ME/CFS and PASC patient-derived immunoglobulin complexes disrupt mitochondrial function and alter inflammatory marker secretion

Tools

Item Type:	Preprint
Title:	ME/CFS and PASC patient-derived immunoglobulin complexes disrupt mitochondrial function and alter inflammatory marker secretion
Creators Name:	Liu, Zheng, Hollmann, Claudia, Kalanidhi, Sharada, Lammer, Stephanie, Schlosser, Andreas, Basens, Emils Edgars, Nikolayshvili, Georgy, Sokolovska, Liba, Riemekasten, Gabriela, Rust, Rebekka, Bellmann-Strobl, Judith, Paul, Friedemann, Naviaux, Robert K., Nora-Krukle, Zaiga, Sotzny, Franziska, Scheibenbogen, Carmen and Prusty, Bhupesh K.
Abstract:	Autoimmunity is a key clinical feature in both post-infectious Myalgic encephalomyelitis / chronic fatigue syndrome (ME/CFS) and Post-Acute Sequelae of COVID (PASC). Passive transfer of immunoglobulins from patients’ sera into mice induces some clinical features of PASC. IgG-induced transfer of disease phenotypes has long been appreciated, yet the exact mechanism of disease development remains largely elusive. Here, we demonstrate that IgG isolated from post-infectious ME/CFS patients selectively induces mitochondrial fragmentation in human endothelial cells, thereby altering mitochondrial energetics. This effect is lost upon cleavage of IgG into its Fab and Fc fragments. The digested Fab fragment from ME/CFS alone was able to alter the mitochondrial energetics, resembling the effect of intact IgG. In contrast, the Fc fragment alone induced a hypometabolic phenotype characterized by a trend towards reduced overall ATP content. IgG from ME/CFS and PASC patients induced distinct but separate cytokine secretion profiles in healthy PBMCs. Proteomics analysis of IgG-bound immune complexes revealed significant changes within the immune complexes of ME/CFS patients, affecting extracellular matrix organization, while the same from PASC patients pointed towards alterations in hemostasis and blood clot regulation. We demonstrate that IgGs from ME/CFS patients carry a chronic protective stress response that promotes mitochondrial adaptation via fragmentation, without altering mitochondrial ATP generation capacity in endothelial cells. Together, these results highlight a potential pathogenic role of IgG in post-infectious ME/CFS and point to novel therapeutic strategies targeting antibody-mediated metabolic dysregulation.
Keywords:	Immunoglobulin, Antigen, Antibody, Mitochondria, Post-Viral Chronic Illnesses, ME/CFS, Post COVID
Source:	medRxiv
Publisher:	Cold Spring Harbor Laboratory Press
Article Number:	2025.08.06.25332978
Date:	10 August 2025
Official Publication:	https://doi.org/10.1101/2025.08.06.25332978

Repository Staff Only: item control page