The Relationship Between Immune Cells and Heart Failure: A Study Integrating Immune Infiltration Analysis and Bidirectional Mendelian Randomization

Abstract

BackgroundIn recent years, attempts have been made to employ various immunomodulatory therapies as new treatment strategies for heart failure, yet the outcomes have been disappointing. Consequently, unveiling the complexity and causal relationships of the immune system’s role in heart failure has become imperative.MethodsWe first determined the levels of immune cells in failing myocardium using five immune infiltration algorithms: Cibersort, xCell, ssGSEA, MCPcounter, and QuanTIseq. Subsequently, two-sample bidirectional Mendelian Randomization (MR) analysis was conducted between heart failure and 731 immune cell phenotypes using Inverse Variance Weighted (IVW) as the main method, reinforced by MR-Egger, Weighted median, and Weighted mode as secondary analysis methods. Sensitivity analyses were performed to ensure data stability and feasibility.ResultsImmune infiltration analysis revealed changes in the levels of immune cell infiltration in failing myocardium, including T cells, Mast cells, B cells, NK cells, and macrophages. MR analysis indicated that 19 immune cell phenotypes from 5 cell types were associated with an increased risk of heart failure, while 12 immune cell phenotypes from 6 cell types were associated with a decreased risk, without heterogeneity and pleiotropy. Reverse MR analysis did not support a causal relationship between HF and any of the 731 immune cell phenotypes.ConclusionOur study highlights the complex pattern and causal relationship between the immune system and heart failure through immune infiltration and MR analyses. This provides new insights for the exploration of immunocyte therapies for heart failure.