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Genetic Control of Splicing at <i>SIRPG</i> Modulates Risk of Type 1 Diabetes

Morgan J. Smith, Lucía Pastor, Jeremy R. B. Newman, Patrick Concannon

2021Diabetes14 citationsDOIOpen Access PDF

Abstract

Signal regulatory protein SIRPγ (CD172G) is expressed on the surface of lymphocytes, where it acts by engaging its ligand, CD47. SIRPG, which encodes SIRPγ, contains a nonsynonymous coding variant, rs6043409, which is significantly associated with risk for type 1 diabetes. SIRPG produces multiple transcript isoforms via alternative splicing, all encoding potentially functional proteins. We show that rs6043409 alters a predicted exonic splicing enhancer, resulting in significant shifts in the distribution of SIRPG transcript isoforms. All of these transcript isoforms produced protein upon transient expression in vitro. However, CRISPR/Cas9 targeting of one of the alternatively spliced exons in SIRPG eliminated all SIRPγ expression in Jurkat T cells. These targeted cells formed fewer cell-cell conjugates with each other than with wild-type Jurkat cells, expressed reduced levels of genes associated with CD47 signaling, and had significantly increased levels of cell-surface CD47. In primary CD4+ and CD8+ T cells, cell-surface SIRPγ levels in response to anti-CD3 stimulation varied quantitatively by rs6043409 genotype. Our results suggest that SIRPG is the most likely causative gene for type 1 diabetes risk in the 20p13 region and highlight the role of alternative splicing in lymphocytes in mediating the genetic risk for autoimmunity.

Topics & Concepts

Alternative splicingCD47Jurkat cellsBiologyExonRNA splicingGene isoformMinigeneGeneCell biologyT cellCellGeneticsRNAImmune systemPhagocytosis and Immune RegulationPancreatic function and diabetesDiabetes and associated disorders
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