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蛋氨酸缺乏饮食诱导胱硫醚 β-合酶的转录后下调。

Methionine-deficient diet induces post-transcriptional downregulation of cystathionine β-synthase.

机构信息

Cancer Genetics and Signaling Program, Fox Chase Cancer Center, Philadelphia, Pennsylvania, USA.

出版信息

Nutrition. 2010 Nov-Dec;26(11-12):1170-5. doi: 10.1016/j.nut.2009.10.006. Epub 2009 Dec 29.

DOI:10.1016/j.nut.2009.10.006
PMID:20036517
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2956870/
Abstract

OBJECTIVE

Elevated plasma total homocysteine (tHcy) is a risk factor for a variety of human diseases. Homocysteine is formed from methionine and has two primary metabolic fates: remethylation to form methionine or commitment to the transsulfuration pathway by the action of cystathionine β-synthase (CBS). We have examined the metabolic response in mice of a shift from a methionine-replete to a methionine-free diet.

METHODS AND RESULTS

We found that shifting 3-mo-old C57BL6 mice to a methionine-free diet caused a transient increase in tHcy and an increase in the tHcy/methionine ratio. Because CBS is a key regulator of tHcy, we examined CBS protein levels and found that within 3 d on the methionine-deficient diet, animals had a 50% reduction in the levels of liver CBS protein and enzyme activity. Examination of CBS mRNA and studies of transgenic animals that express CBS from a heterologous promoter indicated that this reduction is occurring post-transcriptionally. Loss of CBS protein was unrelated to intracellular levels of S-adenosylmethionine, a known regulator of CBS activity and stability.

CONCLUSION

Our results imply that methionine deprivation induces a metabolic state in which methionine is effectively conserved in tissue by shutdown of the transsulfuration pathway by an S-adenosylmethionine-independent mechanism that signals a rapid downregulation of CBS protein.

摘要

目的

血浆总同型半胱氨酸(tHcy)升高是多种人类疾病的危险因素。同型半胱氨酸由蛋氨酸形成,有两种主要代谢命运:通过胱硫醚 β-合酶(CBS)的作用重新甲基化为蛋氨酸或转化为硫代途径。我们研究了从小鼠从蛋氨酸丰富的饮食转变为蛋氨酸缺乏的饮食后的代谢反应。

方法和结果

我们发现,将 3 个月大的 C57BL6 小鼠转换为蛋氨酸缺乏饮食会导致 tHcy 短暂升高和 tHcy/蛋氨酸比值升高。由于 CBS 是 tHcy 的关键调节剂,我们检查了 CBS 蛋白水平,发现动物在缺乏蛋氨酸的饮食 3 天内,肝脏 CBS 蛋白和酶活性降低了 50%。对 CBS mRNA 的检查和表达 CBS 的转基因动物的研究表明,这种减少是在转录后发生的。CBS 蛋白的丢失与细胞内 S-腺苷甲硫氨酸水平无关,S-腺苷甲硫氨酸是 CBS 活性和稳定性的已知调节剂。

结论

我们的结果表明,蛋氨酸缺乏诱导了一种代谢状态,其中通过一种 S-腺苷甲硫氨酸独立的机制使蛋氨酸在组织中有效地被保留,该机制通过快速下调 CBS 蛋白来关闭硫代途径。

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