Haematologica (Mar 2019)

Unraveling the effect of silent, intronic and missense mutations on VWF splicing: contribution of next generation sequencing in the study of mRNA

  • Nina Borràs,
  • Gerard Orriols,
  • Javier Batlle,
  • Almudena Pérez-Rodríguez,
  • Teresa Fidalgo,
  • Patricia Martinho,
  • María Fernanda López-Fernández,
  • Ángela Rodríguez-Trillo,
  • Esther Lourés,
  • Rafael Parra,
  • Carme Altisent,
  • Ana Rosa Cid,
  • Santiago Bonanad,
  • Noelia Cabrera,
  • Andrés Moret,
  • María Eva Mingot-Castellano,
  • Nira Navarro,
  • Rocío Pérez-Montes,
  • Sally Marcellin,
  • Ana Moreto,
  • Sonia Herrero,
  • Inmaculada Soto,
  • Núria Fernández-Mosteirín,
  • Víctor Jiménez-Yuste,
  • Nieves Alonso,
  • Aurora de Andrés-Jacob,
  • Emilia Fontanes,
  • Rosa Campos,
  • María José Paloma,
  • Nuria Bermejo,
  • Ruben Berrueco,
  • José Mateo,
  • Karmele Arribalzaga,
  • Pascual Marco,
  • Ángeles Palomo,
  • Nerea Castro Quismondo,
  • Belén Iñigo,
  • María del Mar Nieto,
  • Rosa Vidal,
  • María Paz Martínez,
  • Reyes Aguinaco,
  • Jesús María Tenorio,
  • María Ferreiro,
  • Javier García-Frade,
  • Ana María Rodríguez-Huerta,
  • Jorge Cuesta,
  • Ramón Rodríguez-González,
  • Faustino García-Candel,
  • Manuela Dobón,
  • Carlos Aguilar,
  • Francisco Vidal,
  • Irene Corrales

DOI
https://doi.org/10.3324/haematol.2018.203166
Journal volume & issue
Vol. 104, no. 3

Abstract

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Large studies in von Willebrand disease patients, including Spanish and Portuguese registries, led to the identification of >250 different mutations. It is a challenge to determine the pathogenic effect of potential splice site mutations on VWF mRNA. This study aimed to elucidate the true effects of 18 mutations on VWF mRNA processing, investigate the contribution of next-generation sequencing to in vivo mRNA study in von Willebrand disease, and compare the findings with in silico prediction. RNA extracted from patient platelets and leukocytes was amplified by RT-PCR and sequenced using Sanger and next generation sequencing techniques. Eight mutations affected VWF splicing: c.1533+1G>A, c.5664+2T>C and c.546G>A (p.=) prompted exon skipping; c.3223-7_3236dup and c.7082-2A>G resulted in activation of cryptic sites; c.3379+1G>A and c.7437G>A) demonstrated both molecular pathogenic mechanisms simultaneously; and the p.Cys370Tyr missense mutation generated two aberrant transcripts. Of note, the complete effect of three mutations was provided by next generation sequencing alone because of low expression of the aberrant transcripts. In the remaining 10 mutations, no effect was elucidated in the experiments. However, the differential findings obtained in platelets and leukocytes provided substantial evidence that four of these would have an effect on VWF levels. In this first report using next generation sequencing technology to unravel the effects of VWF mutations on splicing, the technique yielded valuable information. Our data bring to light the importance of studying the effect of synonymous and missense mutations on VWF splicing to improve the current knowledge of the molecular mechanisms behind von Willebrand disease. clinicaltrials.gov identifier:02869074.