Use of Patient Derived Urine Renal Epithelial Cells to Confirm Pathogenicity of PKHD1 Alleles

Overview

Journal BMC Nephrol

Publisher Biomed Central

Specialty Nephrology

Date 2020 Oct 16

PMID 33059616

Citations 8

Authors

Elisa Molinari

Shalabh Srivastava

Rebecca M Dewhurst

John A Sayer

Affiliations

Soon will be listed here.

Abstract

Background: PKHD1 is the main genetic cause of autosomal recessive polycystic kidney disease (ARPKD), a hereditary hepato-renal fibrocystic disorder which is the most important cause of end-stage renal disease during early childhood. ARPKD can also present in adulthood with milder phenotypes. In this study, we describe a 24-year-old woman with atypical polycystic kidney, no family history of renal disease and no obvious extra-renal manifestations who was referred for genetic investigation.

Methods: We used a combination of next generation sequencing, Sanger sequencing and RNA and microscopy studies performed on urine-derived renal epithelial cells (URECs) to provide a genetic diagnosis of ARPKD.

Results: A next generation sequencing panel of cystic ciliopathy genes allowed the identification of two heterozygous sequence changes in PKHD1 (c.6900C > T; p.(Asn2300=) and c.7964A > C; p.(His2655Pro)). The pathogenicity of the synonymous PKHD1 variant is not clear and requires RNA studies, which cannot be carried out efficiently on RNA extracted from proband blood, due to the low expression levels of PKHD1 in lymphocytes. Using URECs as a source of kidney-specific RNA, we show that PKHD1 is alternatively spliced around exon 43, both in control and proband URECs. The variant p.(Asn2300=) shifts the expression ratio in favour of a shorter, out-of-frame transcript. To further study the phenotypic consequence of these variants, we investigated the ciliary phenotype of patient URECs, which were abnormally elongated and presented multiple blebs along the axoneme.

Conclusions: We confirm the power of URECs as a tool for functional studies on candidate variants in inherited renal disease, especially when the expression of the gene of interest is restricted to the kidney and we describe, for the first time, ciliary abnormalities in ARPKD patient cells.

Citing Articles

A Deep Intronic PKHD1 Variant Identified by SpliceAI in a Deceased Neonate With Autosomal Recessive Polycystic Kidney Disease.

Richter F, Rutherford K, Cooke A, Meshkati M, Eddy-Abrams V, Greene D Am J Kidney Dis. 2024; 83(6):829-833.

PMID: 38211685 PMC: 11116050. DOI: 10.1053/j.ajkd.2023.12.011.

Ciliary phenotyping in renal epithelial cells in a cranioectodermal dysplasia patient with variants.

Walczak-Sztulpa J, Wawrocka A, Kuszel L, Pietras P, Lesniczak-Staszak M, Andrusiewicz M Front Mol Biosci. 2024; 10:1285790.

PMID: 38161384 PMC: 10756907. DOI: 10.3389/fmolb.2023.1285790.

Organs-on-chip technology: a tool to tackle genetic kidney diseases.

Valverde M, Faria J, Sendino Garvi E, Janssen M, Masereeuw R, Mihaila S Pediatr Nephrol. 2022; 37(12):2985-2996.

PMID: 35286457 PMC: 9587109. DOI: 10.1007/s00467-022-05508-2.

Primary URECs: a source to better understand the pathology of renal tubular epithelia in pediatric hereditary cystic kidney diseases.

Ziegler W, Ludiger S, Hassan F, Georgiadis M, Swolana K, Khera A Orphanet J Rare Dis. 2022; 17(1):122.

PMID: 35264234 PMC: 8905910. DOI: 10.1186/s13023-022-02265-1.

A discarded synonymous variant in NPHP3 explains nephronophthisis and congenital hepatic fibrosis in several families.

Olinger E, Al Alawi I, Al Riyami M, Salmi I, Molinari E, Faqeih E Hum Mutat. 2021; 42(10):1221-1228.

PMID: 34212438 PMC: 8434971. DOI: 10.1002/humu.24251.

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