Organic and Medicinal Chemistry Division, CSIR-Indian Institute of Chemical Biology, Kolkata 700 032, India.
Organic and Medicinal Chemistry Division, CSIR-Indian Institute of Chemical Biology, Kolkata 700 032, India.
J Photochem Photobiol B. 2017 Sep;174:173-181. doi: 10.1016/j.jphotobiol.2017.07.022. Epub 2017 Jul 22.
Single stranded RNAs are biologically potent as they participate in various key cellular processes. The binding efficacy of two potent anticancer alkaloids, sanguinarine (here after SANG) and chelerythrine (here after CHEL), with single-stranded ribonucleic acids poly(rI), poly(rG), and poly(rC) were studied using spectroscopic and thermodynamic tools. Results reveal that both SANG and CHEL binds well with single stranded RNAs with affinity in the order poly(rI)>poly(rG)>poly(rC). CHEL showed slightly higher affinity compared to SANG with all the single stranded RNAs. Both SANG and CHEL showed association affinity of the lower 10 order with poly(rI), higher 10 order binding with poly(rG) and lower 10 order with poly(rC). The binding mode was partial intercalation due to the staking interaction between the bases and the alkaloids. The complexation of both the SANG and CHEL to the RNAs were mainly enthalpy driven and also favoured by entropy changes. Perturbation was observed in the RNA conformation due to binding of the alkaloids. In this present study we have deciphered the fundamental structural and calorimetric aspects of the interaction of the natural benzophenanthridine alkaloids with single stranded RNAs and these results may help to develop new generation alkaloid based therapeutics targeting single stranded RNAs.
单链 RNA 具有很强的生物学活性,因为它们参与了各种关键的细胞过程。本文使用光谱和热力学工具研究了两种强效抗癌生物碱血根碱(SANG)和白屈菜红碱(CHEL)与单链核糖核酸 poly(rI)、poly(rG)和 poly(rC)的结合效果。结果表明,SANG 和 CHEL 都能与单链 RNA 很好地结合,亲和力顺序为 poly(rI)>poly(rG)>poly(rC)。与所有单链 RNA 相比,CHEL 的亲和力略高。SANG 和 CHEL 与 poly(rI)的结合亲和力均在较低的 10 次方,与 poly(rG)的结合亲和力较高的 10 次方,与 poly(rC)的结合亲和力较低的 10 次方。结合模式为部分嵌入,这是由于碱基和生物碱之间的堆积相互作用。SANG 和 CHEL 与 RNA 的络合主要是由焓驱动的,熵变也有利于结合。由于生物碱的结合,RNA 的构象发生了扰动。在本研究中,我们揭示了天然苯并菲啶生物碱与单链 RNA 相互作用的基本结构和量热学方面,这些结果可能有助于开发针对单链 RNA 的新一代基于生物碱的治疗方法。
