Optogenetic engineering of lipid droplet spatial organization for tumor suppression.
Abstract:
In cancer cells, lipid droplets (LDs) establish extensive membrane contact sites (MCSs) with mitochondria to facilitate fatty acid transfer and sustain energy production, thus enabling cancer cell survival, in nutrient-deprived tumor microenvironments. However, effective strategies to disrupt these LD-mitochondria interactions remain unavailable. We engineered an optogenetic system to control LD intracellular organization through clustering. Upon blue light stimulation, the system induces LDs to undergo spatial reorganization and form clusters, thereby restricting LD accessibility by reducing the available surface area for mitochondrial interaction. Consequently, this clustering significantly diminishes the number of LD-mitochondria MCSs, suppresses fatty acid transport from LDs to mitochondria during starvation, and ultimately leads to cancer cell death in vitro and tumor growth inhibition in vivo. Collectively, our results demonstrate that optogenetically controlled LD clustering offers a novel approach to impede tumor progression by blocking nutrient flow from LDs to mitochondria.
