Introduction: Myelodysplastic syndromes (MDS) are a group of clonal bone marrow disorders, with dysplasia, cytopenias and increased risk of progression to acute myeloid leukemia. A dysregulated immune system precipitates MDS, and to gain insights into the relevance of cytotoxic T lymphocyte (CTL) in this process, we examined the frequency and function of CX3CR1- and CD57-positive T lymphocytes from MDS patients.
Materials and methods: Peripheral blood and/or bone marrow samples from 31 MDS patients and 12 healthy controls were examined by flow cytometry. Expression of cytotoxic granule constituents, immunological co-receptors, adhesion molecules and markers of activation were quantified on unstimulated lymphocytes. Degranulation, cytotoxicity and conjugate formation with target cells following co-culture of CTL with target cell lines or autologous bone marrow-derived CD34(+) cells were quantified by flow cytometry.
Results: CX3CR1 expression was increased in bone marrow from high-risk MDS patients compared to healthy controls. Expression of CD57 and CX3CR1 was closely correlated, identifying a CTL subset with high cytotoxic capacity. In vitro, TCR-induced redirected cytotoxicity was markedly decreased for high-risk MDS patients compared to controls. CTL from MDS patients with the lowest target cell cytotoxicity had reduced expression of adhesion molecules and formed fewer conjugates with target cells.
Discussion: Although phenotypically defined CTL numbers were increased in the bone marrow of MDS patients, we found that CTL from high-risk MDS patients exhibited a lower TCR-induced redirected cytotoxic capacity. Thus, decreased T cell cytotoxicity seems related to reduced adhesion to target cells and may contribute to impaired anti-leukemic immune surveillance in MDS.
Keywords: Adhesion; CD57; CX3CR1; Cytotoxic T lymphocytes; Granzyme B; Myelodysplastic syndromes.