MVB were then formed with the release of these small buds of ∼50 nm diameter (intraluminal vesicles) into the main body of the vesicles. These MVB eventually fused with the cell membrane releasing the ∼50 nm buds, now known as exosomes, into the extracellular milieu.[51] Exosome release allows maturing reticulocytes to shed obsolete membrane proteins and remodel their plasma membrane,[52] providing an alternative to lysosomal degradation.
In addition to the secretion of unnecessary or damaged proteins, exosomes provide a non-classical secretion pathway for a wide range of physiologically relevant proteins, including β-catenin.[53] Exosomes Deforolimus molecular weight released by immune cells play a wide range of important roles in the normal immune system,[54] FK228 molecular weight as well as being involved with tumour immunomodulation.[55] The presence of functional MHC class II molecules in immune cell-derived exosomes highlights their role in antigen presentation.[56] Exosomes are capable of presenting pathogen-derived antigens[57] or exerting immunosuppressive or cytotoxic functions.[58] The functional effect of exosomes on immune cells may be exerted by exosomal miRNA transfer, as recently observed by T cells in response to antigen stimulation.[59] Exosomes are exploited by pathogens as a means of intercellular spreading and communication. Exosomes are capable of shuttling viral proteins
Adenosine which can promote pathogenesis or immune escape,[34] as well as functional viral miRNAs[49] and dissemination of HIV-1 infection.[60] The pathogenic prion protein has also been demonstrated to be packaged into exosomes.[61] During tumour development, tumour cells interact with their surrounding microenvironment to promote their growth, survival and invasion. Tumour-derived exosomes are being described as important mediators of
many of these processes, including tumour cell proliferation,[62] angiogenesis,[10] metastasis,[63, 64] stromal remodelling[65, 66] and immunomodulation.[55] In experimental models of renal cancer, cancer stem cell-derived vesicles appear able to contribute to triggering the angiogenic switch and promote metastasis.[67] Tumour-derived exosomes can suppress antigen-specific immune responses and dendritic cell maturation in vivo,[68] in addition to upregulating immunosuppressive cell differentiation and function, including regulatory T cells[69] and myeloid-derived suppressor cells.[16] As described above, exosomes were initially identified in the loss of transferrin receptors, which accompanies maturation of reticulocytes to erythrocytes. Furthermore, evidence has since been obtained for the secretion of exosomes in vitro by a variety of other cells including lymphocytes, dendritic cells, mast cells, endothelial cells, platelets, and presumably other cell types that contact intravascular space.