Solenopsin A 及其类似物具有类似神经酰胺的生物活性。

Q4 Neuroscience
Vascular Cell Pub Date : 2015-05-08 eCollection Date: 2015-01-01 DOI:10.1186/s13221-015-0030-2
Isabella Karlsson, Xin Zhou, Raquela Thomas, Allorie T Smith, Michael Y Bonner, Pooja Bakshi, Ajay K Banga, J Phillip Bowen, Ghassan Qabaja, Shavon L Ford, Matthew D Ballard, Kimberly S Petersen, Xuechen Li, Guangping Chen, Besim Ogretmen, Jin Zhang, E Blake Watkins, Rebecca S Arnold, Jack L Arbiser
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引用次数: 0

摘要

背景:(-)-Solenopsin A 是一种哌啶生物碱,是火蚁 Solenopsis invicta 的毒液成分之一。此前,我们已证实茄红素具有抗血管生成活性,并能在缺乏 p53 的肾细胞癌细胞系 786-O 中下调磷酸肌醇-3 激酶(PI3K)。Solenopsin 在结构上与神经酰胺相似,神经酰胺是细胞信号传导和癌症治疗诱导细胞凋亡的主要内源性调节剂:方法:合成了不同的茄红素类似物,以探索其结构-活性关系。在六种不同的细胞系(包括三种肿瘤细胞系、两种正常皮肤细胞系和一种永生化高增殖细胞系)上测试了solenopsin及其类似物的抗增殖作用。使用基于FRET的报告器研究了solenopsin和类似物对Akt活性和PDK1活化的影响,并进行了蔗糖密度梯度分馏,以检查PTEN在膜筏上的招募情况。Western 印迹法用于评估 Solenopsin 和类似物对三种不同肿瘤细胞株中 Akt 和 MAPK 44/42 通路的影响。通过测量细胞耗氧量和自噬染色来研究线粒体功能。最后,研究了茄红素及其类似物对 ROS 生成的影响:在本文中,我们证明了可以从廉价的二甲基吡啶中合成具有强效抗增殖作用的solenopsin类似物。为了确定solenopsin及其类似物是否具有神经酰胺类似物的作用,我们研究了solenopsin及其类似物对神经酰胺活性的两个定型位点(即脂筏和线粒体)的影响。我们发现,原生 Solenopsin((-)-solenopsin A)抑制脂质筏中 Akt 功能活性和 PDK1 激活的方式与神经酰胺相似。solenopsin的顺式和反式类似物都能降低线粒体耗氧量,增加活性氧,杀死Akt磷酸化水平升高的肿瘤细胞。然而,只有茄红素能像神经酰胺一样诱导有丝分裂:结论:神经酰胺诱导有丝分裂以及抑制脂筏中 Akt 活性和 PDK1 激活的要求受到严格的立体化学控制。天然存在的 (-)-solenopsin A 可模拟神经酰胺的某些功能,即使在 Akt 水平升高的情况下,也可用于治疗皮肤的过度增殖和恶性疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Solenopsin A and analogs exhibit ceramide-like biological activity.

Solenopsin A and analogs exhibit ceramide-like biological activity.

Solenopsin A and analogs exhibit ceramide-like biological activity.

Solenopsin A and analogs exhibit ceramide-like biological activity.

Background: (-)-Solenopsin A is a piperidine alkaloid that is a component of the venom of the fire ant Solenopsis invicta. Previously, we have demonstrated that solenopsin exhibit anti-angiogenic activity and downregulate phosphoinositol-3 kinase (PI3K) in the p53 deficient renal cell carcinoma cell line 786-O. Solenopsin has structural similarities to ceramide, a major endogenous regulator of cell signaling and cancer therapy induced apoptosis.

Methods: Different analogs of solenopsin were synthesized in order to explore structure-activity relationships. The anti-proliferative effect of solenopsin and analogs was tested on six different cell lines, including three tumor cell lines, two normal cutaneous cell lines, and one immortalized hyperproliferative cell line. FRET-based reporters were used to study the affect of solenopsin and analogs on Akt activity and PDK1 activation and sucrose density gradient fractionation was performed to examine recruitment of PTEN to membrane rafts. Western-blotting was used to evaluate the affect of solenopsin and analogs on the Akt and the MAPK 44/42 pathways in three different tumor cell lines. Measurement of cellular oxygen consumption rate together with autophagy staining was performed to study mitochondrial function. Finally, the affect of solenopsin and analogs on ROS production was investigated.

Results: In this paper we demonstrate that solenopsin analogs with potent anti-proliferative effects can be synthesized from inexpensive dimethylpyridines. To determine whether solenopsin and analogs act as ceramide analogs, we examined the effect of solenopsin and analogs on two stereotypic sites of ceramide activity, namely at lipid rafts and mitochondria. We found that native solenopsin, (-)-solenopsin A, inhibits functional Akt activity and PDK1 activation in lipid rafts in a similar fashion as ceramide. Both cis and trans analogs of solenopsin reduce mitochondrial oxygen consumption, increase reactive oxygen, and kill tumor cells with elevated levels of Akt phosphorylation. However, only solenopsin induces mitophagy, like ceramide.

Conclusions: The requirements for ceramide induced mitophagy and inhibition of Akt activity and PDK1 activation in lipid rafts are under strict stereochemical control. The naturally occurring (-)-solenopsin A mimic some of the functions of ceramide and may be therapeutically useful in the treatment of hyperproliferative and malignant disorders of the skin, even in the presence of elevated levels of Akt.

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来源期刊
Vascular Cell
Vascular Cell Neuroscience-Neurology
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