Spatial mapping of mitochondrial networks and bioenergetics in lung cancer

生物能学 线粒体 氧化磷酸化 细胞生物学 生物 线粒体DNA 生物化学 基因
作者
Mingqi Han,Eric A. Bushong,Mayuko Segawa,Alexandre Tiard,Alex Wong,Morgan R. Brady,Milica Momcilovic,Dane M. Wolf,Ralph Zhang,Anton Petcherski,Matthew Madany,Shili Xu,Jason T. Lee,Masha V. Poyurovsky,Kellen Olszewski,Travis Holloway,Adrian Gomez,Maie A. St. John,Steven M. Dubinett,Carla M. Koehler
出处
期刊:Nature [Nature Portfolio]
卷期号:615 (7953): 712-719 被引量:147
标识
DOI:10.1038/s41586-023-05793-3
摘要

Abstract Mitochondria are critical to the governance of metabolism and bioenergetics in cancer cells 1 . The mitochondria form highly organized networks, in which their outer and inner membrane structures define their bioenergetic capacity 2,3 . However, in vivo studies delineating the relationship between the structural organization of mitochondrial networks and their bioenergetic activity have been limited. Here we present an in vivo structural and functional analysis of mitochondrial networks and bioenergetic phenotypes in non-small cell lung cancer (NSCLC) using an integrated platform consisting of positron emission tomography imaging, respirometry and three-dimensional scanning block-face electron microscopy. The diverse bioenergetic phenotypes and metabolic dependencies we identified in NSCLC tumours align with distinct structural organization of mitochondrial networks present. Further, we discovered that mitochondrial networks are organized into distinct compartments within tumour cells. In tumours with high rates of oxidative phosphorylation (OXPHOS HI ) and fatty acid oxidation, we identified peri-droplet mitochondrial networks wherein mitochondria contact and surround lipid droplets. By contrast, we discovered that in tumours with low rates of OXPHOS (OXPHOS LO ), high glucose flux regulated perinuclear localization of mitochondria, structural remodelling of cristae and mitochondrial respiratory capacity. Our findings suggest that in NSCLC, mitochondrial networks are compartmentalized into distinct subpopulations that govern the bioenergetic capacity of tumours.
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