

Publication Details

DOI

10.1172/jci118267

Published

November 1, 1995

Citations

108 citations

FWCI

0.69

External Resources

DOI Link OpenAlex

Disclaimer: This assessment is generated by AI and should not be the sole basis for clinical or research decisions. Always review the original paper and consult with domain experts.

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The genetic and functional basis of purine nucleotide feedback-resistant phosphoribosylpyrophosphate synthetase superactivity.

Overall Assessment

Key Takeaways

Conclusion

Quick Actions

Quality Dimensions

Bias & Integrity

Methods Rigour

External Validity

Transparency & Reproducibility

Significance & Novelty

Statistical Validity

Integrity & Transparency

Premise

Primary Research Question

Hypothesis

Hypothesis is Falsifiable

PICO Framework

Literature Positioning

Literature Review Balanced

Research Gap Clearly Stated

Stated Contribution Clear

Study Provenance

Methodological Assessment

Abstract

Quick Actions

Study Overview

Publication Details

External Resources

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