October 24-25, 2024 | Novotel Montreal Centre, 1180 rue de la Montagne, CITQ ID: 603396, H3G 1Z1 Montreal, Canada
Abdelilah Majdoubi
Yale University, USA
Abdelilah Majdoubi has completed his PhD in Microbiology and Immunology from the University of Montreal and postdoctoral studies from British Columbia University and Yale University.
The immune environment of the eye is unique due to its immune-privileged status, where immune responses are tightly regulated to maintain visual function. The aqueous humour, a clear fluid filling the anterior chamber of the eye, plays a key role in this regulation. While the presence of immune cells in inflamed or diseased eyes is well-documented, their composition in the healthy eye remains unclear. To characterize the immune cell populations in the aqueous humour under non-pathological conditions, we first performed flow cytometry analysis. We identified both CD45+ immune cells and CD45− non-immune cells. We utilized single-cell RNA sequencing on aqueous humour samples from postmortem donors. We found nine distinct clusters, including two T cell clusters, a monocyte/macrophage cluster, dendritic cells, microglia, B cells, and two unknown clusters. T cells were the most abundant, followed by microglia and monocyte/macrophages. T cells Cluster # 1 expressed markers of activation and tissue residency (CD44, CD69, JUND), along with transcription factors associated with less terminal differentiation (TCF7, GATA3). In contrast, T cells Cluster #2 displayed high expression of cytotoxicity markers (GNLY, GZMB, PRF1) and exhaustion molecules (HAVCR2, CD38), indicating a more differentiated, potentially exhausted phenotype. Pseudotime analysis confirmed that both T cells Cluster # 1 and Cluster # 2 formed a continuum of T cells differentiation from early stage of activation to cytotoxicity and exhaustion. CellChat analysis showed interaction between T cells and Monocytes/Macrophages and Microglia, that was mediated mainly by the CD44-SSP1 which is known to have a regulatory effect on T cells. Our results highlight the immune heterogeneity within the aqueous humour of the healthy eye, providing new insights into the immune landscape of this immune-privileged site. The detection of microglia and other tissue-resident immune cells indicates that the aqueous humour harbours a specialized immune environment.