Autoantibodies targeting TRIM72 compromise membrane repair and contribute to inflammatory myopathy
Kevin E. McElhanon, … , Wael N. Jarjour, Noah Weisleder
Kevin E. McElhanon, … , Wael N. Jarjour, Noah Weisleder
Published July 20, 2020
Citation Information: J Clin Invest. 2020;130(8):4440-4455. https://doi.org/10.1172/JCI131721.
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Research Article Autoimmunity Muscle biology

Autoantibodies targeting TRIM72 compromise membrane repair and contribute to inflammatory myopathy

Abstract

Idiopathic inflammatory myopathies (IIM) involve chronic inflammation of skeletal muscle and subsequent muscle degeneration due to an uncontrolled autoimmune response; however, the mechanisms leading to pathogenesis are not well understood. A compromised sarcolemmal repair process could promote an aberrant exposure of intramuscular antigens with the subsequent initiation of an inflammatory response that contributes to IIM. Using an adoptive transfer mouse model of IIM, we show that sarcolemmal repair is significantly compromised in distal skeletal muscle in the absence of inflammation. We identified autoantibodies against TRIM72 (also known as MG53), a muscle-enriched membrane repair protein, in IIM patient sera and in our mouse model of IIM by ELISA. We found that patient sera with elevated levels of TRIM72 autoantibodies suppress sarcolemmal resealing in healthy skeletal muscle, and depletion of TRIM72 antibodies from these same serum samples rescues sarcolemmal repair capacity. Autoantibodies targeting TRIM72 lead to skeletal muscle fibers with compromised membrane barrier function, providing a continuous source of autoantigens to promote autoimmunity and further amplifying humoral responses. These findings reveal a potential pathogenic mechanism that acts as a feedback loop contributing to the progression of IIM.

Authors

Kevin E. McElhanon, Nicholas Young, Jeffrey Hampton, Brian J. Paleo, Thomas A. Kwiatkowski, Eric X Beck, Ana Capati, Kyle Jablonski, Travis Gurney, Miguel A. Lopez Perez, Rohit Aggarwal, Chester V. Oddis, Wael N. Jarjour, Noah Weisleder

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Figure 4

Sarcolemmal resealing capacity is significantly diminished following adoptive transfer of lymph node cells from Foxp3–/Y Syt7–/– mice.

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Sarcolemmal resealing capacity is significantly diminished following ado...
FDB muscles isolated from indicated mice and injured with an infrared laser in the presence of FM4-64 dye. The kinetics of sarcolemma resealing was measured by acquisition of images every 3 seconds for 60 seconds and calculation of the change in fluorescence before and after injury. (A) Representative images of Rag1–/– mice receiving sham adoptive transfer, adoptive transfer of Foxp3–/Y lymph node cells (4 weeks), or adoptive transfer of Foxp3–/Y Syt7–/– lymph node cells (1 week and 4 weeks). Scale bars: 20 μm. Yellow arrowheads indicate sites of injury. (B) Curves depicting mean sarcolemmal resealing kinetics measured every 3 seconds for 60 seconds. Data are represented as mean ± SEM. (C) AUC calculations representing total dye influx over time (Sham 1 week, n = 27; Sham 4 weeks, n = 31; Foxp3–/Y adoptive transfer, n = 37; Foxp3–/Y Syt7–/– adoptive transfer 1 week and 4 weeks, n = 44 and 37, respectively; ANOVA, F(4,171) = 28.47, P < 0.0001; Tukey’s HSD: Sham 1 week vs. Foxp3–/Y Syt7–/– 1 week, P < 0.0001; Sham 4 weeks vs. Foxp3–/Y Syt7–/– 4 weeks, P < 0.0001; Foxp3–/Y 4 weeks vs. Foxp3–/Y Syt7–/– 4 weeks, P = 0.0005). Data are represented as mean ± SD.