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Genetic analysis of the pathogenic molecular sub-phenotype interferon-alpha identifies multiple novel loci involved in systemic lupus erythematosus.

Kariuki SN, Ghodke-Puranik Y, Dorschner JM et al.

25338677 PubMed ID
GWAS Study Type
1575 Participants
101 Views
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

KS
Kariuki SN
GY
Ghodke-Puranik Y
DJ
Dorschner JM
CB
Chrabot BS
KJ
Kelly JA
TB
Tsao BP
KR
Kimberly RP
AM
Alarcón-Riquelme ME
JC
Jacob CO
CL
Criswell LA
SK
Sivils KL
LC
Langefeld CD
HJ
Harley JB
SA
Skol AD
NT
Niewold TB
Chapter II

Abstract

Summary of the research findings

Systemic lupus erythematosus (SLE) is a chronic autoimmune disorder characterized by inflammation of multiple organ systems and dysregulated interferon responses. SLE is both genetically and phenotypically heterogeneous, greatly reducing the power of case-control studies in SLE. Elevated circulating interferon-alpha (IFN-α) is a stable, heritable trait in SLE, which has been implicated in primary disease pathogenesis. About 40-50% of patients have high IFN-α, and high levels correspond with clinical differences. To study genetic heterogeneity in SLE, we performed a case-case study comparing patients with high vs low IFN-α in over 1550 SLE cases, including genome-wide association study and replication cohorts. In meta-analysis, the top associations in European ancestry were protein kinase, cyclic GMP-dependent, type I (PRKG1) rs7897633 (P(Meta) = 2.75 × 10(-8)) and purine nucleoside phosphorylase (PNP) rs1049564 (P(Meta) = 1.24 × 10(-7)). We also found evidence for cross-ancestral background associations with the ankyrin repeat domain 44 (ANKRD44) and pleckstrin homology domain containing, family F member 2 gene (PLEKHF2) loci. These loci have not been previously identified in case-control SLE genetic studies. Bioinformatic analyses implicated these loci functionally in dendritic cells and natural killer cells, both of which are involved in IFN-α production in SLE. As case-control studies of heterogeneous diseases reach a limit of feasibility with respect to subject number and detectable effect size, the study of informative pathogenic sub-phenotypes becomes an attractive strategy for genetic discovery in complex disease.

88 European ancestry high interferon alpha cases, 322 European ancestry low interferon alpha cases

Chapter III

Study Statistics

Key metrics and study information

1575
Total Participants
GWAS
Study Type
Yes
Replicated
715 European ancestry cases, 450 African American cases
Replication Participants
European, African American or Afro-Caribbean
Ancestry
U.S.
Recruitment Country
Chapter IV

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