305 Using ACR-component based unsupervised clustering with Olink proteomics to resolve SLE heterogeneity

BackgroundThe high heterogeneity in systemic lupus erythematosus (SLE) implies that differential treatment may be required for different patient strata, hence there is an increased need of accurate patient stratification to increase treatment success.MethodsPatient serum samples from a Genuity Scien...

Full description

Saved in:
Bibliographic Details
Published in:Lupus science & medicine 2024-05, Vol.11 (Suppl 2), p.A21-A22
Main Authors: Myshkin, Eugene, Leonardo, Steven, Stevens, Anne, Seridi, Loqmane, Loza, Matthew J, Waterworth, Dawn
Format: Article
Language:English
Subjects:
Arthritis
Biomarkers
Kidney diseases
Patients
Proteins
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:BackgroundThe high heterogeneity in systemic lupus erythematosus (SLE) implies that differential treatment may be required for different patient strata, hence there is an increased need of accurate patient stratification to increase treatment success.MethodsPatient serum samples from a Genuity Science cross-sectional cohort of SLE patients ranging from minimal to high disease activity (total SLEDAI range 0 - 32) on current standard-of- care treatment, sampled at a single timepoint, were profiled on the Olink Explore proteomic panel. The output of 1428 protein analyte relative concentrations was normalized and corrected for differences in site, sex and age. Low variance proteins were filtered out with median absolute deviation above 1. Unsupervised k-means clustering was performed on ACR components (‘ever’ criteria). The association of proteins with these clusters was evaluated with Kruskal-Wallis tests, random forest and limma differential expression analysis.ResultsUnsupervised k-means clustering yielded four patient clusters as the optimal solution, characterized in figure 1A and in the table 1 below. Approximately two thirds of the patients had reported anti-dsDNA antibodies and arthritis. Half had malar rash and lymphopenia, and one third had renal manifestations. The clusters in the table 1 are arranged left to right in the order of increasing disease severity. The disease severity was determined based on clusters association with SLEDAI and number of renal manifestations. Patients in Cluster3 had the least severe disease, displaying the lowest symptom burden with only joint/skin manifestation. Patients in Cluster2 had minimal renal disease, whereas cluster4 has no malar rash but increased numbers of renal cases. Patients in Cluster1 had the most severe disease, with all four organ manifestations. The differences between clusters were statistically significant according to chi-squared test for all parameters except arthritis.Kruskal-Wallis tests of the Olink proteomic dataset identified 10 proteins that were significantly (FDR < 0.05) associated with these four clusters. The top three proteins with FDR less than 0.01 were: Kidney injury molecule 1 (HAVCR1), interferon-γ (IFNG) and matrix metalloproteinase 3 (MMP3) (figure 1B). HAVCR1 was significantly upregulated in cluster1 compared to all others. IFNG was significantly upregulated in cluster2 and cluster1. MMP3 was also increased in severe clusters2,4,1. The other seven significant identified protei
ISSN:2053-8790
DOI:10.1136/lupus-2023-lupus21century.18