Self-assembly inside cellular organelles: Aspects of functions and various strategies for cancer therapy

Abstract

Self-assembly generates three-dimensional architectures through the non-covalent interactions of building blocks of various sizes, ranging from nanometers to micrometers, and the assembled structures may have new functions that the building blocks do not have. Cell self-assembly has attracted considerable attention in cancer treatment because it can overcome the side effects of conventional chemotherapy and the low therapeutic effect on drug-resistant cells. In addition, the trigger in the building block reacts with the specific environment of the cancer, such as pH, ions, redox reactions, enzymes, or receptors, facilitating cancer-targeted therapy. However, the precise control of self-assembly for the construction of nanostructures is difficult in harsh intracellular environments. To overcome this challenge, various researchers have investigated intracellular self-assembly. In particular, the self-assembly in cellular organelles is of great interest. Compared with self-assembly in the cytoplasm of cells, organelle-targeting self-assembly has the advantage of being able to self-assemble without side effects under more stable conditions with a relatively low concentration of building blocks. In this mini-review, we discuss the latest research on self-assembly inside or near organelles for cancer treatment.