posted on 2021-06-21, 16:34authored byTaniya Chakraborty, Seraphine V. Wegner
Cells commonly communicate
with each other through diffusible molecules
but nonchemical communication remains elusive. While bioluminescent
organisms communicate through light to find prey or attract mates,
it is still under debate if signaling through light is possible at
the cellular level. Here, we demonstrate that cell to cell signaling
through light is possible in artificial cell communities derived from
biomimetic vesicles. In our design, artificial sender cells produce
an intracellular light signal, which triggers the adhesion to receiver
cells. Unlike soluble molecules, the light signal propagates fast,
independent of diffusion and without the need for a transporter across
membranes. To obtain a predator–prey relationship, the luminescence
predator cells is loaded with a secondary diffusible poison, which
is transferred to the prey cell upon adhesion and leads to its lysis.
This design provides a blueprint for light based intercellular communication,
which can be used for programing artificial and natural cell communities.