# Clinical Relevance of IFT140 Loss-of-Function Variants in Development of Renal Cysts

**Authors:** Carlotta Pia Cristalli, Sara Calabrese, Luca Caramanna, Andrea Pietra, Giulia Vitetta, Bianca De Nicolo, Elena Bonora, Giulia Severi, Soara Menabò, Simona Ferrari, Francesca Ciurli, Valeria Aiello, Irene Capelli, Andrea Pasini, Irene Alberici, Roberto Pillon, Claudio La Scola, Cesare Rossi, Francesca Montanari, Claudio Graziano

PMC · DOI: 10.3390/genes16050472 · Genes · 2025-04-22

## TL;DR

This study finds that loss-of-function variants in the IFT140 gene can cause a milder, atypical form of autosomal dominant polycystic kidney disease.

## Contribution

The study identifies IFT140 as a new gene associated with atypical ADPKD and highlights hyperuricemia as a novel clinical feature.

## Key findings

- IFT140 loss-of-function variants were found in 14 patients, contributing to an atypical, milder form of ADPKD.
- Hyperuricemia is a previously unappreciated feature of IFT140-related ADPKD.
- IFT140 variants were linked to bilateral kidney cysts and later-onset renal decline.

## Abstract

Background: Autosomal dominant polycystic kidney disease (ADPKD) is the most common inherited kidney disease, affecting approximately 1 in 1000 individuals. This genetically heterogeneous condition is primarily caused by monoallelic pathogenic or likely pathogenic variants in the PKD1 and PKD2 genes, accounting for 78% and 15% of typical cases, respectively. Recently, the application of NGS methods has led to the identification of additional genes associated with ADPKD, which have been incorporated into routine diagnostic testing for detecting phenocopies of the disease. Methods: In this study, targeted NGS (tNGS) analysis of the main cystogenes associated with classic and atypical ADPKD was performed in a cohort of 218 patients clinically diagnosed with cystic nephropathies. Results: Genetic testing identified variants in 175 out of 218 cases (80.3%). Among these, 133 probands (76%) harbored likely pathogenic or pathogenic variants in one or more genes of the panel, while 42 individuals (24%) had a variant of unknown significance (VUS). Specifically, one or more class 4/5 variants in PKD1, PKD2, or both were identified in 111 (83.5%) probands. Remarkably, a pathogenic variant in the IFT140 gene was identified in 14 index cases (8% of positive individuals, 6.4% of the global cohort): 10 distinct loss-of-function (LoF) variants were identified (including four frameshift variants, four nonsense variants, and two splice site defects); one individual carried a second IFT140 missense variant classified as VUS. Furthermore, five affected family members were found to carry a P/LP LoF variant in IFT140. Conclusions: Our data support that IFT140 heterozygous IFT140 LoF variants result in an atypical, mild form of ADPKD, consisting of bilateral kidney cysts and renal functional decline at older ages. Furthermore, we describe the second pediatric patient with a mild form of ADPKD due to an IFT140 variant and discuss hyperuricemia as a previously unappreciated feature of this condition.

## Linked entities

- **Genes:** PKD1 (polycystin 1, transient receptor potential channel interacting) [NCBI Gene 5310], PKD2 (polycystin 2, transient receptor potential cation channel) [NCBI Gene 5311], IFT140 (intraflagellar transport 140) [NCBI Gene 9742]
- **Diseases:** autosomal dominant polycystic kidney disease (MONDO:0004691), ADPKD (MONDO:0004691)

## Full-text entities

- **Genes:** PKD2 (polycystin 2, transient receptor potential cation channel) [NCBI Gene 5311] {aka APKD2, PC2, PKD4, Pc-2, TRPP2}, IFT140 (intraflagellar transport 140) [NCBI Gene 9742] {aka CED5, MZSDS, PKD9, RP80, SRTD9, WDTC2}, PKD1 (polycystin 1, transient receptor potential channel interacting) [NCBI Gene 5310] {aka PBP, PC1, Pc-1, TRPP1, eliosin}
- **Diseases:** cystic nephropathies (MESH:D052177), hyperuricemia (MESH:D033461), inherited kidney disease (MESH:D007674), ADPKD (MESH:D016891), Renal Cysts (MESH:D003560)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12111500/full.md

## References

33 references — full list in the complete paper: https://tomesphere.com/paper/PMC12111500/full.md

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Source: https://tomesphere.com/paper/PMC12111500