Abstract
At present, the activated T cell-mediated destruction of hematopoietic stem/progenitor cells is the widely-recognized pathogenesis of aplastic anemia (AA). As the most important antigen-presenting cells in humans, dendritic cells (DCs) play an important role in the upstream link of immune pathogenesis in AA patients, so it may be the reason for the breakdown of immune tolerance in AA patients. In addition, abatacept, a cytotoxic T lymphocyte-associated antigen-4 (CTLA-4) fusion protein, can block T cell activation and function by binding CD80 and CD86 and blocking their interaction with CD28. Thus may be a potential direction for targeting DCs to treat AA. However, relevant reports have not been seen so far. To investigate the potential role of DCs in the pathogenesis of AA, we collected peripheral blood (PB) and bone marrow (BM) and measured the proportion of DCs. Results revealed that compared with healthy donors (HD), the proportion of myeloid DC in PB and BM in AA patients was significantly higher. In contrast, the proportion of plasmacytoid DC decreased significantly. Besides, the expression of CD80 and CD86 on PB DC surface of AA patients was higher than that of HD patients. Next, we cultured monocyte-derived DC in vitro and detected its phenotype and function. We confirmed that compared with HD, the expression rates of the co-stimulatory molecule CD80 and mature molecule CD83 of DC in AA patients were significantly increased, the apoptosis level was significantly decreased, and the ability to promote proliferation of CD3 +, CD4 + and CD8 + T lymphocytes was enhanced. At the same time, AA-DC significantly enhanced the ability of CD4 + T and CD8 + T cells to express CD25 and CD69. In addition, the ability of AA-DC to promote the differentiation of Th0 cells to Th1 and Th17 cells was stronger than HD. The ability to promote the differentiation of Th0 to Treg cells was weaker than HD. To investigate the feasibility of abatacept targeting DC in the treatment of AA, we compared the proportions of CTLA-4 and found the expression of CTLA-4 on CD4 + T cells and Treg cells in PB of AA patients was significantly decreased. Then, our in vitro tests confirmed that abatacept can bind to CD80 on the surface of DC and significantly down-regulate the expression of CD80. Adding abatacept into the co-culture system of DC and CD3 + T lymphocytes significantly inhibited the proliferation of CD3 +, CD4 + and CD8 + T lymphocytes, and significantly inhibited the expression of CD25 and CD69 in CD4 + T and CD8 + T cells. In addition, the ability of DC to promote the secretion of interferon-γ by CD4 + and CD8 + T cells in AA patients was significantly weakened after the addition of abatacept, while the ability to promote the secretion of interleukin-4 by CD4 + and CD8 + T cells was significantly enhanced. Finally, we performed RNA-Seq analysis using DCs cultured in vitro from HD and AA patients and using DC from AA patients added with abatacept to uncover the possible molecular mechanism. Result showed that compared with HD, there were significant differences in the expression levels of 58 genes of DC in patients with AA, including 22 up-regulated genes and 36 down-regulated genes. Go analysis inferred that the differentially expressed genes were mainly concentrated in cell migration, cell chemotaxis, regulation of cytokine production, and immune response. Besides, KEGG pathway analysis implied that the signaling pathway of significant enrichment of differentially expressed genes was cytokine-cytokine receptor interaction, NF-κB signaling pathway, chemokine signaling pathway and IL-17 signaling pathway. Meanwhile, compared with AA patients, after adding abatacept, 1058 genes showed significant differences in expression levels. Go analysis inferred that the differentially expressed genes were mainly concentrated in immune response, cytokine secretion, regulation of hemopoiesis, cell activation, differentiation, proliferation, and adhesion. Moreover, KEGG pathway analysis implied that the signaling pathway enriched in cytokine-cytokine receptor interaction, JAK-STAT signaling pathway, NF-κB signaling pathway and Th1, Th2 and Th17 cell differentiation. Our finding revealed the increased number and hyperfunction of DC in AA patients may be involved in the immune pathogenesis of AA. Abatacept can block T cell activation by blocking the DC surface co-stimulatory molecule CD80 and is a promising strategy for AA treatment.
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