Abstract Body: Preclinical studies have shown that T-cells infiltrate the heart during heart failure (HF), promoting remodeling. However, it remains unclear whether activated T-cells infiltrate the human failing hearts also. Importantly, cellular mechanisms that are involved in T-cell activation during human HF are unknown. To address this question, we analyzed published single-cell RNA sequencing data from patients with dilated cardiomyopathy (DCM) and compared it with control hearts. Our analysis focused on characterizing the gene expression of cardiac T-cells to uncover potential mechanisms underlying their role in human HF. We found that patients with DCM had significantly more cardiac CD3+ T-cells (%CD45+ cells; 35.5±5.9 vs 22.0±0.8 p < 0.01), with gene signatures indicative of higher TCR dependent antigenic activation, proliferation, and exhaustion. Although there were no differences in the proportion of CD4+ helper and CD8+ cytotoxic T-cells between groups, patients with DCM had a higher proportion of activated (%CD45+ cells, 6.6±0.8 vs 3.1±0.3 p = 0.03) and proliferative CD4+ T-cells (%CD45+ cells, 8.0±0.8 vs 3.1±0.3 p < 0.01). Additionally, genes involved in TNF and TGFβ signaling were significantly enriched in cardiac T-cells derived from patients with DCM (normalized enrichment scores = 2.35, p_adj < 0.01, and 1.72, p_adj < 0.01, respectively),consistent with preclinical studies published by us and others. Recently, we also showed that dysfunctional T-cells exhibit increased estrogenic signaling with activation of Estrogen Receptor (ER)α in mice. Thus, we also looked at estrogen signaling in T-cells infiltrated into the DCM hearts and found that, indeed, cardiac T-cells in DCM patients exhibit significant upregulation of genes involved in estrogen signaling (normalized enrichment score = 1.69, p_adj < 0.01). This comprehensive analysis, for the first time, shows that T-cells are antigenically activated, actively infiltrate the failing human hearts and exhibit increased estrogenic signaling during DCM, providing novel insights and potential avenues for targeted immunotherapies.