Light-Controlled Cell–Cell Assembly Using Photocaged Oligonucleotides

Abstract

The interactions between heterogeneous cell populations play important roles in dictating various cell behaviors. Cell–cell contact mediates communication through the exchange of signaling molecules, electrical coupling, and direct membrane-linked ligand–receptor interactions. In vitro culturing of multiple cell types with control over their specific arrangement is difficult, especially in three-dimensional (3D) systems. While techniques that allow one to control the arrangement of cells and direct contact between different cell types have been developed that expand upon simple co-culture methods, specific control over heterojunctions that form between cells is not easily accomplished with current methods, such as 3D cell-printing. In this article, DNA-mediated cell interactions are combined with cell-compatible photolithographic approaches to control cell assembly. Specifically, cells are coated with oligonucleotides containing DNA nucleobases that are protected with photocleavable moieties; this coating facilitated light-controlled cell assembly when these cells were mixed with cells coated with complementary oligonucleotides. By combining this technology with digital micromirror devices mounted on a microscope, selective activation of specific cell populations for interactions with other cells was achieved. Importantly, this technique is rapid and uses non-UV light sources. Taken together, this technique opens new pathways for on-demand programming of complex cell structures.