Fsp27 promotes lipid droplet growth by lipid exchange and transfer at lipid droplet contact sites

J Gong, Z Sun, L Wu, W Xu, N Schieber, D Xu… - Journal of Cell …, 2011 - rupress.org
J Gong, Z Sun, L Wu, W Xu, N Schieber, D Xu, G Shui, H Yang, RG Parton, P Li
Journal of Cell Biology, 2011rupress.org
Lipid droplets (LDs) are dynamic cellular organelles that control many biological processes.
However, molecular components determining LD growth are poorly understood. Genetic
analysis has indicated that Fsp27, an LD-associated protein, is important in controlling LD
size and lipid storage in adipocytes. In this paper, we demonstrate that Fsp27 is focally
enriched at the LD–LD contacting site (LDCS). Photobleaching revealed the occurrence of
lipid exchange between contacted LDs in wild-type adipocytes and Fsp27-overexpressing …
Lipid droplets (LDs) are dynamic cellular organelles that control many biological processes. However, molecular components determining LD growth are poorly understood. Genetic analysis has indicated that Fsp27, an LD-associated protein, is important in controlling LD size and lipid storage in adipocytes. In this paper, we demonstrate that Fsp27 is focally enriched at the LD–LD contacting site (LDCS). Photobleaching revealed the occurrence of lipid exchange between contacted LDs in wild-type adipocytes and Fsp27-overexpressing cells but not Fsp27-deficient adipocytes. Furthermore, live-cell imaging revealed a unique Fsp27-mediated LD growth process involving a directional net lipid transfer from the smaller to larger LDs at LDCSs, which is in accordance with the biophysical analysis of the internal pressure difference between the contacting LD pair. Thus, we have uncovered a novel molecular mechanism of LD growth mediated by Fsp27.
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