磺基转移酶 1C2 通过将线粒体膜胆固醇转化为胆固醇硫酸酯来增加线粒体呼吸。

Sulfotransferase 1C2 Increases Mitochondrial Respiration by Converting Mitochondrial Membrane Cholesterol to Cholesterol Sulfate.

机构信息

Department of Biology, School of Science, Indiana University-Indianapolis, Indianapolis, Indiana 46202, United States.

Khalifa University of Science and Technology, P.O. Box 127788, Abu Dhabi, United Arab Emirates.

出版信息

Biochemistry. 2024 Sep 17;63(18):2310-2322. doi: 10.1021/acs.biochem.3c00344. Epub 2024 Aug 28.

DOI:10.1021/acs.biochem.3c00344

PMID:39194960

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11411706/

Abstract

HYPOTHESIS

In this communication, we test the hypothesis that sulfotransferase 1C2 (SULT1C2, UniProt accession no. Q9WUW8) can modulate mitochondrial respiration by increasing state-III respiration.

METHODS AND RESULTS

Using freshly isolated mitochondria, the addition of SULT1C2 and 3-phosphoadenosine 5 phosphosulfate (PAPS) results in an increased maximal respiratory capacity in response to the addition of succinate, ADP, and rotenone. Lipidomics and thin-layer chromatography of mitochondria treated with SULT1C2 and PAPS showed an increase in the level of cholesterol sulfate. Notably, adding cholesterol sulfate at nanomolar concentration to freshly isolated mitochondria also increases maximal respiratory capacity. In vivo studies utilizing gene delivery of SULT1C2 expression plasmids to kidneys result in increased mitochondrial membrane potential and confer resistance to ischemia/reperfusion injury. Mitochondria isolated from gene-transduced kidneys have elevated state-III respiration as compared with controls, thereby recapitulating results obtained with mitochondrial fractions treated with SULT1C2 and PAPS.

CONCLUSION

SULT1C2 increases mitochondrial respiratory capacity by modifying cholesterol, resulting in increased membrane potential and maximal respiratory capacity. This finding uncovers a unique role of SULT1C2 in cellular physiology and extends the role of sulfotransferases in modulating cellular metabolism.

摘要

假设

在本通讯中，我们检验了这样一个假设，即磺基转移酶 1C2（SULT1C2，UniProt 登录号 Q9WUW8）可以通过增加 III 态呼吸来调节线粒体呼吸。

方法和结果

使用新鲜分离的线粒体，添加 SULT1C2 和 3-磷酸腺苷 5-磷酸硫酸酯（PAPS）可导致琥珀酸、ADP 和鱼藤酮添加时最大呼吸能力增加。用 SULT1C2 和 PAPS 处理的线粒体的脂质组学和薄层层析显示胆固醇硫酸酯水平增加。值得注意的是，向新鲜分离的线粒体中添加纳摩尔浓度的胆固醇硫酸酯也会增加最大呼吸能力。利用 SULT1C2 表达质粒向肾脏进行基因传递的体内研究导致线粒体膜电位增加，并赋予对缺血/再灌注损伤的抗性。与对照相比，从基因转导的肾脏中分离的线粒体具有更高的 III 态呼吸，从而再现了用 SULT1C2 和 PAPS 处理线粒体级分获得的结果。

结论

SULT1C2 通过修饰胆固醇来增加线粒体呼吸能力，从而增加膜电位和最大呼吸能力。这一发现揭示了 SULT1C2 在细胞生理学中的独特作用，并扩展了磺基转移酶在调节细胞代谢中的作用。

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磺基转移酶 1C2 通过将线粒体膜胆固醇转化为胆固醇硫酸酯来增加线粒体呼吸。

Sulfotransferase 1C2 Increases Mitochondrial Respiration by Converting Mitochondrial Membrane Cholesterol to Cholesterol Sulfate.

机构信息

出版信息

HYPOTHESIS

METHODS AND RESULTS

CONCLUSION

假设

方法和结果

结论

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