Chronic kidney disease affects 1 in 10 people worldwide, with damage to specialized blood filter cells of the kidney, called podocytes, playing a critical role. In membranous nephropathy (MN), a major cause of nephrotic syndrome, circulating autoantibodies attack proteins on podocyte foot processes (FPs), damaging the kidney's filtration barrier. Our study shows that these autoantibodies trigger the formation of antigen-autoantibody aggregates on the podocyte FP plasma membrane. These aggregates bud off as stalked vesicles, termed autoimmunoglobulin-triggered extracellular vesicles (AIT-EVs), which are released into the urine. AIT-EVs carry disease-causing autoantibodies, their target antigens, essential FP proteins, and disease-associated stressors representing a mechanism for removing immune complexes (ICs) and waste. However, their excessive release leads to FP effacement and podocyte dysfunction. In MN patients, urinary AIT-EVs correspond to glomerular urinary-space aggregates. Enriching AIT-EVs enables detection and monitoring of pathogenic autoantibodies, suggesting a non-invasive approach for autoimmune kidney disease diagnosis and therapy.
Keywords: 14-3-3; ADAM10; PLA(2)R1; THSD7A; autoantibody; clearance; extracellular vesicle; foot process effacement; membranous nephropathy; podocyte.
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