A Novel Pathogenic Mutation of the CYP27B1 Gene in a Patient with Vitamin D-dependent Rickets Type 1: a Case Report

Overview

Journal BMC Res Notes

Publisher Biomed Central

Specialties Biology
General Medicine

Date 2014 Nov 6

PMID 25371233

Citations 14

Authors

Amir M I Babiker

Iman Al Gadi

Nasir A M Al-Jurayyan

Abdulrahman M H Al Nemri

Ali Abdu N Al Haboob

Ahmed Amer Al Boukai

Ali Al Zahrani

Hanan Ahmed Habib

Affiliations

Soon will be listed here.

Abstract

Background: Rickets can occur due to Vitamin D deficiency or defects in its metabolism. Three rare genetic types of rickets with different alterations of genes have been reported, including: Vitamin D dependent rickets type 1, Vitamin D dependent rickets type 2 or also known as Vitamin D resistant rickets and 25 hydroxylase deficiency rickets. Vitamin D dependent rickets type 1 is inherited in an autosomal recessive pattern, and is caused by mutations in the CYP27B1 gene encoding the 1α-hydroxylase enzyme. We report here a new mutation in CYP27B1, which lead to Vitamin D dependent rickets type 1.

Case Presentation: We report on a 13-month-old Arabic Saudi girl with Vitamin D dependent rickets type 1 presented with multiple fractures and classic features of rickets. A whole exome sequencing identified a novel pathogenic missense mutation (CYP27B1:Homozygous c.1510C > T(p.Q504X)) which results in a protein truncating alteration. Both parents are heterozygous carriers of the mutation. Based on data search in Human Gene Mutation Database, 63 CYP27B1 alterations were reported: only 28.6% are protein truncating (5 nonsense, 13 frameshift insertions/deletions, 0 gross deletions), while 61.9% are non-truncating (38 missense, 1 small in-frame insertions/deletion), and 9.5% are possible protein-truncating (5 splice, 1 regulatory).

Conclusion: The deleterious effect of this alteration, which was the only mutation detected in the CYP27B1 common gene of Vitamin D dependent rickets type 1 in the proband, and its autosomal recessive inheritance fashion, both support a pathogenic nature of this mutation as the cause of Vitamin D dependent rickets type 1.

Citing Articles

A Novel Compound Nonsense Variant in Causes an Atypical Form of Vitamin D-Dependent Rickets Type 1A: A Case Report of Two Siblings in a Mexican Family.

Toral Lopez J, Candia Tenopala C, Reyes Mosqueda A, Fonseca Sanchez M, Gonzalez Huerta L Diseases. 2024; 12(10).

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A toddler with severe vitamin D-dependent rickets type 1 A (VDDR1A), hungry bone syndrome, and severe RSV infection: presentation and therapeutic challenges.

Statha E, Paltoglou G, Doulgeraki A, Vakali E, Vlachopapadopoulou E, Economou S Hormones (Athens). 2024; 23(4):835-839.

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Diagnostic and New Therapeutic Approaches to Two Challenging Pediatric Metabolic Bone Disorders: Hypophosphatasia and X-linked Hypophosphatemic Rickets.

Aljuraibah F, Alalwan I, Habeb A Curr Pediatr Rev. 2023; 20(4):395-404.

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Mutations in the CYP27B1 gene cause vitamin D dependent rickets in pugs.

Rohdin C, Wang C, Brander G, Rondahl V, Karlsson A, Friling L J Vet Intern Med. 2023; 37(4):1507-1513.

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Lifelong deformities in an adult caused by vitamin D‑dependent rickets type 1A: A case report.

Yi C, Xu J, He J, Zhang X, Zhang X, Huang J Exp Ther Med. 2022; 24(6):762.

PMID: 36561972 PMC: 9748631. DOI: 10.3892/etm.2022.11698.

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