Lipogenesis promotes mitochondrial fusion and maintains cancer stemness in human NSCLC
Zhen Liu, … , Wei Xu, Zhenke Wen
Zhen Liu, … , Wei Xu, Zhenke Wen
Published February 21, 2023
Citation Information: JCI Insight. 2023;8(6):e158429. https://doi.org/10.1172/jci.insight.158429.
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Research Article Oncology

Lipogenesis promotes mitochondrial fusion and maintains cancer stemness in human NSCLC

Abstract

Cancer stem-like cells (CSCs) are critically involved in cancer metastasis and chemoresistance, acting as one major obstacle in clinical practice. While accumulating studies have implicated the metabolic reprogramming of CSCs, mitochondrial dynamics in such cells remain poorly understood. Here we pinpointed OPA1hi with mitochondrial fusion as a metabolic feature of human lung CSCs, licensing their stem-like properties. Specifically, human lung CSCs exerted enhanced lipogenesis, inducing OPA1 expression via transcription factor SAM Pointed Domain containing ETS transcription Factor (SPDEF). In consequence, OPA1hi promoted mitochondrial fusion and stemness of CSCs. Such lipogenesishi, SPDEFhi, and OPA1hi metabolic adaptions were verified with primary CSCs from lung cancer patients. Accordingly, blocking lipogenesis and mitochondrial fusion efficiently impeded CSC expansion and growth of organoids derived from patients with lung cancer. Together, lipogenesis regulates mitochondrial dynamics via OPA1 for controlling CSCs in human lung cancer.

Authors

Zhen Liu, Jiaxin Lei, Tong Wu, Weijie Hu, Ming Zheng, Ying Wang, Jingdong Song, Hang Ruan, Lin Xu, Tao Ren, Wei Xu, Zhenke Wen

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Figure 5

Aberrant lipogenic metabolism in CSCs.

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Aberrant lipogenic metabolism in CSCs. (A) Quantification of acetyl-CoA ...
(A) Quantification of acetyl-CoA in A549 tumor spheres and adherent cells. Mean ± SEM from 6 independent experiments. (B and C) Intracellular lipid depositions were analyzed with BODIPY (493/503) staining in A549 tumor spheres and adherent cells. Representative and mean ± SEM from 4 independent experiments. (D) A549 tumor spheres and adherent cells were stained with BODIPY (493/503) and visualized with confocal microscopy. Representative and mean ± SEM from 5 independent experiments. Nuclei were stained with DAPI. Scale bar: 10 μm. (E) Metabolomic analysis showing increased lipid content in A549 tumor spheres. Metabolomic data from 3 samples in each group. (F and G) TG as the dominant lipid subtyping was apparently accumulated in A549 tumor spheres. Metabolomics from 3 samples in each group. **P < 0.01, ***P < 0.001 with paired t test.