Identification of a Novel Deletion Variant (c.2999_3005delTGTGTGT/p.Asn1000SerfsTer4) in NPHP4 Associated With Nephronophthisis-4

Overview

Journal J Clin Lab Anal

Publisher Wiley

Specialties Biomedical Engineering
Biotechnology
Pathology

Date 2024 Jun 19

PMID 38895833

Authors

Zahra Miri Karam

Atieh Karimi Gohari

Mohammad Javad Rezazadeh Khabaz

Abolfazl Yari

Seyed Mahdi Emami Meybodi

Rezvan Attari

Maryam Torabi

Farzane Vafaeie

Fateme Moradi Moraddahande

Sara Amiri

Kolsoum Saeidi

Affiliations

Soon will be listed here.

Abstract

Background: Nephronophthisis-4 (NPHP4) is an inherited renal ciliopathy described by renal fibrosis and progressive impairment of kidney function. This study aimed to investigate the genetic basis and clinical manifestations of NPHP4 in two Iranian siblings.

Methods: The proband was a 27-year-old male with features of end-stage renal disease, including anemia, uremia, polyuria, and polydipsia. It is worth mentioning that he has a 22-year-old sister with a similar presentation. Clinical diagnosis procedures, such as renal biopsy, brain imaging, blood and urine tests, cardiac evaluation, ophthalmic inspection, and auditory function assessment, were carried out to evaluate organ involvement and potential comorbidities. Whole-exome sequencing (WES) and segregation analysis were performed to identify and confirm genetic variants associated with the condition. Computational variant analysis was conducted to evaluate the pathogenicity of the candidate variant. Furthermore, the SWISS-MODEL server was utilized for protein modeling.

Results: The brain, cardiac, ocular, and auditory functions were normal. Renal biopsy of the proband showed chronic interstitial inflammation and fibrosis. We found a novel homozygous 7-base pair deletion (c.2999_3005delTGTGTGT/ p.Asn1000SerfsTer4) in exon 21 of NPHP4 by WES. Segregation analysis confirmed homozygosity for the NPHP4 variant in affected individuals and heterozygous carrier status in parents, supporting autosomal recessive inheritance. 3D protein modeling indicated significant structural changes due to the variant.

Conclusion: This study expands the genetic causes and phenotypic spectrum of nephronophthisis-4 and reveals the importance of genetic analysis in diagnosing and managing rare inherited kidney disorders, particularly those involving consanguinity.

Citing Articles

Galloway-mowat syndrome 3 (GAMOS3): a novel disease-causing variant in OSGEP gene and expansion of the clinical spectrum.

Yari A, Vafaeie F, Miri Karam Z, Hosseini M, Miri-Moghaddam E Neurol Sci. 2024; .

PMID: 39661309 DOI: 10.1007/s10072-024-07892-z.

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