Different possible strategies to enhance the angiogenic potential of exosomes released by stem cells. (a) Stem cells cultured under normal culture condition constitutively produce exosomes with a basal angiogenic potential. (b) Specific in vitro stress conditions mimicking organ injury situations, such as hypoxia, irradiation, or drug treatments, induce changes in exosomal RNA and protein repertoire. These alterations of exosomal composition are thought to facilitate angiogenesis and tissue repair through an enhanced level of growth factors and cytokines. (c) The transfection of exosomes producer cells with protein or DNA encoding therapeutically active angiogenic compounds which are then released within the released exosomes constitutes another approach. Since overexpression of a specific factor does not ensure a similar increase of its representation in the exosome cargo, another strategy is to directly load the exosomes after release with proangiogenic factors such as the recombinant VEGF protein or the vector encoding its expression. Hence, boosting the exosome with proangiogenic factors can be achieved directly or indirectly, and each approach has its advantages and limitations and may be dictated by the type of the encapsulated molecule (molecular weight, posttranslational modifications) and conditions suitable for a specific type of exosome-encapsulated cargo.