David Cregeen scite author profile

Primary hyperoxaluria type 2, an inherited autosomal recessive disorder of endogenous oxalate overproduction, is caused by mutations in the GRHPRIn addition, a splice variant lacking 28 bp of exon 1 was expressed in a number of tissues but is of unknown function. Two polymorphisms, c.579A>G in exon 6 and a (CT) n microsatellite in intron 8 were identified. Expression studies showed that the G165D and R302C mutants had glyoxylate reductase activity 1.5 and 5.6% respectively of the wild type protein. Both mutant proteins were unstable on purification. Although there is wide expression of the GRHPR mRNA demonstrated by northern blot analysis, our study shows that GRHPR protein distribution is predominantly hepatic and concludes that PH2, like the related type 1 disease, is primarily a disorder affecting hepatic glyoxylate metabolism.

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Primary hyperoxaluria type 2 in children

Johnson

Rumsby

Cregeen

et al. 2002

Pediatr Nephrol

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The primary hyperoxalurias (PH1 and PH2) are rare defects of oxalate overproduction. There are only 24 reported cases of PH2, which is characterized by raised urine oxalate and L-glycerate. We describe 13 previously unreported children with PH2, representing the largest single-centre cohort in the world. DNA samples were tested for a common mutation and four other documented mutations in the gene encoding the enzyme glyoxylate reductase/hydroxypyruvate reductase (GRHPR). Two of the five kindred showed homozygosity for two different mutations in the GRHPR gene. The genetic defect was not identified in the other three families. The median age at diagnosis of PH2 was 1.7 years. Five children presented with nephrolithiasis between 0.8 and 9 years. Haematuria was common, but urinary tract infection and nephrocalcinosis were not. All had normal renal function at diagnosis, and only 1 patient had a significant decline in glomerular filtration rate. We conclude that all children with nephrolithiasis secondary to hyperoxaluria should have urinary glycerate measured, as PH2 may be more prevalent than currently estimated. DNA mutational analysis may be useful in supporting the diagnosis.

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Identification and expression of a cDNA for human hydroxypyruvate/glyoxylate reductase

Rumsby

Cregeen

1999

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Primary hyperoxaluria type 2 without l‐glycericaciduria: is the disease under‐diagnosed?

Rumsby¹,

Sharma²,

Cregeen³

et al. 2001

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David Cregeen

Molecular analysis of the glyoxylate reductase (GRHPR) gene and description of mutations underlying primary hyperoxaluria type 2

Primary hyperoxaluria type 2 in children

Identification and expression of a cDNA for human hydroxypyruvate/glyoxylate reductase

Primary hyperoxaluria type 2 without l‐glycericaciduria: is the disease under‐diagnosed?

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