Elevated N1-Acetylspermidine Levels in Doxorubicin-treated MCF-7 Cancer Cells: Histone Deacetylase 10 Inhibition with an N1-Acetylspermidine Mimetic.

IF 2.5 Q3 ONCOLOGY Journal of Cancer Prevention Pub Date : 2024-06-30 DOI:10.15430/JCP.24.002
Ajay Kumar Raj, Kiran Bharat Lokhande, Kratika Khunteta, Sachin Chakradhar Sarode, Nilesh Kumar Sharma
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Abstract

Cancer drug resistance is associated with metabolic adaptation. Cancer cells have been shown to implicate acetylated polyamines in adaptations during cell death. However, exploring the mimetic of acetylated polyamines as a potential anticancer drug is lacking. We performed intracellular metabolite profiling of human breast cancer MCF-7 cells treated with doxorubicin (DOX), a well known anticancer drug. A novel and in-house vertical tube gel electrophoresis assisted procedure followed by LC-HRMS analysis was employed to detect acetylated polyamines such as N1-acetylspermidine. We designed a mimetic N1-acetylspermidine (MINAS) which is a known substrate of histone deacetylase 10 (HDAC10). Molecular docking and molecular dynamics (MDs) simulations were used to evaluate the inhibitory potential of MINAS against HDAC10. The inhibitory potential and the ADMET profile of MINAS were compared to a known HDAC10 inhibitor Tubastatin A. N1-acetylspermidine, an acetylated form of polyamine, was detected intracellularly in MCF-7 cells treated with DOX over DMSO-treated MCF-7 cells. We designed and curated MINAS (PubChem CID 162679241). Molecular docking and MD simulations suggested the strong and comparable inhibitory potential of MINAS (-8.2 kcal/mol) to Tubastatin A (-8.4 kcal/mol). MINAS and Tubastatin A share similar binding sites on HDAC10, including Ser138, Ser140, Tyr183, and Cys184. Additionally, MINAS has a better ADMET profile compared to Tubastatin A, with a high MRTD value and lower toxicity. In conclusion, the data show that N1-acetylspermidine levels rise during DOX-induced breast cancer cell death. Additionally, MINAS, an N1-acetylspermidine mimetic compound, could be investigated as a potential anticancer drug when combined with chemotherapy like DOX.

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多柔比星处理的 MCF-7 癌细胞中 N1-乙酰基过脒水平升高:组蛋白去乙酰化酶 10 与 N1-乙酰基过脒模拟物的抑制作用。
癌症耐药性与代谢适应有关。研究表明,癌细胞在细胞死亡过程中的适应性与乙酰化多胺有关。然而,目前还缺乏对乙酰化多胺作为潜在抗癌药物的模拟物的探索。我们对使用多柔比星(DOX)(一种众所周知的抗癌药物)治疗的人类乳腺癌 MCF-7 细胞进行了细胞内代谢物分析。我们采用了一种新颖的内部垂直管凝胶电泳辅助程序,然后进行 LC-HRMS 分析,以检测乙酰化多胺,如 N1-乙酰精胺。我们设计了一种模拟 N1-乙酰精胺(MINAS),它是组蛋白去乙酰化酶 10(HDAC10)的已知底物。我们利用分子对接和分子动力学(MDs)模拟评估了 MINAS 对 HDAC10 的抑制潜力。MINAS的抑制潜力和ADMET谱与已知的HDAC10抑制剂Tubastatin A进行了比较。与DMSO处理的MCF-7细胞相比,在DOX处理的MCF-7细胞中检测到了多胺的乙酰化形式--N1-乙酰精胺。我们设计并策划了 MINAS(PubChem CID 162679241)。分子对接和 MD 模拟表明,MINAS(-8.2 kcal/mol)与 Tubastatin A(-8.4 kcal/mol)具有很强的可比抑制潜力。MINAS 和 Tubastatin A 在 HDAC10 上有相似的结合位点,包括 Ser138、Ser140、Tyr183 和 Cys184。此外,与 Tubastatin A 相比,MINAS 的 ADMET 特性更好,MRTD 值更高,毒性更低。总之,数据显示,在 DOX 诱导的乳腺癌细胞死亡过程中,N1-乙酰精胺水平会升高。此外,MINAS 作为一种 N1-乙酰精胺模拟化合物,在与 DOX 等化疗药物联合使用时,可作为一种潜在的抗癌药物进行研究。
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