Inflammatory risk contributes to post-COVID endothelial dysfunction through anti-ACKR1 autoantibody.
Ee-Soo LeeNhi NguyenBarnaby E YoungHannah WeeVanessa WaznyKhang Leng LeeKai Yi TayLiuh Ling GohFlorence Wj ChiohMichelle Cheok Yien LawI Russel LeeLay Teng AngKyle M LohMark Yan-Yee ChanBingwen Eugene FanRinkoo DalanDavid C LyeShanshan W HowlandChristine CheungPublished in: Life science alliance (2024)
Subclinical vascular impairment can be exacerbated in individuals who experience sustained inflammation after COVID-19 infection. Our study explores the prevalence and impact of autoantibodies on vascular dysfunction in healthy COVID-19 survivors, an area that remains inadequately investigated. Focusing on autoantibodies against the atypical chemokine receptor 1 (ACKR1), COVID-19 survivors demonstrated significantly elevated anti-ACKR1 autoantibodies, correlating with systemic cytokines, circulating damaged endothelial cells, and endothelial dysfunction. An independent cohort linked these autoantibodies to increased vascular disease outcomes during a median 6.7-yr follow-up. We analyzed a single-cell transcriptome atlas of endothelial cells from diverse mouse tissues, identifying enriched Ackr1 expressions in venous regions of the brain and soleus muscle vasculatures, which holds intriguing implications for tissue-specific venous thromboembolism manifestations reported in COVID-19. Functionally, purified immunoglobulin G (IgG) extracted from patient plasma did not trigger cell apoptosis or increase barrier permeability in human vein endothelial cells. Instead, plasma IgG enhanced antibody-dependent cellular cytotoxicity mediated by patient PBMCs, a phenomenon alleviated by blocking peptide or liposome ACKR1 recombinant protein. The blocking peptide uncovered that purified IgG from COVID-19 survivors possessed potential epitopes in the N-terminal extracellular domain of ACKR1, which effectively averted antibody-dependent cellular cytotoxicity. Our findings offer insights into therapeutic development to mitigate autoantibody reactivity in blood vessels in chronic inflammation.
Keyphrases
- endothelial cells
- coronavirus disease
- sars cov
- single cell
- systemic lupus erythematosus
- oxidative stress
- venous thromboembolism
- young adults
- respiratory syndrome coronavirus
- rna seq
- high glucose
- gene expression
- skeletal muscle
- adipose tissue
- brain injury
- risk factors
- high resolution
- high throughput
- type diabetes
- small molecule
- genome wide
- metabolic syndrome
- protein protein