A new role for phosphoinositides in regulating mitochondrial dynamics

Q1 Biochemistry, Genetics and Molecular Biology
Sonia Raveena Lourdes , Rajendra Gurung , Saveen Giri , Christina A. Mitchell , Meagan J. McGrath
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引用次数: 0

Abstract

Phosphoinositides are a minor group of membrane-associated phospholipids that are transiently generated on the cytoplasmic leaflet of many organelle membranes and the plasma membrane. There are seven functionally distinct phosphoinositides, each derived via the reversible phosphorylation of phosphatidylinositol in various combinations on the inositol ring. Their generation and termination is tightly regulated by phosphatidylinositol-kinases and –phosphatases. These enzymes can function together in an integrated and coordinated manner, whereby the phosphoinositide product of one enzyme may subsequently serve as a substrate for another to generate a different phosphoinositide species. This regulatory mechanism not only enables the transient generation of phosphoinositides on membranes, but also more complex sequential or bidirectional conversion pathways, and phosphoinositides can also be transferred between organelles via membrane contacts. It is this capacity to fine-tune phosphoinositide signals that makes them ideal regulators of membrane organization and dynamics, through their recruitment of signalling, membrane altering and lipid transfer proteins. Research spanning several decades has provided extensive evidence that phosphoinositides are major gatekeepers of membrane organization, with roles in endocytosis, exocytosis, autophagy, lysosome dynamics, vesicular transport and secretion, cilia, inter-organelle membrane contact, endosome maturation and nuclear function. By contrast, there has been remarkably little known about the role of phosphoinositides at mitochondria – an enigmatic and major knowledge gap, with challenges in reliably detecting phosphoinositides at this site.

Here we review recent significant breakthroughs in understanding the role of phosphoinositides in regulating mitochondrial dynamics and metabolic function.

磷酸肌苷在调节线粒体动力学中的新作用。
磷酸肌肽是一小类膜相关磷脂,在许多细胞器膜和质膜的细胞质小叶上短暂产生。有七种功能不同的磷酸肌醇,每一种都是通过磷脂酰肌醇在肌醇环上的不同组合的可逆磷酸化而得到的。它们的产生和终止受到磷脂酰肌醇激酶和-磷酸酶的严格调控。这些酶可以以一种整合和协调的方式一起起作用,即一种酶的磷酸肌肽产物随后可以作为另一种酶的底物来产生不同的磷酸肌肽种类。这一调控机制不仅可以实现膜上磷酸肌苷的瞬时生成,还可以实现更复杂的顺序或双向转化途径,磷酸肌苷也可以通过膜接触在细胞器之间转移。正是这种微调磷酸肌苷信号的能力,使它们成为膜组织和动力学的理想调节剂,通过它们的信号募集,膜改变和脂质转移蛋白。几十年来的研究已经提供了大量证据,证明磷酸肌苷是膜组织的主要看门人,在内吞作用、胞吐作用、自噬、溶酶体动力学、囊泡运输和分泌、纤毛、细胞器间膜接触、内核体成熟和核功能中发挥作用。相比之下,人们对线粒体中磷酸肌苷的作用知之甚少——这是一个谜,也是一个重大的知识缺口,在可靠地检测该位点的磷酸肌苷方面存在挑战。在这里,我们回顾了最近在理解磷脂肌苷在调节线粒体动力学和代谢功能中的作用方面的重大突破。
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
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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