ExoBow: A transgenic strategy to study CD63 exosomes in vivo

Exosomes are described as central players in a myriad of biological processes. However, the available methodologies to study their function in complex biological systems in vivo are still very limited. The biodistribution of endogenously produced exosomes, the ability to trace their spontaneous flow in order to identify the cell types they interact with, remains a major challenge. New tools to identify comprehensive networks of communication established by exosomes originated in distinct cell types in vivo , are fundamental for a better understanding of their biology. Here, we describe the development of a genetically engineered mouse model that allows the expression of the mouse CD63 exosomal marker fused with one (monocolor) or up to four fluorescent proteins (multireporter), the ExoBow. The genetic design of the ExoBow transgene allows the conditional expression of the reporters in any tissue/cell-type in an inducible or non-inducible fashion. In addition, communication mediated by CD63 positive (CD63+) exosomes can be identified amongst the same tissue/cell types using the multireporter version of the model, in order to map intra-organ/tissue communication. We demonstrate the applicability of the ExoBow transgene in normal physiological conditions and in the context of cancer, using pancreas as a working model. The ExoBow comprises a unique strategy to identify intra- and inter-organ/cell-type communication mediated by CD63+ exosomes. We believe this tool will contribute for a better understanding of the complex interactions occurring in vivo that underly the biology of exosomes in health and disease. ### Competing Interest Statement S.A.M. holds patents in the area of exosomes biology. The other authors declare no potential conflict of interests.