Genetic and Metabolomic Analysis of AdeD and AdeI Mutants of De Novo Purine Biosynthesis: Cellular Models of De Novo Purine Biosynthesis Deficiency Disorders

Overview

Journal Mol Genet Metab

Specialty Endocrinology

Date 2013 Feb 12

PMID 23394948

Citations 7

Authors

Nathan Duval

Kyleen Luhrs

Terry G Wilkinson 2nd

Veronika Baresova

Vaclava Skopova

Stanislav Kmoch

Guido N Vacano

Marie Zikanova

David Patterson

Affiliations

Soon will be listed here.

Abstract

Purines are molecules essential for many cell processes, including RNA and DNA synthesis, regulation of enzyme activity, protein synthesis and function, energy metabolism and transfer, essential coenzyme function, and cell signaling. Purines are produced via the de novo purine biosynthesis pathway. Mutations in purine biosynthetic genes, for example phosphoribosylaminoimidazole carboxylase/phosphoribosylaminoimidazole succinocarboxamide synthetase (PAICS, E.C. 6.3.2.6/E.C. 4.1.1.21), can lead to developmental anomalies in lower vertebrates. Alterations in PAICS expression in humans have been associated with various types of cancer. Mutations in adenylosuccinate lyase (ADSL, E.C. 4.3.2.2) or 5-aminoimidazole-4-carboxamide ribonucleotide formyltransferase/IMP cyclohydrolase (ATIC, E.C. 2.1.2.3/E.C. 3.5.4.10) lead to inborn errors of metabolism with a range of clinical symptoms, including developmental delay, severe neurological symptoms, and autistic features. The pathogenetic mechanism is unknown for these conditions, and no effective treatments exist. The study of cells carrying mutations in the various de novo purine biosynthesis pathway genes provides one approach to analysis of purine disorders. Here we report the characterization of AdeD Chinese hamster ovary (CHO) cells, which carry genetic mutations encoding p.E177K and p.W363* variants of PAICS. Both mutations impact PAICS structure and completely abolish its biosynthesis. Additionally, we describe a sensitive and rapid analytical method for detection of purine de novo biosynthesis intermediates based on high performance liquid chromatography with electrochemical detection. Using this technique we detected accumulation of AIR in AdeD cells. In AdeI cells, mutant for the ADSL gene, we detected accumulation of SAICAR and SAMP and, somewhat unexpectedly, accumulation of AIR. This method has great potential for metabolite profiling of de novo purine biosynthesis pathway mutants, identification of novel genetic defects of purine metabolism in humans, and elucidating the regulation of this critical metabolic pathway.

Citing Articles

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Yamauchi T, Miyawaki K, Semba Y, Takahashi M, Izumi Y, Nogami J Leukemia. 2021; 36(2):383-393.

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Transcriptome and metabolome analysis of crGART, a novel cell model of de novo purine synthesis deficiency: Alterations in CD36 expression and activity.

Mazzarino R, Baresova V, Zikanova M, Duval N, Wilkinson 2nd T, Patterson D PLoS One. 2021; 16(7):e0247227.

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Untargeted metabolomics as an unbiased approach to the diagnosis of inborn errors of metabolism of the non-oxidative branch of the pentose phosphate pathway.

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The CRISPR-Cas9 crADSL HeLa transcriptome: A first step in establishing a model for ADSL deficiency and SAICAR accumulation.

Mazzarino R, Baresova V, Zikanova M, Duval N, Wilkinson 2nd T, Patterson D Mol Genet Metab Rep. 2019; 21:100512.

PMID: 31516833 PMC: 6731210. DOI: 10.1016/j.ymgmr.2019.100512.

Mass spectrometric analysis of purine de novo biosynthesis intermediates.

Madrova L, Krijt M, Baresova V, Vaclavik J, Friedecky D, Dobesova D PLoS One. 2018; 13(12):e0208947.

PMID: 30532129 PMC: 6287904. DOI: 10.1371/journal.pone.0208947.

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