Mitochondria-giant lipid droplet proximity and autophagy suppression in nitrogen-depleted oleaginous yeast Lipomyces starkeyi cells.

IF 2.1 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Lan Duan, Akinobu Togou, Keisuke Ohta, Koji Okamoto
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引用次数: 0

Abstract

Balancing energy production and storage is a fundamental process critical for cellular homeostasis in most eukaryotes that relies on the intimate interplay between mitochondria and lipid droplets. In the oleaginous yeast Lipomyces starkeyi under nitrogen starvation, lipid droplet forms a single giant spherical structure that is easily visible under a light microscope. Currently, how mitochondria behave in L. starkeyi cells undergoing giant lipid droplet formation remains unknown. Here we show that mitochondria transition from fragments to elongated tubules and sheet-like structures that are in close proximity to a giant lipid droplet in nitrogen-depleted L. starkeyi cells. Under the same conditions, mitochondrial degradation and autophagy are strongly suppressed, suggesting that these catabolic events are not required for giant lipid droplet formation. Conversely, carbon-depleted cells suppress mitochondrial elongation and lipid droplet expansion, whereas they promote mitochondrial degradation and autophagy. We propose a potential link of mitochondrial proximity and autophagic suppression to giant lipid droplet formation.

缺氮油脂酵母星酵母细胞中线粒体-巨脂滴的接近和自噬抑制。
在大多数真核生物中,平衡能量的产生和储存是一个对细胞平衡至关重要的基本过程,它依赖于线粒体和脂滴之间的密切相互作用。在油脂酵母 Lipomyces starkeyi 中,在氮饥饿条件下,脂滴形成一个巨大的球形结构,在光镜下很容易看到。目前,线粒体在星状酵母细胞中形成巨型脂滴的过程中表现如何仍不清楚。在这里,我们展示了线粒体在缺氮的星蝽细胞中从碎片转变为拉长的管状和片状结构,这些结构与巨型脂滴非常接近。在相同条件下,线粒体降解和自噬受到强烈抑制,这表明巨脂滴的形成并不需要这些分解代谢过程。相反,缺碳细胞抑制线粒体伸长和脂滴扩展,而促进线粒体降解和自噬。我们提出了线粒体接近和自噬抑制与巨型脂滴形成之间的潜在联系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of biochemistry
Journal of biochemistry 生物-生化与分子生物学
CiteScore
4.80
自引率
3.70%
发文量
101
审稿时长
4-8 weeks
期刊介绍: The Journal of Biochemistry founded in 1922 publishes the results of original research in the fields of Biochemistry, Molecular Biology, Cell, and Biotechnology written in English in the form of Regular Papers or Rapid Communications. A Rapid Communication is not a preliminary note, but it is, though brief, a complete and final publication. The materials described in Rapid Communications should not be included in a later paper. The Journal also publishes short reviews (JB Review) and papers solicited by the Editorial Board.
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