Institute of Biotechnology, Academy of Sciences of the Czech Republic, Prague, Czech Republic.
Antioxid Redox Signal. 2011 Dec 15;15(12):2951-74. doi: 10.1089/ars.2011.3990. Epub 2011 Sep 1.
Mitochondria are emerging as highly intriguing organelles showing promise but that are yet to be fully exploited as targets for anticancer drugs.
A group of compounds that induce mitochondrial destabilization, thereby affecting the physiology of cancer cells, has been defined and termed 'mitocans.' Based on their mode of action of targeting in and around mitochondria, we have placed these agents into several groups including hexokinase inhibitors, compounds targeting Bcl-2 family proteins, thiol redox inhibitors, VDAC/ANT targeting drugs, electron transport chain-targeting drugs, lipophilic cations targeting the inner membrane, agents affecting the tricarboxylic acid cycle, drugs targeting mtDNA, and agents targeting other presently unknown sites.
Mitocans have a potential to prove highly efficient in suppressing various malignant diseases in a selective manner. They include compounds that are currently in clinical trial and offer substantial promise to become clinically applied drugs. Here we update and redefine the individual classes of mitocans, providing examples of the various members of these groups with a particular focus on agents targeting the electron transport chain, and indicate their potential application in clinical practice.
Even though reactive oxygen species induction is important for the anticancer activity of many mitocans, the precise sequence of events preceding and following this pivotal event are not yet fully clarified, and warrant further investigation. This is imperative for effective deployment of these compounds in the clinic.
线粒体作为极具吸引力的细胞器正在逐渐兴起,它们具有很大的应用潜力,但尚未被充分开发为抗癌药物的靶点。
已经定义并将一组能够诱导线粒体不稳定从而影响癌细胞生理机能的化合物称为“线粒体靶向药物”。根据它们在靶向线粒体及其周围的作用模式,我们将这些药物分为几类,包括己糖激酶抑制剂、靶向 Bcl-2 家族蛋白的化合物、硫醇氧化还原抑制剂、VDAC/ANT 靶向药物、电子传递链靶向药物、靶向内膜的亲脂性阳离子、影响三羧酸循环的药物、靶向 mtDNA 的药物以及靶向其他目前未知靶点的药物。
线粒体靶向药物有可能以选择性方式高效抑制各种恶性疾病。其中包括目前正在临床试验中的化合物,它们具有很大的临床应用潜力。在这里,我们更新并重新定义了线粒体靶向药物的各个类别,提供了这些药物组的各种成员的例子,特别关注靶向电子传递链的药物,并指出它们在临床实践中的潜在应用。
尽管许多线粒体靶向药物的抗癌活性都与活性氧的诱导有关,但这一关键事件之前和之后的事件序列尚未完全阐明,值得进一步研究。这对于这些化合物在临床上的有效应用至关重要。
