Germline Mutations in the New E1' Cryptic Exon of the Gene in Patients with Tumours of Von Hippel-Lindau Disease Spectrum or with Paraganglioma

Overview

Journal J Med Genet

Specialty Genetics

Date 2020 Jan 31

PMID 31996412

Citations 12

Authors

Alexandre Buffet

Bruna Calsina

Shahida Flores

Sophie Giraud

Marion Lenglet

Pauline Romanet

Elisa Deflorenne

Javier Aller

Isabelle Bourdeau

Brigitte Bressac-de Paillerets

Maria Calatayud

Caroline Dehais

Erwan De Mones Del Pujol

Atanaska Elenkova

Philippe Herman

Peter Kamenicky

Sophie Lejeune

Jean Louis Sadoul

Anne Barlier

Stephane Richard

Judith Favier

Nelly Burnichon

Betty Gardie

Patricia L Dahia

Mercedes Robledo

Anne-Paule Gimenez-Roqueplo

Affiliations

Soon will be listed here.

Abstract

Backgrounds: The incidence of germline mutations in the newly discovered cryptic exon (E1') of gene in patients with von Hippel-Lindau (VHL) disease and in patients with paraganglioma or pheochromocytoma (PPGL) is not currently known.

Methods: We studied a large international multicentre cohort of 1167 patients with a previous negative genetic testing. Germline DNA from 75 patients with a single tumour of the VHL spectrum ('Single VHL tumour' cohort), 70 patients with multiple tumours of the VHL spectrum ('Multiple VHL tumours' cohort), 76 patients with a VHL disease as described in the literature ('VHL-like' cohort) and 946 patients with a PPGL were screened for E1' genetic variants.

Results: Six different genetic variants in E1' were detected in 12 patients. Two were classified as pathogenic, 3 as variants of unknown significance and 1 as benign. The rs139622356 was found in seven unrelated patients but described in only 16 patients out of the 31 390 of the Genome Aggregation Database (p<0.0001) suggesting that this variant might be either a recurrent mutation or a modifier mutation conferring a risk for the development of tumours and cancers of the VHL spectrum.

Conclusions: E1' cryptic exon mutations contribute to 1.32% (1/76) of 'VHL-like' cohort and to 0.11% (1/946) of PPGL cohort and should be screened in patients with clinical suspicion of VHL, and added to panels for Next Generation Sequencing (NGS) diagnostic testing of hereditary PPGL. Our data highlight the importance of studying variants identified in deep intronic sequences, which would have been missed by examining only coding sequences of genes/exomes. These variants will likely be more frequently detected and studied with the upcoming implementation of whole-genome sequencing into clinical practice.

Citing Articles

A novel pathogenic germline chromosome 3 inversion in von Hippel-Lindau disease.

Vocke C, Ricketts C, Pack S, Raffeld M, Hewitt S, Lebensohn A J Med Genet. 2024; 61(11):1026-1030.

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Genetics, Pathophysiology, and Current Challenges in Von Hippel-Lindau Disease Therapeutics.

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Saturation genome editing maps the functional spectrum of pathogenic VHL alleles.

Buckley M, Terwagne C, Ganner A, Cubitt L, Brewer R, Kim D Nat Genet. 2024; 56(7):1446-1455.

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Variant spectrum of von Hippel-Lindau disease and its genomic heterogeneity in Japan.

Tamura K, Kanazashi Y, Kawada C, Sekine Y, Maejima K, Ashida S Hum Mol Genet. 2023; 32(12):2046-2054.

PMID: 36905328 PMC: 10244221. DOI: 10.1093/hmg/ddad039.

Update on the genetics of paragangliomas.

Gimenez-Roqueplo A, Robledo M, Dahia P Endocr Relat Cancer. 2023; 30(4).

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