Pro-inflammatory IgG1 N-glycan signature correlates with primary graft dysfunction onset in COPD patients

• Published in: Transplant immunology Vol. 71; p. 101491
• Main Authors: McQuiston, Alexander, Scott, Danielle, Nord, Dianna, Langerude, Logan, Pelaez, Andres, Machuca, Tiago, Mehta, Anand, Drake, Richard R., Christie, Jason D., Angel, Peggi, Atkinson, Carl
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.04.2022
• Subjects: Autoantibodies; Chronic obstructive pulmonary disease (COPD); Elastin; Humans; Immunoglobulin G; Lung transplant; Lung Transplantation - adverse effects; Polysaccharides; Primary Graft Dysfunction; Primary graft dysfunction (PGD); Pulmonary Disease, Chronic Obstructive; Chronic obstructive pulmonary disease (COPD); Autoantibodies; Lung transplant; Primary graft dysfunction (PGD)
• ISSN: 0966-3274; 1878-5492
• DOI: 10.1016/j.trim.2021.101491

Chronic obstructive pulmonary disease (COPD) is the third leading cause of death worldwide. The pathogenesis of COPD is complex; however, recent studies suggest autoimmune changes, characterized by the presence of autoantibodies to elastin and collagen, may contribute to disease status. COPD patients make up approximately 30% of all lung transplants (LTx) annually, however, little is known regarding the relationship between COPD-related autoantibodies and LTx outcomes. We hypothesized that COPD patients that undergo LTx and develop primary graft dysfunction (PGD) have altered circulating autoantibody levels and phenotypic changes as compared those COPD-LTx recipients that do not develop PGD. We measured total immunoglobulin and circulating elastin and collagen autoantibody levels in a cohort of COPD lung transplant recipients pre- and post-LTx. No significant differences were seen in total, elastin, or collagen IgM, IgG, IgG1, IgG2, IgG3, and IgG4 antibodies between PGD+ and PGD- recipients. Antibody function can be greatly altered by glycosylation changes to the antibody Fc region and recent studies have reported altered IgG glycosylation profiles in COPD patients. We therefore utilized a novel mass spectrometry-based multiplexed N-glycoprotein imaging approach and measured changes in IgG-specific antibody N-glycan structures. COPD-LTx recipients who developed PGD had significantly increased IgG1 N-glycan signatures as compared PGD- recipients. In conclusion, we show that immunoglobulin and autoreactive antibody levels are not significantly different in COPD LTx recipients that develop PGD. However, using a novel IgG glycomic analysis we were able to demonstrate multiple significant increases in IgG1 specific N-glycan signatures that were predictive of PGD development. Taken together, these data represent a potential novel method for identifying COPD patients at risk for PGD development and may provide clues to mechanisms by which antibody N-glycan signatures could contribute to antibody-mediated PGD pathogenesis. •Primary graft dysfunction.•N-glycan structures.•Autoantibodies.•Glycome.•Lung transplantation.