Genetic assessment in primary hyperoxaluria: why it matters

Giorgia Mandrile¹, Bodo Beck², Cecile Acquaviva³, Gill Rumsby⁴, Lisa Deesker⁵, Sander Garrelfs⁵, Asheeta Gupta⁶, Justine Bacchetta⁷, Jaap Groothoff⁸; OxalEurope Consortium/Erknet Guideline Workgroup On Hyperoxaluria

Affiliations

¹ Medical Genetics Unit and Thalassemia Center, San Luigi University Hospital, University of Torino, Orbassano, TO, Italy.
² Institute of Human Genetics, Center for Molecular Medicine Cologne, and Center for Rare and Hereditary Kidney Disease, University Hospital of Cologne, CologneCologne, Germany.
³ Service de Biochimie Et Biologie Moléculaire, Hospices Civils de Lyon, UM Pathologies Héréditaires du Métabolisme Et du Globule Rouge, Lyon, France.
⁴ Department of Clinical Biochemistry, University College London Hospitals NHS Foundation Trust | UCLH, Kintbury, UK.
⁵ Department of Pediatric Nephrology, Emma Children's Hospital, Amsterdam UMC Location University of Amsterdam, Amsterdam, Netherlands.
⁶ Department of Nephrology, Birmingham Women's and Children's NHS Foundation Trust, Birmingham, UK.
⁷ Reference Center for Rare Renal Diseases, Pediatric Nephrology-Rheumatology-Dermatology Unit, Hospices Civils de Lyon, Femme Mere Enfant Hospital, Lyon 1 University, Bron, France.
⁸ Department of Pediatric Nephrology, Emma Children's Hospital, Amsterdam UMC Location University of Amsterdam, Amsterdam, Netherlands. j.w.groothoff@amsterdamumc.nl.

PMID: 35695965
PMCID: PMC9842587
DOI: 10.1007/s00467-022-05613-2

Review

Genetic assessment in primary hyperoxaluria: why it matters

Giorgia Mandrile et al. Pediatr Nephrol. 2023 Mar.

. 2023 Mar;38(3):625-634.

doi: 10.1007/s00467-022-05613-2. Epub 2022 Jun 13.

Authors

Affiliations

¹ Medical Genetics Unit and Thalassemia Center, San Luigi University Hospital, University of Torino, Orbassano, TO, Italy.
² Institute of Human Genetics, Center for Molecular Medicine Cologne, and Center for Rare and Hereditary Kidney Disease, University Hospital of Cologne, CologneCologne, Germany.
³ Service de Biochimie Et Biologie Moléculaire, Hospices Civils de Lyon, UM Pathologies Héréditaires du Métabolisme Et du Globule Rouge, Lyon, France.
⁴ Department of Clinical Biochemistry, University College London Hospitals NHS Foundation Trust | UCLH, Kintbury, UK.
⁵ Department of Pediatric Nephrology, Emma Children's Hospital, Amsterdam UMC Location University of Amsterdam, Amsterdam, Netherlands.
⁶ Department of Nephrology, Birmingham Women's and Children's NHS Foundation Trust, Birmingham, UK.
⁷ Reference Center for Rare Renal Diseases, Pediatric Nephrology-Rheumatology-Dermatology Unit, Hospices Civils de Lyon, Femme Mere Enfant Hospital, Lyon 1 University, Bron, France.
⁸ Department of Pediatric Nephrology, Emma Children's Hospital, Amsterdam UMC Location University of Amsterdam, Amsterdam, Netherlands. j.w.groothoff@amsterdamumc.nl.

PMID: 35695965
PMCID: PMC9842587
DOI: 10.1007/s00467-022-05613-2

Abstract

Accurate diagnosis of primary hyperoxaluria (PH) has important therapeutic consequences. Since biochemical assessment can be unreliable, genetic testing is a crucial diagnostic tool for patients with PH to define the disease type. Patients with PH type 1 (PH1) have a worse prognosis than those with other PH types, despite the same extent of oxalate excretion. The relation between genotype and clinical phenotype in PH1 is extremely heterogeneous with respect to age of first symptoms and development of kidney failure. Some mutations are significantly linked to pyridoxine-sensitivity in PH1, such as homozygosity for p.G170R and p.F152I combined with a common polymorphism. Although patients with these mutations display on average better outcomes, they may also present with CKD stage 5 in infancy. In vitro studies suggest pyridoxine-sensitivity for some other mutations, but confirmatory clinical data are lacking (p.G47R, p.G161R, p.I56N/major allele) or scarce (p.I244T). These studies also suggest that other vitamin B6 derivatives than pyridoxine may be more effective and should be a focus for clinical testing. PH patients displaying the same mutation, even within one family, may have completely different clinical outcomes. This discordance may be caused by environmental or genetic factors that are unrelated to the effect of the causative mutation(s). No relation between genotype and clinical or biochemical phenotypes have been found so far in PH types 2 and 3. This manuscript reviews the current knowledge on the genetic background of the three types of primary hyperoxaluria and its impact on clinical management, including prenatal diagnosis.

Keywords: AGXT; GRHPR; Genetics; HOGA1; Primary hyperoxaluria.

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Conflict of interest statement

JB received consulting fees from Alnylam. CA received consulting fees from Alnylam. SFG and JWG have received an unconditional grant from both Alnylam Pharmaceuticals and Dicerna Pharmaceuticals, not related to this work. Alnylam and Dicerna have provided an unconditional grant to the OxalEurope Registry, not related to this work. All the other authors declared no competing interests.

Figures

**Fig. 1**
Enzyme deficiencies in glyoxylate metabolism of PH1, PH2, and PH3

See this image and copyright information in PMC

References

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1. Berini SE, Tracy JA, Engelstad JK, Lorenz EC, Milliner DS, Dyck PJ. Progressive polyradiculoneuropathy due to intraneural oxalate deposition in type 1 primary hyperoxaluria. Muscle Nerve. 2015;51:449–454. doi: 10.1002/mus.24495. - DOI - PMC - PubMed

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Genetic assessment in primary hyperoxaluria: why it matters

Affiliations

Genetic assessment in primary hyperoxaluria: why it matters

Authors

Affiliations

Abstract

Conflict of interest statement

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References

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