Feifei Tao1, Gary W Beecham1, Adriana P Rebelo1, John Svaren2, Susan H Blanton1, John J Moran2, Camila Lopez-Anido2, Jasper M Morrow3, Lisa Abreu1, Devon Rizzo4, Callyn A Kirk4, Xingyao Wu5, Shawna Feely5, Camiel Verhamme6, Mario A Saporta7, David N Herrmann8, John W Day9, Charlotte J Sumner10,11, Thomas E Lloyd10,11, Jun Li12, Sabrina W Yum13, Franco Taroni14, Frank Baas15, Byung-Ok Choi16, Davide Pareyson14, Steven S Scherer17, Mary M Reilly3, Michael E Shy5, Stephan Züchner1. 1. Department for Human Genetics and Hussman Institute for Human Genomics, University of Miami, Miami, FL. 2. Department of Comparative Biosciences and Waisman Center, University of Wisconsin, Madison, WI. 3. Medical Research Council Centre for Neuromuscular Diseases, University College London Institute of Neurology, London, United Kingdom. 4. Data Management and Coordinating Center, Rare Diseases Clinical Research Network, Pediatrics Epidemiology Center, University of South Florida, Tampa, FL. 5. Department of Neurology, University of Iowa, Iowa City, IA. 6. Department of Neurology, Academic Medical Center, Amsterdam, the Netherlands. 7. Department of Neurology, University of Miami, Miami, FL. 8. Department of Neurology, University of Rochester, Rochester, NY. 9. Department of Neurology, Stanford University, Palo Alto, CA. 10. Department of Neurology, Johns Hopkins University School of Medicine, Baltimore, MD. 11. Department of Neuroscience, Johns Hopkins University School of Medicine, Baltimore, MD. 12. Department of Neurology, Wayne State University School of Medicine, Detroit, MI. 13. Division of Neurology, Children's Hospital of Philadelphia, Philadelphia, PA. 14. Istituto di Ricovero e Cura a Carattere Scientifico (IRCCS), Foundation Carlo Besta Neurological Institute, Milan, Italy. 15. Department of Clinical Genetics, Leiden University Medical Center, Leiden, the Netherlands. 16. Department of Neurology, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, South Korea. 17. Department of Neurology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA.
Abstract
OBJECTIVE: Genetic modifiers in rare disease have long been suspected to contribute to the considerable variance in disease expression, including Charcot-Marie-Tooth disease type 1A (CMT1A). To address this question, the Inherited Neuropathy Consortium collected a large standardized sample of such rare CMT1A patients over a period of 8 years. CMT1A is caused in most patients by a uniformly sized 1.5 Mb duplication event involving the gene PMP22. METHODS: We genotyped DNA samples from 971 CMT1A patients on Illumina BeadChips. Genome-wide analysis was performed in a subset of 330 of these patients, who expressed the extremes of a hallmark symptom: mild and severe foot dorsiflexion strength impairment. SIPA1L2 (signal-induced proliferation-associated 1 like 2), the top identified candidate modifier gene, was expressed in the peripheral nerve, and our functional studies identified and confirmed interacting proteins using coimmunoprecipitation analysis, mass spectrometry, and immunocytochemistry. Chromatin immunoprecipitation and in vitro siRNA experiments were used to analyze gene regulation. RESULTS: We identified significant association of 4 single nucleotide polymorphisms (rs10910527, rs7536385, rs4649265, rs1547740) in SIPA1L2 with foot dorsiflexion strength (p < 1 × 10-7 ). Coimmunoprecipitation and mass spectroscopy studies identified β-actin and MYH9 as SIPA1L2 binding partners. Furthermore, we show that SIPA1L2 is part of a myelination-associated coexpressed network regulated by the master transcription factor SOX10. Importantly, in vitro knockdown of SIPA1L2 in Schwannoma cells led to a significant reduction of PMP22 expression, hinting at a potential strategy for drug development. INTERPRETATION: SIPA1L2 is a potential genetic modifier of CMT1A phenotypic expressions and offers a new pathway to therapeutic interventions. ANN NEUROL 2019;85:316-330.
OBJECTIVE: Genetic modifiers in rare disease have long been suspected to contribute to the considerable variance in disease expression, including Charcot-Marie-Tooth disease type 1A (CMT1A). To address this question, the Inherited Neuropathy Consortium collected a large standardized sample of such rare CMT1Apatients over a period of 8 years. CMT1A is caused in most patients by a uniformly sized 1.5 Mb duplication event involving the gene PMP22. METHODS: We genotyped DNA samples from 971 CMT1A patients on Illumina BeadChips. Genome-wide analysis was performed in a subset of 330 of these patients, who expressed the extremes of a hallmark symptom: mild and severe foot dorsiflexion strength impairment. SIPA1L2 (signal-induced proliferation-associated 1 like 2), the top identified candidate modifier gene, was expressed in the peripheral nerve, and our functional studies identified and confirmed interacting proteins using coimmunoprecipitation analysis, mass spectrometry, and immunocytochemistry. Chromatin immunoprecipitation and in vitro siRNA experiments were used to analyze gene regulation. RESULTS: We identified significant association of 4 single nucleotide polymorphisms (rs10910527, rs7536385, rs4649265, rs1547740) in SIPA1L2 with foot dorsiflexion strength (p < 1 × 10-7 ). Coimmunoprecipitation and mass spectroscopy studies identified β-actin and MYH9 as SIPA1L2 binding partners. Furthermore, we show that SIPA1L2 is part of a myelination-associated coexpressed network regulated by the master transcription factor SOX10. Importantly, in vitro knockdown of SIPA1L2 in Schwannoma cells led to a significant reduction of PMP22 expression, hinting at a potential strategy for drug development. INTERPRETATION:SIPA1L2 is a potential genetic modifier of CMT1A phenotypic expressions and offers a new pathway to therapeutic interventions. ANN NEUROL 2019;85:316-330.
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