Encapsulation of multiple cargo proteins within recombinant Eut nanocompartments.

Spatial organization via encapsulation of enzymes within recombinant nanocompartments may increase efficiency in multienzyme cascades. Previously, we reported the encapsulation of single cargo proteins within nanocompartments in the heterologous host Escherichia coli. This was achieved by coexpression of the Salmonella enterica LT2 ethanolamine utilization bacterial microcompartment shell proteins EutS or EutSMNLK, with a signal sequence EutC1-19 cargo protein fusion. Optimization of this system, leading to the targeting of more than one cargo protein, requires an understanding of the encapsulation mechanism. In this work, we report that the signal sequence EutC1-19 targets cargo to the interior of nanocompartments via a hydrophobic interaction with a helix on shell protein EutS. We confirm that EutC1-19 does not interact with other Eut BMC shell proteins, EutMNLK. Furthermore, we show that a second signal sequence EutE1-21 interacts specifically with the same helix on EutS. Both signal sequences appear to compete for the same EutS helix to simultaneously colocalize two cargo proteins to the interior of recombinant nanocompartments. This work offers the first insights into signal sequence-shell protein interactions required for cargo sequestration within Eut BMCs. It also provides a basis for the future engineering of Eut nanocompartments as a platform for the potential colocalization of multienzyme cascades for synthetic biology applications.