• Alan E Renton, Hannah A Pliner, Carlo Provenzano, Amelia Evoli, Roberta Ricciardi, Michael A Nalls, Giuseppe Marangi, Yevgeniya Abramzon, Sampath Arepalli, Sean Chong, Dena G Hernandez, Janel O Johnson, Emanuela Bartoccioni, Flavia Scuderi, Michelangelo Maestri, J Raphael Gibbs, Edoardo Errichiello, Adriano Chiò, Gabriella Restagno, Mario Sabatelli, Mark Macek, Sonja W Scholz, Andrea Corse, Vinay Chaudhry, Michael Benatar, Richard J Barohn, April McVey, Mamatha Pasnoor, Mazen M Dimachkie, Julie Rowin, John Kissel, Miriam Freimer, Henry J Kaminski, Donald B Sanders, Bernadette Lipscomb, Janice M Massey, Manisha Chopra, James F Howard, Wilma J Koopman, Michael W Nicolle, Robert M Pascuzzi, Alan Pestronk, Charlie Wulf, Julaine Florence, Derrick Blackmore, Aimee Soloway, Zaeem Siddiqi, Srikanth Muppidi, Gil Wolfe, David Richman, Michelle M Mezei, Theresa Jiwa, Joel Oger, Daniel B Drachman, and Bryan J Traynor.
• Neuromuscular Diseases Research Unit, Laboratory of Neurogenetics, National Institute on Aging, National Institutes of Health, Porter Neuroscience Research Center, Bethesda, Maryland.
• JAMA Neurol. 2015 Apr 1;72(4):396-404.

ImportanceMyasthenia gravis is a chronic, autoimmune, neuromuscular disease characterized by fluctuating weakness of voluntary muscle groups. Although genetic factors are known to play a role in this neuroimmunological condition, the genetic etiology underlying myasthenia gravis is not well understood.ObjectiveTo identify genetic variants that alter susceptibility to myasthenia gravis, we performed a genome-wide association study.Design, Setting, And ParticipantsDNA was obtained from 1032 white individuals from North America diagnosed as having acetylcholine receptor antibody-positive myasthenia gravis and 1998 race/ethnicity-matched control individuals from January 2010 to January 2011. These samples were genotyped on Illumina OmniExpress single-nucleotide polymorphism arrays. An independent cohort of 423 Italian cases and 467 Italian control individuals were used for replication.Main Outcomes And MeasuresWe calculated P values for association between 8,114,394 genotyped and imputed variants across the genome and risk for developing myasthenia gravis using logistic regression modeling. A threshold P value of 5.0×10(-8) was set for genome-wide significance after Bonferroni correction for multiple testing.ResultsIn the overall case-control cohort, we identified association signals at CTLA4 (rs231770; P=3.98×10(-8); odds ratio, 1.37; 95% CI, 1.25-1.49), HLA-DQA1 (rs9271871; P=1.08×10(-8); odds ratio, 2.31; 95% CI, 2.02-2.60), and TNFRSF11A (rs4263037; P=1.60×10(-9); odds ratio, 1.41; 95% CI, 1.29-1.53). These findings replicated for CTLA4 and HLA-DQA1 in an independent cohort of Italian cases and control individuals. Further analysis revealed distinct, but overlapping, disease-associated loci for early- and late-onset forms of myasthenia gravis. In the late-onset cases, we identified 2 association peaks: one was located in TNFRSF11A (rs4263037; P=1.32×10(-12); odds ratio, 1.56; 95% CI, 1.44-1.68) and the other was detected in the major histocompatibility complex on chromosome 6p21 (HLA-DQA1; rs9271871; P=7.02×10(-18); odds ratio, 4.27; 95% CI, 3.92-4.62). Association within the major histocompatibility complex region was also observed in early-onset cases (HLA-DQA1; rs601006; P=2.52×10(-11); odds ratio, 4.0; 95% CI, 3.57-4.43), although the set of single-nucleotide polymorphisms was different from that implicated among late-onset cases.Conclusions And RelevanceOur genetic data provide insights into aberrant cellular mechanisms responsible for this prototypical autoimmune disorder. They also suggest that clinical trials of immunomodulatory drugs related to CTLA4 and that are already Food and Drug Administration approved as therapies for other autoimmune diseases could be considered for patients with refractory disease.

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