Alberto Roger, Motterlini Roberto
Institute of Inorganic Chemistry, University of Zürich, Winterthurerstr. 190, CH-8057, Zürich, Switzerland.
Dalton Trans. 2007 May 7(17):1651-60. doi: 10.1039/b701992k. Epub 2007 Apr 3.
The advent of CO as a small molecule that, in addition to NO, elicits essential biological functions has initiated the search for compounds and complexes capable of releasing CO in a well defined manner under physiological conditions. Since some pharmacological and therapeutic effects of CO have been established in preclinical studies, tailor-made CO-releasing molecules (CORMs) which could be utilized as pharmaceuticals could be of great benefit for many patients. Release of CO(2) is one of the most common features in chemistry and NO producing molecules are very well established but compounds with CO-releasing properties are rare. Some of the more promising candidates and molecules under study are discussed in this article. Furthermore, molecules that possess intrinsic features to serve as potential CO-RMs and merit in depth investigations are proposed. The focus is thereby on main group compounds and on transition element complexes. It should be emphasized that CORMs not only have encouraging prospects as therapeutic agents but may also be significant for synthetic pathways to novel complexes containing the CO ligand. To underline the prospects of CORMs, the chemical part is embedded in a biological and medicinal context.
除一氧化氮(NO)外,一氧化碳(CO)作为一种能引发重要生物学功能的小分子的出现,引发了人们对能够在生理条件下以明确方式释放CO的化合物和配合物的探索。由于在临床前研究中已经确定了CO的一些药理和治疗作用,因此可作为药物使用的定制CO释放分子(CORMs)可能会使许多患者受益匪浅。释放CO₂是化学中最常见的特征之一,产生NO的分子也已得到充分研究,但具有CO释放特性的化合物却很罕见。本文讨论了一些更有前景的候选物和正在研究的分子。此外,还提出了具有作为潜在CO-RM的内在特征且值得深入研究的分子。因此,重点是主族化合物和过渡元素配合物。应该强调的是,CORMs不仅作为治疗剂具有令人鼓舞的前景,而且对于含有CO配体的新型配合物的合成途径也可能具有重要意义。为了强调CORMs的前景,化学部分被置于生物学和医学背景中。
