维生素 C 的线粒体摄取和积累：细胞培养研究能告诉我们什么？

Mitochondrial Uptake and Accumulation of Vitamin C: What Can We Learn from Cell Culture Studies?

机构信息

Department of Biomolecular Sciences, University of Urbino "Carlo Bo ," Urbino, Italy .

出版信息

Antioxid Redox Signal. 2018 Nov 20;29(15):1502-1515. doi: 10.1089/ars.2017.7253. Epub 2017 Aug 9.

DOI:10.1089/ars.2017.7253

PMID:28699359

Abstract

SIGNIFICANCE

The mitochondrial fraction of l-ascorbic acid (AA) is of critical importance for the regulation of the redox status of these organelles and for cell survival. Recent Advances: Most cell types take up AA by the high-affinity sodium-dependent vitamin C transporter 2 (SVCT2) sensitive to inhibition by dehydroascorbic acid (DHA). DHA can also be taken up by glucose transporters (GLUTs) and then reduced back to AA. DHA concentrations, normally very low in biological fluids, may only become significant next to superoxide-releasing cells. Very little is known about the mechanisms mediating the mitochondrial transport of the vitamin.

CRITICAL ISSUES

Information on AA transport is largely derived from studies using cultured cells and is therefore conditioned by possible cell culture effects as overexpression of SVCT2 in the plasma membrane and mitochondria. Mitochondrial SVCT2 is susceptible to inhibition by DHA and transports AA with a low affinity as a consequence of the restrictive ionic conditions. In some cells, however, high-affinity mitochondrial transport of AA is observed. Mitochondrial uptake of DHA may take place through GLUTs, an event followed by its prompt reduction to AA in the matrix. Intracellular levels of DHA are, however, normally very low.

FUTURE DIRECTIONS

We need to establish, or rule out, the role and significance of mitochondrial SVCT2 in vivo. The key question for mitochondrial DHA transport is instead related to its very low intracellular concentrations.

摘要

意义

L-抗坏血酸（AA）的线粒体部分对于这些细胞器的氧化还原状态的调节和细胞存活至关重要。

关键问题

AA 转运的信息主要来自于对培养细胞的研究，因此受到可能的细胞培养效应的影响，如质膜和线粒体中 SVCT2 的过度表达。线粒体 SVCT2 易受 DHA 抑制，并由于离子条件的限制以低亲和力转运 AA。然而，在一些细胞中观察到 AA 的高亲和力线粒体转运。DHA 可能通过 GLUTs 进入线粒体，随后在基质中迅速还原为 AA。然而，细胞内 DHA 的水平通常非常低。

未来方向

我们需要确定或排除体内线粒体 SVCT2 的作用和意义。相反，线粒体 DHA 转运的关键问题与其非常低的细胞内浓度有关。

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维生素 C 的线粒体摄取和积累：细胞培养研究能告诉我们什么？

Mitochondrial Uptake and Accumulation of Vitamin C: What Can We Learn from Cell Culture Studies?

机构信息

出版信息

SIGNIFICANCE

CRITICAL ISSUES

FUTURE DIRECTIONS

意义

最新进展

关键问题

未来方向

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