3D Imaging of Lipid Droplet-Nuclear Membrane Contact Sites and Cirrhotic Lipid Droplet Overexpression.

To coordinate cellular physiology, cells rely on the rapid exchange of molecules at specialized organelle-organelle contact sites. Lipid droplets (LDs) and nuclear membrane (NM) contact sites are particularly vital communication hubs, playing key roles in the exchange of signaling molecules, lipids, and metabolites. However, there is still a lack of understanding of the specific morphology of the contact sites. Here, we combine advanced three-dimensional (3D) imaging with a high-brightness fluorescent probe specifically targeting LDs to map the structural landscape of LD-NM contact sites. The probe exhibits exceptional photophysical properties, making it highly suitable for visualizing the changes occurring in LDs during the apoptosis process. In addition, we utilize the advantages of the probe to accurately monitor the overexpression of abnormal LDs in cirrhosis by 3D imaging for the first time. The outcomes of this investigation highlight that the probe has potential as a robust imaging tool to investigate intricate biological functions of LDs and their implications in related diseases.