Burst of hopping trafficking correlated reversible dynamic interactions between lipid droplets and mitochondria under starvation

Zhongju Ye; Chengyuan Hu; Junli Wang; Hua Liu; Luping Li; Jie Yuan; Ji Won Ha; Zhaohui Li; Lehui Xiao

doi:10.1002/EXP.20230002

Exploration (Oct 2023)

Burst of hopping trafficking correlated reversible dynamic interactions between lipid droplets and mitochondria under starvation

Zhongju Ye,
Chengyuan Hu,
Junli Wang,
Hua Liu,
Luping Li,
Jie Yuan,
Ji Won Ha,
Zhaohui Li,
Lehui Xiao

Affiliations

Zhongju Ye: Department of Chemistry Zhengzhou University ZhengzhouChina
Chengyuan Hu: Department of Chemistry Zhengzhou University ZhengzhouChina
Junli Wang: Department of Chemistry Zhengzhou University ZhengzhouChina
Hua Liu: College of Chemistry and Chemical Engineering Central South University ChangshaChina
Luping Li: Department of Chemistry Zhengzhou University ZhengzhouChina
Jie Yuan: School of Chemistry and Chemical Engineering School of Environment Henan Normal University XinxiangChina
Ji Won Ha: Department of Chemistry University of Ulsan Nam‐guRepublic of Korea
Zhaohui Li: Department of Chemistry Zhengzhou University ZhengzhouChina
Lehui Xiao: College of Chemistry and Chemical Engineering Central South University ChangshaChina

DOI: https://doi.org/10.1002/EXP.20230002
Journal volume & issue: Vol. 3, no. 5
pp. n/a – n/a

Abstract

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Abstract Dynamic membrane contacts between lipid droplets (LDs) and mitochondria play key roles in lipid metabolism and energy homeostasis. Understanding the dynamics of LDs under energy stimulation is thereby crucial to disclosing the metabolic mechanism. Here, the reversible interactions between LDs and mitochondria are tracked in real‐time using a robust LDs‐specific fluorescent probe (LDs‐Tags). Through tracking the dynamics of LDs at the single‐particle level, spatiotemporal heterogeneity is revealed. LDs in starved cells communicate and integrate their activities (i.e., lipid exchange) through a membrane contact site‐mediated mechanism. Thus the diffusion is intermittently alternated between active and confined states. Statistical analysis shows that the translocation of LDs in response to starvation stress is non‐Gaussian, and obeys nonergodic‐like behavior. These results provide deep understanding of the anomalous diffusion of LDs in living cells, and also afford guidance for rationally designing efficient transporter.

Published in Exploration

ISSN: 2766-8509 (Print); 2766-2098 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Chemical technology: Biotechnology
Website: https://onlinelibrary.wiley.com/journal/27662098

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