Université Paris Est, Creteil, France.
Antioxid Redox Signal. 2012 Jan 15;16(2):153-63. doi: 10.1089/ars.2011.3959. Epub 2011 Sep 15.
Carbon monoxide (CO) delivered in a controlled manner to cells and organisms mediates a variety of pharmacological effects to the extent that CO-releasing molecules (CO-RMs) are being developed for therapeutic purposes. Recently, ruthenium-based CO-RMs have been shown to posses important bactericidal activity. Here we assessed the effect of fast CO releasers containing ruthenium (Ru(CO)(3)Cl(glycinate) [CORM-3] and tricarbonyldichlororuthenium(II) dimer [CORM-2]) and a novel slow manganese-based CO releaser ([Me(4)N][Mn(CO)(4)(thioacetate)(2)] [CORM-371]) on O(2) consumption and growth of Pseudomonas aeruginosa (PAO1). We then compared these effects with the action elicited by sodium boranocarbonate (CORM-A1), which lacks a transition metal but liberates CO with a rate similar to CORM-371.
CORM-2, CORM-3, and, to a lesser extent, CORM-371 exerted a significant bactericidal effect and decreased O(2) consumption in PAO1 in vitro. The effect appeared to be independent of reactive oxygen species production, but in the case of metal-containing compounds it was prevented by the thiol donor N-acetylcysteine. In contrast, CORM-A1 was bacteriostatic rather than bactericidal in vitro eliciting only a moderate and transient decrease in O(2) consumption.
None of the tested CO-RMs was toxic to murine macrophages or human fibroblasts at the concentration impairing PA01 growth but only ruthenium-containing CO-RMs showed potential therapeutic properties by increasing the survival of mice infected with PA01.
CO carriers inhibit bacterial growth and O(2) consumption in vitro, but transition metal carbonyls appear more powerful than compounds spontaneously liberating CO. The nature of the metal in CO-RMs also modulates the anti-bacterial effect, with ruthenium-based CO-RMs being efficacious both in vitro and in vivo.
一氧化碳(CO)以受控的方式输送到细胞和生物体中,介导各种药理学效应,以至于 CO 释放分子(CO-RMs)正在被开发用于治疗目的。最近,基于钌的 CO-RMs 已被证明具有重要的杀菌活性。在这里,我们评估了含有钌的快速 CO 释放剂(Ru(CO)(3)Cl(glycinate) [CORM-3]和三羰基二氯合钌(II)二聚体[CORM-2])和一种新型的缓慢锰基 CO 释放剂([Me(4)N][Mn(CO)(4)(thioacetate)(2)] [CORM-371])对铜绿假单胞菌(PAO1)的 O2 消耗和生长的影响。然后,我们将这些作用与缺乏过渡金属但以类似于 CORM-371 的速率释放 CO 的硼酸钠碳化氢(CORM-A1)的作用进行了比较。
CORM-2、CORM-3,并且在较小程度上,CORM-371 在体外对 PAO1 具有显著的杀菌作用,并降低 O2 消耗。该作用似乎与活性氧物质的产生无关,但对于含有金属的化合物,它被硫醇供体 N-乙酰半胱氨酸所阻止。相比之下,CORM-A1 在体外是抑菌而非杀菌的,仅引起 O2 消耗的适度和短暂下降。
在损害 PA01 生长的浓度下,没有一种测试的 CO-RMs 对小鼠巨噬细胞或人成纤维细胞有毒,但只有含钌的 CO-RMs 通过增加感染 PA01 的小鼠的存活率显示出潜在的治疗特性。
CO 载体在体外抑制细菌生长和 O2 消耗,但过渡金属羰基化合物比自发释放 CO 的化合物更有效。CO-RMs 中金属的性质也调节了抗菌作用,基于钌的 CO-RMs 在体外和体内均有效。
