Identification of a novel genetic locus associated with immune-mediated thrombotic thrombocytopenic purpura
Matthew J. Stubbs,
Paul Coppo,
Chris Cheshire,
Agnès Veyradier,
Stephanie Dufek,
Adam P. Levine,
Mari Thomas,
Vaksha Patel,
John O. Connolly,
Michael Hubank,
Ygal Benhamou,
Lionel Galicier,
Pascale Poullin,
Robert Kleta,
Daniel P. Gale,
Horia Stanescu,
Marie A. Scully
Affiliations
Matthew J. Stubbs
Haemostasis Research Unit, UCL (London, UK); Department of Renal Medicine
Paul Coppo
Centre de Référence des Microangiopathies Thrombotiques, Hôpital Saint-Antoine (Paris, France)
Chris Cheshire
Department of Renal Medicine
Agnès Veyradier
Department d’Hematologie, Centre de Référence des Microangiopathies Thrombotiques, Hôpital Lariboisière (Paris, France)
Stephanie Dufek
Department of Renal Medicine
Adam P. Levine
Department of Renal Medicine
Mari Thomas
Haemostasis Research Unit, UCL (London, UK); National Institute for Health Research Cardiometabolic Programme, UCLH/UCL Cardiovascular BRC (London, UK)
Vaksha Patel
Department of Renal Medicine
John O. Connolly
Department of Renal Medicine
Michael Hubank
Clinical Genomics, Royal Marsden Hospital (London, UK)
Ygal Benhamou
Centre de Référence des Microangiopathies Thrombotiques, Hôpital Saint-Antoine (Paris, France)
Lionel Galicier
Centre de Référence des Microangiopathies Thrombotiques, Hôpital Saint-Antoine (Paris, France)
Pascale Poullin
Centre de Référence des Microangiopathies Thrombotiques, Hôpital Saint-Antoine (Paris, France)
Robert Kleta
Department of Renal Medicine
Daniel P. Gale
Department of Renal Medicine
Horia Stanescu
Department of Renal Medicine
Marie A. Scully
Haemostasis Research Unit, UCL (London, UK); National Institute for Health Research Cardiometabolic Programme, UCLH/UCL Cardiovascular BRC (London, UK)
Immune thrombotic thrombocytopenic purpura (iTTP) is an ultra-rare, life-threatening disorder, mediated through severe ADAMTS13 deficiency causing multi-system micro-thrombi formation, and has specific human leukocyte antigen associations. We undertook a large genome-wide association study to investigate additional genetically distinct associations in iTTP. We compared two iTTP patient cohorts with controls, following standardized genome-wide quality control procedures for single-nucleotide polymorphisms and imputed HLA types. Associations were functionally investigated using expression quantitative trait loci (eQTL), and motif binding prediction software. Independent associations consistent with previous findings in iTTP were detected at the HLA locus and in addition a novel association was detected on chromosome 3 (rs9884090, P=5.22x10-10, odds ratio 0.40) in the UK discovery cohort. Meta-analysis, including the French replication cohort, strengthened the associations. The haploblock containing rs9884090 is associated with reduced protein O-glycosyltransferase 1 (POGLUT1) expression (eQTL P<0.05), and functional annotation suggested a potential causative variant (rs71767581). This work implicates POGLUT1 in iTTP pathophysiology and suggests altered post-translational modification of its targets may influence disease susceptibility.
