利用硫杂[4]炔 C-1193 对线粒体的功能活性产生定向影响,并利用 Petri 网模拟这一过程。

Biotechnologia Pub Date : 2024-03-29 eCollection Date: 2024-01-01 DOI:10.5114/bta.2024.135643
Hanna Danylovych, Yurii Danylovych, Alexander Chunikhin, Sergiy Cherenok, Vitaly Kalchenko, Sergiy Kosterin
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引用次数: 0

摘要

在分子生物学研究中,被称为钙[4]烯的大环纳米级化合物备受关注。生化膜学和分子生物技术的当务之急是探索能够改变线粒体内膜氧化还原反应强度并影响其 Ca2+ 运输系统活性的效应物。仿真模型的开发有助于对实验数据进行形式化和概括,并评估实验结果与理论预测的一致性。实验是在分离的大鼠子宫肌线粒体悬浮液中进行的。实验采用了合成的含四个硫原子的硫杂[4]炔 C-1193。在 C-1193 的存在下,线粒体对 Ca2+ 积累和活性氧(ROS)形成的抑制作用具有时间依赖性和浓度依赖性(0.01-10 μM)。虽然 C-1193 抑制了 NADH 和 FADH2 的氧化,但并没有诱导线粒体肿胀。硫杂六[4]炔还能抑制一氧化氮的合成,其 Ki 值为 5.5 ± 1.7 nM,使其成为线粒体中内源性 NO 生成的高亲和力阻断剂。这些结果为可能将合成的硫杂六[4]炔作为研究线粒体生化过程的工具奠定了基础。我们利用功能混合 Petri 网建立了一个模拟模型,再现了线粒体的功能活动,包括同时进行的 NADH 氧化、ROS 形成、NO 合成和 Ca2+ 积累。推导出的方程正式描述了在硫杂[4]炔 C-1193 影响下介质中上述过程的时间依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Use of thiacalix[4]arene C-1193 for a directed influence on the functional activity of mitochondria and simulation of this process using a Petri nets.

In molecular biological studies, considerable attention is paid to macrocyclic nanoscale compounds known as calix[4]arenes. An imperative concern in biochemical membranology and molecular biotechnology is the exploration of effectors capable of modifying the intensity of redox reactions within the inner mitochondrial membrane and influencing the activity of its Ca2+ transport systems. The simulation model development is relevant to formalize and generalize the experimental data and assess the conformity of experimental results with theoretical predictions. Experiments were carried out on a suspension of isolated rat myometrial mitochondria. The synthesized thiacalix[4]arene C-1193, containing four sulfur atoms, was employed. Demonstrations of time-dependent and concentration-dependent (0.01-10 μM) inhibition of Ca2+ accumulation and reactive oxygen species (ROS) formation by mitochondria in the presence of C-1193 were observed. While C-1193 inhibited the oxidation of NADH and FADH2, it did not induce mitochondrial swelling. The thiacalix[4]arene also inhibited the synthesis of nitric oxide, with a Ki of 5.5 ± 1.7 nM, positioning it as a high-affinity blocker of endogenous NO generation in mitochondria. These results are the basis for the possible application of the synthesized thiacalix[4]arene as a tool in researching biochemical processes in mitochondria. A simulation model employing functional hybrid Petri nets was developed, reproducing the functional activity of mitochondria, including simultaneous NADH oxidation, ROS formation, NO synthesis, and Ca2+ accumulation. The derived equations formalize and describe the time dependencies of the listed processes in the medium under the influence of thiacalix[4]arene C-1193.

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