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. 2024 Jan 18;25(2):1205. doi: 10.3390/ijms25021205

Table 1.

Effects of immune cell-derived EVs on target cells.

Cell Type Effect of Cell Type-Derived EVs on Target Cells Reference
Monocytes and Macrophages - Involvement in the innate immune cell’s communication [54]
- Regulation of inflammation, immune cell activation, and modulation of immune responses in various disease contexts [55,56]
- Immunomodulatory effects in cancer, acute kidney injury, and inflammatory disorders [57,58,59]
- M1-derived EVs induce macrophage activation, cytokine production, and immune cell recruitment [60,61]
- Implication in chronic inflammatory diseases (diabetes, cancer, cardiovascular disease, pulmonary disease, and gastrointestinal disease) [62]
- Activation of macrophage-mediated inflammation and effects on vascular diseases [63,64]
- Modulation the status of pericytes in response to inflammatory stimuli [65]
- Regulation of bone homeostasis [66]
Dendritic Cell - T cell stimulation and antigen-specific T cell responses [67,68,69]
- Modulation of T cells and NK cell function [70]
- Immunomodulatory activity mediated by miRNA cargo on immune target cells [71]
T Cell - Modulation of leukocytes, parenchymal, or stromal cells functions [72]
- Inhibition of effector T cell responses [73]
- Reduction of IL-6, iNOS, IL-1β, and IFN- γ transcripts in spleen-derived myeloid cells [74]
- Suppression of CD4+ and CD8+ T cell proliferation [75]
- Regulation of DCs function, highlighting their immunomodulatory effects [76]
- Treg-derived EVs ameliorate chronic prostatitis/chronic pelvic pain syndrome in rats [77]
- Involvement in modulation of autoimmune diseases and transplantation by inhibition of CD4+ T cell proliferation and relevant miR-146a-5p targets [78]
- Immunosuppressive effects of Treg EVs on target immune cells [79]
- Induction of tumour regression in tumour microenvironment [80]
B cell - T cell interaction and immunomodulatory activity in T cell differentiation [81,82,83]
- Activation of DCs, T CD4+ and NK to induce TCD8+ killing response [83,84,85]
- Inhibition of lymphocyte response to interleukin-2 [86]
- Modulation of gene expression in B-lymphocytes [87]
Natural Killer - Involvement in immune tolerance and immunosuppression [88]
- Antitumoral activity as effectors of NK cells [88]
- Activation of caspase-dependent or independent apoptosis pathways [89]
- Implication in immune surveillance [90]
- Regulation of cancer initiation, growth and metastasis as well as NK cells [91]
Red Blood Cell (RBC) - Macrophage pro-inflammatory polarisation [92]
- Activation of coagulation pathways [93,94]
- Impact on B lymphocyte survival and plasma cell differentiation [95]
- Human mast cell activation and induction of inflammatory mediators [96]
- T cell proliferation in peripheral blood mononuclear cell cultures [97]