Mechanisms influencing transient cytoplasmic protein targeting to intracellular lipid droplets
Jay L. Laws, Ebony A. Monson, Lachlan A. Wallace, Karla J. Helbig, Cameron J. ReddingtonAbstract
Lipid droplets (LDs) have a multitude of functions ranging from lipid storage to fighting infection and are decorated with a variety of proteins on their surface that determine their functions and behaviours. Mass spectrometric analysis has identified the vast array of LD-localised proteins, which have recently been shown to be dynamic, changing in response to cellular stress, infection, and altered homeostasis. Here, we review the key mechanisms of cytoplasmic protein interactions with the LD, highlighting conventional features like amphipathic helices, atypical sequence-based motifs, protein–protein interactions, and post-translational modifications that confer dynamic targeting of proteins to the surface of the LD. A better understanding of the transient LD proteome and the mechanisms that confer LD protein targeting will allow researchers to develop a more thorough understanding of LD biology, and the role of LDs in cellular homeostasis and disease.