LOXL2 labels inflammation-associated myofibroblasts predicting kidney allograft dysfunction and fibrosis.
Paula Schütz, Birte Hüchtmann, Veerle Van Marck, Barbara Heitplatz, Carolin Walter, Rebecca Rixen, Hermann Pavenstädt, Stefan Reuter, Konrad Buscher
Abstract
Open AccessProgressive allograft fibrosis remains a major obstacle in kidney transplantation. Early identification of patients at high risk could be instrumental to improve outcomes. Here, we investigated Lysyl oxidase like 2 (LOXL2) as a biomarker for graft fibrosis and dysfunction. Using single-cell sequencing and imaging of transplant biopsies, we found that LOXL2 labeled an intertubular myofibroblast-like cell type with a smooth muscle actin (SMA)-negative, CD68-positive phenotype and high extracellular matrix activity. These cells were present in non-fibrotic and fibrotic regions using collagen 3 as a scaffold. Native kidneys also harbored LOXL2+ myofibroblasts, albeit at much lower levels. Following transplant surgery, LOXL2+ cells could rapidly emerge within days, particularly during episodes of rejection, where they associated with leukocyte aggregates. Elevated cell numbers were not irreversible as shown in follow-up biopsies. A retrospective analysis of 118 biopsies revealed a significant association with fibrosis, inflammation, and kidney function but not with other Banff parameters. Non-rejecting allografts displayed high variability in LOXL2+ cells, with high abundance serving as a long-term predictor of reduced allograft function. Our findings point to a new subset of inflammation-associated myofibroblasts that may be useful as a biomarker for early fibrogenesis.